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Mar 27,  · It will allow a user of an older version of Inventor to reference a future file format into their assembly, providing basic backward compatibility. AnyCAD has always supported 2D and 3D as well as Autodesk and non-Autodesk formats. We are. now adding future formats also with new support for Inventor Estimated Reading Time: 7 mins. Jun 30,  · Backwards Compatibility!!! Ok, it’s really simple idea wise. CLEARLY there is a way to make it go forward, and even Microsoft caved when they changed from the Doc to Docx format to allow older versions of Word to view/edit things. Are you telling me that the difference between 20is THAT big, that there is no POSSIBLE way for someone. When opening a file in Inventor I get this message. A compatibility pack is needed to open this file. You will need to have update 4 for Inventor as this warning is given when trying to open a Inventor file with out the update 4 for Inventor applied. You can use this link to get the update.
 
 

Autodesk inventor 2018 backwards compatibility free download. The next step in professional-grade engineering is here

 
Previous product versions. Posted by glyerl at 年05月05日 In response to the position of the multi-position control switch of the handle assembly , the control circuit ‘can operate the cylinders and in the manner described above. Thank You!! At first i build the hole and after that the thread. Surgical instrument comprising a closing drive and a firing drive operated from the same rotatable output. In Bengali Uponnas means Novel..

 

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Think of a parametric CAD model like you would a recipe that calls for lots of ingredients. All need to be brought together in the right way and in the right sequence. Precision, accuracy, and reliability are key, so older versions are inventof blocked from trying to interpret future formats.

Because of this, updating to a new version of CAD has traditionally entailed a tradeoff. Sure, you could kick out a STEP file and share it, but doing so relies on a translation and throws away a lot of the intelligence built into native parts and assemblies. Soon it will also support current and future formats. It will allow a user of an older version of Inventor to reference a future file format into their assembly, providing basic backward compatibility.

We are now adding future formats also with new support for Inventor What does that mean? You want to take advantage of Inventor as soon as it comes out, but your collaborator is on Inventor With this new capability, you can…. This video probably does a better job of dompatibility the idea—an Inventor user creating some designs and another user on Inventor It can be referenced into version as well.

The idea is to make it easier to help people adopt these major autodesk inventor windows 10 compatibility free just a little bit sooner so they can start taking advantage of all they have vompatibility offer. Jon den Hartog — Sr. Product Manager, Inventor Product Line jon. Connect with: Log in. There are no comments. With this new capability, you can… Create or edit a model in Inventor Either a part or assembly.

Save the file s in Inventor format like usual and share with your collaborator. Make sure your collaborator is on Inventor This contains the intelligence for being able to reference the models.

Your collaborator can use Inventor But just like with other AnyCAD references they can review properties, run simulations, gezginler free dreamweaver cs6 adobe up for machining with CAM, or modify inventof geometry using feee editing.

And if you ever modify that design in versionthose updates can be automatically accounted for without re-work in thanks to an associative connection.

When autodeskk collaborator on Inventor From that point onward everything is all in format and the referenced model acts just like a regular part or assembly. Related Articles. Product Autodesk inventor windows 10 compatibility free.

Here we are with another great release of Inventor that continues to be driven by you. Thank you to all of you who have taken the time to send us your feedback and suggestions.

This autodesk inventor windows 10 compatibility free will provide an overview of the enhancements and improvements you should expect to see after installing Inventor Over […].

For example, the button can control the valve of the cutter supply line By actuating the valve , pressurized fluid supplied into the manifold by the pump can flow into the cutting bag via the supply line Similarly, when the actuator button is used to control the valves , , the button can be actuated to inflate the staple bags 90 and 92 and fire the corresponding staple Multiple buttons can be selected to form a firing pattern that includes more than one implementation.

For example, selecting a button , , , , configures a valve unit that, when the firing trigger is pressed by the control circuit , fires the hydraulic device corresponding to the particular surgical implementation part. can do. It will be appreciated that various embodiments may have a greater or lesser number of input buttons than illustrated. In one embodiment, the firing trigger is pivotally attached to the handle away from the closure trigger , and one or more firing sensors not shown are disposed to detect the position of the firing trigger.

Can do. The control circuit can then communicate with the firing sensor and control various valves to allow pressurized fluid to flow into the various stapling bags to achieve the desired firing sequence.

限定目的ではない様々な実施形態では、弁ユニット280は、エンドエフェクタ12内に設けられた1または複数の外科実施部分の駆動を遅延させるように構成することができる。例えば、切断実施部分を移動させてから、所定時間遅らせて、1または複数のゾーンのステープル止め実施部分を作動させるのが望ましい場合がある。この遅延は、任意の好適な方法によって達成することができる。限定目的ではない一実施形態では、制御回路300によって、エンドエフェクタ12内に設けられた第1の外科実施部分と液圧ポンプ230との間の作動液の流路を開けるように弁ユニット280を設定することができる。発射トリガー208が作動すると、ポンプ230が、第1の外科実施部分を作動させる加圧された作動液を生成することができる。制御回路300は、第1の外科実施部分が作動すると、これを検出して(例えば、発射トリガー208の位置の検出によって)、所定の遅延時間を計るタイマーを開始させる。所定の遅延時間が経過した時点で、制御回路318が、加圧された作動液が第2の外科実施部分に供給されるように弁ユニット280を設定することができる。発射トリガー208の作動で生成される液圧は、第2の外科実施部分を作動させるのに十分であり、様々な実施形態では、液圧ポンプ230を用いて、別の液圧を生成することができる。 In various non-limiting embodiments, the valve unit can be configured to delay the actuation of one or more surgical implementation portions provided within the end effector For example, it may be desirable to activate the stapling execution portion of one or more zones after moving the cutting execution portion and then delaying by a predetermined time.

This delay can be achieved by any suitable method. In one non-limiting embodiment, the control circuit causes the valve unit to open a fluid flow path between the first surgical implementation portion provided in the end effector 12 and the hydraulic pump Can be set.

When the firing trigger is activated, the pump can generate pressurized hydraulic fluid that activates the first surgical implementation portion. The control circuit detects when the first surgical implementation portion is activated eg, by detecting the position of the firing trigger and starts a timer that measures a predetermined delay time.

When the predetermined delay time has elapsed, the control circuit can set the valve unit such that pressurized hydraulic fluid is supplied to the second surgical implementation part. The hydraulic pressure generated by actuation of the firing trigger is sufficient to actuate the second surgical implementation, and in various embodiments, the hydraulic pump can be used to generate another hydraulic pressure.

The distal end is mechanically coupled to the end effector body 24 e. The distal tube segment can be partially hollow. Proximal end is mechanically attached to handle assembly In one embodiment, the proximal end can be attached to the handle assembly by, for example, an internal groove retainer disposed on the handle assembly. However, other mechanical clamping structures can be used. 一実施形態では、遠位チューブセグメント410は、ボールジョイント組立体460によって近位チューブセグメント450に旋回可能に結合されている。一実施形態では、ボールジョイント組立体460は、遠位チューブセグメント410の近位端部414に形成されるか、またはこの近位端部に取り付けられた中空ボール部材462を含む。ボール部材462は、実質的に中空であるか、または内部に通路を備え、内部にホースおよび/またはワイヤを通すことができる。ボール部材462は、ソケット458の内部を自由に回転するように、近位チューブセグメント450の遠位端部に設けられたソケット458内に受容されている。 In one embodiment, distal tube segment is pivotally coupled to proximal tube segment by ball joint assembly In one embodiment, the ball joint assembly includes a hollow ball member formed at or attached to the proximal end of the distal tube segment Ball member is received in socket provided at the distal end of proximal tube segment for free rotation within socket The first articulating cylinder may include a conventional hydraulic or pneumatic cylinder having a first housing that includes a first piston therein.

A first piston rod or first actuating rod is attached to the first piston and protrudes from the first housing Movement of the piston within the first housing in response to the inflow of pressurized fluid or air to one or the other side of the piston causes the first actuating rod to move to the first cylinder housing Or retracts into the first cylinder housing A distal end of the first housing is pivotally pinned or otherwise secured to the proximal end of the distal tube segment The first actuation rod is formed from a flexible material such as rubber and its free end is secured to the distal end of the proximal tube segment The free end of the first actuation rod can be attached to the distal end , such as by adhesive or screws.

A first recess or series of recesses is provided on the outer surface of the ball member to provide the necessary clearance for the first actuating rod and the end of the first cylinder housing また、この限定目的ではない実施形態では、第2の関節動作シリンダ520は、内部に第2のピストン524を含む第2のハウジング522を有する従来の流体式または空気圧シリンダを含むことができる。第2のピストンロッドすなわち第2の作動ロッド526が、第2のピストン524に取り付けられ、第2のハウジング522から延出している。第2のピストン524の一方の側または他方の側への加圧流体または空気の流入に応答した第2のピストン524の第2のシリンダハウジング522内での移動により、第2の作動ロッド526が、第2のシリンダハウジング522から延出するか、または第2のシリンダハウジング522内に収縮する。第2のシリンダハウジング522は、遠位チューブセグメント410の近位端部414に旋回可能にピン止めまたは他の方法で固定されている。第2の作動ロッド526は、ゴムなどの可撓性材料から形成され、その自由端529は、近位チューブセグメント450の遠位端部454に固定されている。第2の作動ロッド526の自由端529は、接着剤またはネジなどによって遠位端部514に取り付けることができる。第2の凹部468または一連の凹部が、第2の作動ロッド526および第2のシリンダハウジング522の端部に必要なクリアランスを与えるために、ボール部材462の外面464に設けられている。 Also, in this non-limiting embodiment, the second articulating cylinder can include a conventional fluidic or pneumatic cylinder having a second housing that includes a second piston therein.

A second piston rod or second actuation rod is attached to the second piston and extends from the second housing Movement of the second piston in the second cylinder housing in response to the inflow of pressurized fluid or air to one side or the other side of the second piston causes the second actuation rod to move. Extends from the second cylinder housing or contracts into the second cylinder housing Second cylinder housing is pivotally pinned or otherwise secured to proximal end of distal tube segment The second actuation rod is formed from a flexible material such as rubber and its free end is secured to the distal end of the proximal tube segment The free end of the second actuation rod can be attached to the distal end such as by adhesive or screws.

A second recess or a series of recesses is provided on the outer surface of the ball member to provide the necessary clearance for the second actuating rod and the end of the second cylinder housing 第1および第2の関節動作シリンダ510、520は、液圧システム210によって動力を供給するか、または別の液圧システムによって動力を供給することができる。図11は、第1および第2の関節動作シリンダ510、520を制御する1つの方法を示している。この図面から分かるように、供給ライン570は、ポンプ230からの供給ライン240に接続されている。供給ライン570の第1の部分572が、第1のピストン514の一方の側の第1のシリンダハウジング512内に加圧流体または空気を供給するために、第1のシリンダハウジング512の第1の供給ポートに取り付けられており、供給ライン570の第2の部分574が、第1のピストン514の他方の側の第1のハウジング512内に加圧流体または空気を供給するために、第1のハウジング512の第2の供給ポートに取り付けられている。第1の供給弁576が、供給ライン570の第1の部分572内に取り付けられ、第2の供給弁578が、第1の供給ライン570の第2の部分574内に取り付けられている。排出ラインすなわち戻りライン580が、加圧流体を、第1のハウジング512から流体レザバー232に戻すために設けられている。戻りライン580は、第1のハウジング512のポートに取り付けられた第1の部分582および第2の部分584を有する。第1の戻し弁586が、戻りライン580の第1の部分582内に取り付けられ、第2の戻し弁588が、戻りライン580の第2の部分584に取り付けられている。 The first and second articulation cylinders , can be powered by the hydraulic system or by another hydraulic system.

As can be seen from this drawing, the supply line is connected to the supply line from the pump A first portion of the supply line provides a first fluid in the first cylinder housing for supplying pressurized fluid or air into the first cylinder housing on one side of the first piston A second portion of the supply line is attached to the supply port and the first portion is used to supply pressurized fluid or air into the first housing on the other side of the first piston Attached to the second supply port of housing A first supply valve is mounted in the first portion of the supply line , and a second supply valve is mounted in the second portion of the first supply line A drain or return line is provided to return pressurized fluid from the first housing to the fluid reservoir The return line has a first portion and a second portion that are attached to the ports of the first housing A first return valve is mounted in the first portion of the return line and a second return valve is mounted on the second portion of the return line 供給ライン570は、第2のピストン524の一方の側における第2のハウジング522の第3の供給ポートに接続された第3の部分590と、第2のピストン524の他方の側における第2のハウジング522の第4の供給ポートに接続された第4の部分592をさらに含む。弁596が、供給ライン570の第3の部分590に取り付けられ、別の弁598が、供給ライン570の第4の部分592に取り付けられている。別の戻りライン600が、シリンダ520の作動の際に、加圧流体または空気などをハウジング522からレザバー232に戻すために設けられている。戻りライン600は、第2のピストン524の一方の側における第2のハウジング522の第3の戻しポートに取り付けられた第3の部分602を含み、戻りライン600の第4の部分604が、第2のピストン524の他方の側における第2のハウジング522の第4の戻しポートに接続されている。戻し弁606が、戻りライン600の第3の部分602に設けられており、別の戻し弁608が、戻りライン600の第4の部分604に設けられている。 The supply line includes a third portion connected to the third supply port of the second housing on one side of the second piston and a second portion on the other side of the second piston Further included is a fourth portion connected to the fourth supply port of the housing A valve is attached to the third portion of the supply line and another valve is attached to the fourth portion of the supply line Another return line is provided to return pressurized fluid or air or the like from the housing to the reservoir during operation of the cylinder The return line includes a third portion attached to a third return port of the second housing on one side of the second piston , and the fourth portion of the return line is The second piston is connected to the fourth return port of the second housing on the other side.

A return valve is provided in the third portion of the return line , and another return valve is provided in the fourth portion of the return line Can be controlled. In other embodiments, which are not intended to be limiting, the control circuit ‘can include various logic circuit elements. A conventional multi-position switch , a series of switches, or push buttons, etc.

A tube assembly having one or more passages is formed. I want you to understand. In one embodiment, the first and second tube segments , have a round cross-sectional shape and are sized to be inserted axially into the round trocar passage The outer diameter of each of the proximal and distal tube segments , facilitates axial insertion of the tube assembly into the trocar passage , and the tube within the trocar passage as desired or required.

To facilitate rotation of assembly , it is slightly smaller than the inner diameter of trocar passage For example, if the trocar passage has an inner diameter of about It can be. In applications where rotation of the tube assembly within the trocar passage is not necessary or desirable, a trocar with a non-circular cross-section passage may be used.

In such cases, the tube assembly can have a cross-sectional shape that facilitates axial insertion of the tube assembly into the trocar passage and is similar to the cross-sectional shape of the trocar passage. Accordingly, the various embodiments of the present invention should not be limited to devices having a tube assembly with a round cross-sectional shape. After inserting the surgical implementation portion 12 into the trocar , the surgeon activates the control circuit ‘by means of the switch when articulation of the surgical implementation portion 12 is required.

Depending on the desired articulation angle and direction, the first piston and the second piston may both be extended, one extended and the other contracted, or both contracted, Member can be rotated within the socket to achieve the desired degree of articulation. Is opened and closed to extend the pistons and The reader will note that the first and second actuation rods , , depending on the force, bend rather than pivot during articulation, and the deflection and buckling of these rods , cause the distal tube segment to bend.

However, it should be understood that it further articulates with respect to the proximal tube segment In addition, if the articulating cylinders , are not aligned degrees around the longitudinal axis of the device, these cylinders , can be used to pivot about a point perpendicular to the longitudinal axis.

Instead, the end effector can be articulated in various planes. Such turning flexibility can be achieved by using the ball joint structure of this embodiment. With such a structure, the joint operation is greatly improved as compared with a structure that simply performs a joint operation around one axis. 関節動作シリンダ510、520を関節動作させるための前記した液圧制御システムは、使用できる制御システムの単なる一例である。読者は、本発明の精神および範囲から逸脱することなく、様々な種類の制御構造を用いて、関節動作シリンダを作動させることができることを理解できよう。例えば、前記した関節動作シリンダ510、520は、それぞれのピストンを両方向に移動させるために加圧流体/空気を流入させる必要がある。ピストンを初めの位置に戻すためにバネまたは他の機構を用いる他のシリンダを、当業者の技術範囲内である適当な弁および作動液供給構造と共に用いることができる。2つの関節動作シリンダを用いて説明してきたが、本発明の他の実施形態は、1つのみの関節動作シリンダまたは3つ以上の関節動作シリンダを用いることができることを理解できよう。また、ボール部材462を遠位チューブセグメント410に移動しないように取り付けて、ソケット458を近位チューブセグメント450に設けるとして説明したが、当業者であれば、限定目的ではない他の実施形態では、本発明の精神および範囲から逸脱することなく、ボール部材462を近位チューブセグメント450に移動しないように取り付けて、ソケット458を遠位チューブセグメント410に設けることができることを理解できよう。 The hydraulic control system described above for articulating the articulating cylinders , is just one example of a control system that can be used.

The reader will appreciate that various types of control structures can be used to operate the articulating cylinder without departing from the spirit and scope of the present invention.

Other cylinders that use springs or other mechanisms to return the piston to its original position can be used with appropriate valves and hydraulic fluid supply structures that are within the skill of the art.

Although described using two articulating cylinders, it will be appreciated that other embodiments of the invention may use only one articulating cylinder or more than two articulating cylinders. Also, while ball member has been described as being fixedly attached to distal tube segment and socket is provided in proximal tube segment , those skilled in the art will be aware that in other embodiments not limiting, It will be appreciated that the socket can be provided on the distal tube segment with the ball member mounted so as not to move to the proximal tube segment without departing from the spirit and scope of the present invention.

As can be seen from this figure, the distal tube segment has a proximal end and a distal axis H’-H ‘. Although not shown in FIG.

Depending on the structure used to close the anvil used, the distal end can be mounted so as not to move to the end effector body or can be attached by a cable, flexible member, or pivot member. 一実施形態では、遠位チューブセグメント1410は、ボールジョイント組立体1460によって近位チューブセグメントに旋回可能に結合されている。一実施形態では、ボールジョイント組立体は、近位チューブセグメント1450の遠位端部1454に形成されるか、またはこの遠位端部1454に取り付けられる中空ボール部材1462を含む。このボール部材1462は、通路1416に連通するようにフレアに広がるかまたは他の要領で拡大した端部1465を有する中空通路1464を備えているため、ボール部材1462の位置にかかわらず、内部を通るホース480および/またはワイヤが、締め付けられないか、または、そうでなければ損傷することがない。ボール部材1462は、遠位チューブセグメント1410の近位端部1414に設けられたソケット1458内に受容されているため、このソケット1458内で自由に旋回または回転することができる。 In one embodiment, distal tube segment is pivotally coupled to the proximal tube segment by ball joint assembly In one embodiment, the ball joint assembly includes a hollow ball member formed at or attached to the distal end of the proximal tube segment The ball member includes a hollow passage having an end that flares or otherwise expands to communicate with the passage , and therefore passes through the interior regardless of the position of the ball member The ball member is received in a socket provided at the proximal end of the distal tube segment so that it can freely pivot or rotate within the socket 一実施形態では、参照符号1500で示す関節動作組立体を用いて、遠位チューブセグメント1410を近位チューブセグメント1450に対して関節運動させる。図15から分かるように、限定目的ではない一実施形態では、2つの関節動作シリンダ1510、1520が用いられている。第1の関節動作シリンダ1510は、内部に第1のピストン1514を含む第1のハウジング1512を備えた従来の液圧または空気圧シリンダを含むことができる。第1のピストンロッドすなわち第1の作動ロッド516が、第1のピストン1514に取り付けられ、第1のハウジング1512から突出している。ピストン1514の一方の側または他方の側への加圧流体または空気の流入に応答したピストン1514の第1のハウジング1512内での移動により、第1の作動ロッド1516が、第1のシリンダハウジング1512から延出するか、またはこの第1のシリンダハウジング1512内に収縮する。第1のハウジング1512の遠位端部1518が、遠位チューブセグメント1410の近位端部1414の部分1415に旋回可能にピンで止められている。第1のシリンダハウジング1512の領域における近位端部1414の外面を、シリンダハウジング1512の旋回動作を容易にする形状とすることができる。第1の作動ロッド1516は、ゴムなどの可撓性材料から形成するか、または硬質材料から形成することができる。作動ロッド1516の自由端1519が、近位チューブセグメント1450の遠位端部1454に旋回可能にピンで止められるか、または別の方法で取り付けられている。 In one embodiment, the articulation assembly indicated by reference numeral is used to articulate the distal tube segment relative to the proximal tube segment The first articulation cylinder can include a conventional hydraulic or pneumatic cylinder with a first housing that includes a first piston therein.

Movement of the piston in the first housing in response to the inflow of pressurized fluid or air to one or the other side of the piston causes the first actuation rod to move to the first cylinder housing Or retracts into this first cylinder housing A distal end of the first housing is pivotally pinned to a portion of the proximal end of the distal tube segment The outer surface of the proximal end in the region of the first cylinder housing can be shaped to facilitate the pivoting action of the cylinder housing The first actuation rod can be formed from a flexible material such as rubber or from a hard material.

The free end of the actuation rod is pivotally pinned or otherwise attached to the distal end of the proximal tube segment 限定目的ではないこの実施形態では、第2の関節動作シリンダ1520は、内部に第2のピストン1524を含む第2のハウジング1522を備えた従来の液圧または空気圧シリンダを含むことができる。第2のピストンロッドすなわち第2の作動ロッド1526が、第2のピストン1524に取り付けられ、第2のハウジング1522から突出している。第2のピストン1524の一方の側または他方の側への加圧流体または空気の流入に応答した第2のピストン1524の第2のシリンダハウジング1522内での移動により、作動ロッド1526が、第2のシリンダハウジング1522から延出するか、またはこの第2のシリンダハウジング1522内に収縮する。第2のシリンダハウジング1522の遠位端部1523は、遠位チューブセグメント1410の近位端部1414の部分1417に旋回可能にピンで止められている。第2のシリンダハウジング1522の領域における近位端部1414の外面を、シリンダハウジング1522の旋回動作を容易にする形状にすることができる。第2の作動ロッド1526は、ゴムなどの可撓性材料から形成するか、または硬質材料から形成することができる。作動ロッド1526の自由端1529は、近位チューブセグメント1450の遠位端部1454に旋回可能にピンで止められるか、または他の方法で取り付けられている。 In this non-limiting embodiment, the second articulation cylinder can include a conventional hydraulic or pneumatic cylinder with a second housing that includes a second piston therein.

A second piston rod or second actuation rod is attached to the second piston and protrudes from the second housing Movement of the second piston in the second cylinder housing in response to the inflow of pressurized fluid or air to one side or the other side of the second piston causes the actuation rod to move to the second Extends from or retracts into the second cylinder housing The distal end of the second cylinder housing is pivotally pinned to a portion of the proximal end of the distal tube segment The outer surface of the proximal end in the region of the second cylinder housing can be shaped to facilitate the pivoting movement of the cylinder housing The second actuation rod can be formed from a flexible material such as rubber or from a hard material.

Distal tube segment and end effector 22 attached thereto articulates in the direction shown in FIG. Can be made. Similarly, distal tube segment can be pivoted in a direction opposite to that shown in FIG. In response to the position of the multi-position control switch of the handle assembly , the control circuit ‘can operate the cylinders and in the manner described above.

Although the reader has been described with two articulating cylinders, other embodiments of the present invention use only one articulating cylinder when only one angle of articulation is required or desirable. Understand what you can do. Also, although ball member has been described as being fixed to proximal tube segment and provided with socket on distal tube segment , those of ordinary skill in the art will be aware that in other embodiments that are not limiting, It will be appreciated that the socket can be provided in the proximal tube segment with the ball member attached so as not to move to the distal tube segment without departing from the spirit and scope of the present invention.

The disc-like member ‘is received in a socket ‘ provided at the proximal end of the distal tube segment so that it can rotate freely within the socket ‘. This embodiment typically uses actuators and as described above.

Similarly, however, the reader has described using two articulating cylinders, but other embodiments of the present invention may use only one if only one angle of articulation is required or desirable. It will be appreciated that other articulating cylinders may be used. I can do it. 別の代替の実施形態が、図16に示されている。この実施形態から分かるように、シリンダ1510の第1の作動ロッド1516の端部1519が、ボール部材1462の外面の一部に取り付けられており、第2の作動ロッド1516の端部1529も、ボール部材1462の一部に取り付けられている。この実施形態は、その他の点は、前記し、図15に示した実施形態と同じ構造および動作である。しかしながら、同様に、読者は、2つの関節動作シリンダを用いると前記したが、本発明の他の実施形態が、1つのみの角度の関節動作が必要または望ましい場合には、1つのみの関節動作シリンダを用いることができることを理解できよう。また、ボール部材1462を近位チューブセグメント1450に移動しないように取り付けて、ソケット1458を遠位チューブセグメント1410に設けるとして説明したが、当業者であれば、限定目的ではない他の実施形態では、本発明の精神および範囲から逸脱することなく、ボール部材1462を遠位チューブセグメント1410に移動しないように取り付けて、ソケット1458を近位チューブセグメント1450に設けることができることを理解できよう。 Another alternative embodiment is shown in FIG.

As can be seen from this embodiment, the end of the first actuating rod of the cylinder is attached to a part of the outer surface of the ball member , and the end of the second actuating rod is also a ball. A part of the member is attached. This embodiment is otherwise the same in structure and operation as the embodiment described above and shown in FIG. Similarly, however, the reader has been described above with two articulating cylinders, but other embodiments of the present invention may use only one joint if only one angular articulation is required or desirable.

It will be appreciated that a moving cylinder can be used. Also, while ball member has been described as being attached to proximal tube segment so that it does not move and socket is provided on distal tube segment , those of ordinary skill in the art will not be limited to other embodiments, It will be appreciated that the socket can be provided in the proximal tube segment with the ball member attached so as not to move to the distal tube segment without departing from the spirit and scope of the present invention.

Similarly, however, those skilled in the art have described using two articulating cylinders, but other embodiments of the present invention provide only one when only one angle of articulation is required or desirable. It will be appreciated that any articulating cylinder can be used.

As can be seen from this figure, the distal tube segment has a proximal end and a distal axis H “-H”. Depending on the structure used to close the anvil used, the distal end can be mounted so as not to move to the end effector body or can be mounted by a cable, flexible member, or pivot member.

The passage can have a conical portion 一実施形態では、遠位チューブセグメント2410は、ボールジョイント組立体2460によって近位チューブセグメント2450に旋回可能に結合されている。一実施形態では、ボールジョイント組立体2460は、近位チューブセグメント2450の遠位端部2454に形成されるか、またはこの遠位端部2454に取り付けられるボール部材2462を含む。ボール部材2462は、通路部分2416、2417と連通するようにフレアに広がったまたは他の要領で拡大した端部2465を有する中空通路2464を備えているため、ボール部材2462の位置にかかわらず、内部を通るホース480および/またはワイヤが、締め付けられないか、またはそうでなければ損傷することがない。ボール部材2462は、遠位チューブセグメント2410の近位端部2414に設けられたソケット2458内に受容されているため、このソケット2458内を自由に回転することができる。 In one embodiment, distal tube segment is pivotally coupled to proximal tube segment by ball joint assembly In one embodiment, the ball joint assembly includes a ball member formed at or attached to the distal end of the proximal tube segment The ball member is received in a socket provided at the proximal end of the distal tube segment so that it can rotate freely within the socket 一実施形態では、参照符号2500で示す作動組立体を用いて、遠位チューブセグメント2410を近位チューブセグメント2450に対して関節動作させる。図17から分かるように、限定目的ではない一実施形態では、2つの可撓性ウォームギヤケーブル2510、2520が用いられている。第1の可撓性ウォームギヤケーブル2510は、ボール部材2462に形成された第1のギヤ通路2465内のウォームギヤ歯、ネジなど(不図示)にねじ込めるように構成されている。第1の可撓性ウォームギヤケーブル2510は、遠位チューブセグメント2410内に設けられた第1のモータ2512に結合されている。同様に、この限定目的ではない実施形態では、第2の可撓性ウォームギヤケーブル2520は、ウォームギヤ歯、ネジ2469などを備え、ボール部材2462に形成された第2のギヤ通路2467内のギヤ歯、ネジなどにねじ込めるように構成されている。第2の可撓性ウォームギヤケーブル近位チューブセグメント2520は、遠位チューブセグメント2410に設けられた第2のモータ2522に結合されている。ここでは「可撓性ウォームギヤケーブル(flexible worm gear cables)」として記載したが、この用語は、ウォームギヤ型の歯を備える必要のない全てのタイプの可撓性駆動ケーブルまたは駆動構造を含むことを理解されたい。 In one embodiment, the actuation assembly shown at is used to articulate the distal tube segment relative to the proximal tube segment The first flexible worm gear cable is configured to be screwed into worm gear teeth, screws, etc.

not shown in the first gear passage formed in the ball member A first flexible worm gear cable is coupled to a first motor provided in the distal tube segment Similarly, in this non-limiting embodiment, the second flexible worm gear cable includes worm gear teeth, screws , etc.

Second flexible worm gear cable proximal tube segment is coupled to a second motor provided on distal tube segment Although described herein as “flexible worm gear cables”, it is understood that this term includes all types of flexible drive cables or drive structures that do not need to have worm gear type teeth. I want to be. 第1および第2のモータ2512、2522は、電気的に駆動させる(バッテリ234または別のバッテリ)、交流によって駆動させる、または作動液または空気によって駆動させることができる。一実施形態では、モータ2512、2522は、電気的に駆動され、ハンドル組立体200に設けられた1または複数のスイッチまたはボタン(不図示)によって操作する。第1および第2のウォームギヤケーブル2510、2520の回転の程度および回転の方向を制御して、ボール部材2462をソケット2458内で回転させ、これにより、遠位チューブセグメント2410(およびそこに取り付けられたエンドエフェクタ22)を近位チューブセグメント2450に対して関節動作させる。読者は、このような構造により、図17に示されているような左関節動作および右関節動作(不図示)を容易に行うことができることを理解できよう。しかしながら、同様に、読者は、2つの可撓性ウォームギヤケーブル/モータの構造を前記したが、本発明の他の実施形態が、1つのみの角度の関節動作が必要または望ましい場合には、1つのみの可撓性ウォームギヤケーブルの構造を用いることができることを理解できよう。また、ボール部材2462を近位チューブセグメント2450に移動しないように取り付けて、ソケット2458を遠位チューブセグメント2410に設けるとして説明したが、当業者であれば、限定目的ではない他の実施形態では、本発明の精神および範囲から逸脱することなく、ボール部材2462を遠位チューブセグメント2410に移動しないように取り付けて、ソケット2458を近位チューブセグメント2450に設けることができることを理解できよう。 The first and second motors , can be electrically driven battery or another battery , driven by alternating current, or driven by hydraulic fluid or air.

In one embodiment, the motors , are electrically driven and operated by one or more switches or buttons not shown provided on the handle assembly The degree and direction of rotation of the first and second worm gear cables , are controlled to rotate the ball member within the socket , thereby causing the distal tube segment and attached thereto. End effector 22 is articulated relative to proximal tube segment The reader will understand that such a structure allows the left joint movement and the right joint movement not shown as shown in FIG.

It will be appreciated that a structure of only one flexible worm gear cable can be used. Also, while ball member has been described as not being moved to proximal tube segment and socket is provided in distal tube segment , those skilled in the art will be aware that in other embodiments not limiting, It will be understood that the socket can be provided in the proximal tube segment with the ball member attached so as not to move to the distal tube segment without departing from the spirit and scope of the present invention.

The disk-like member ‘is received in a socket ‘ provided at the proximal end of the distal tube segment so that it can rotate freely within the socket ‘. This embodiment typically uses motor driven flexible worm gear cables , as described above. 本発明の限定目的ではない様々な実施形態は、従来の関節動作外科器具よりも多くの利点を有する。具体的には、本発明の様々な実施形態により、外科実施部分をハンドルに取り付けるチューブ部材の各部を、トロカールまたは類似の装置を介して挿入し、患者の体内で選択的に関節動作させることが可能となっている。液圧式エンドカッターの使用に関連して様々な実施形態をここに開示してきたが、当業者であれば、本発明の様々な実施形態が、電気式または液圧式に関係なく、電気式エンドカッターおよび他のタイプの外科実施部分を用いることができることを理解できよう。 Various non-limiting embodiments of the present invention have many advantages over conventional articulating surgical instruments.

Specifically, according to various embodiments of the present invention, portions of the tube member that attach the surgical implement to the handle can be inserted through a trocar or similar device to selectively articulate within the patient’s body.

It is possible. While various embodiments have been disclosed herein in connection with the use of a hydraulic end cutter, those skilled in the art will recognize that various embodiments of the present invention may be an electric end cutter, whether electrical or hydraulic. It will be appreciated that and other types of surgical implementations may be used.

様々な実施形態によって本発明を例示し、例示的な実施形態をかなり詳細に説明してきたが、出願者は、このような詳細な事項に、添付の特許請求の範囲を制限またはいかなる意味においても限定することを意図していない。当業者であれば、さらなる利点および改良に容易に想到するであろう。したがって、本発明は、内視鏡処置および装置に関連して説明してきた。しかしながら、ここで使用した「内視鏡下(endoscopic)」などの用語は、本発明を、内視鏡チューブ(すなわちトロカール)だけに使用する外科ステープル止め/切断器具に限定すると解釈すべきではない。むしろ、本発明は、限定するものではないが、腹腔鏡処置並びに開腹処置を含むアクセスが小さな切開部に限定されるあらゆる処置に用いることができると考えられる。さらに、本発明の様々な実施形態は、液圧式または空気式外科実施部分を備えた外科器具に関しての使用だけに限定されるべきものではない。本発明の様々な実施形態は、電気式外科実施部分を備えた外科器具および類似の器具にも有効に利用することができる。 While the invention has been illustrated by various embodiments and exemplary embodiments have been described in considerable detail, the applicant has limited such claims in any way to limit or limit the scope of the appended claims.

It is not intended to be limiting. One skilled in the art will readily appreciate further advantages and improvements. Thus, the present invention has been described in relation to endoscopic procedures and devices. Rather, it is contemplated that the present invention can be used for any procedure where access is limited to small incisions, including but not limited to laparoscopic procedures as well as open procedures.

Further, the various embodiments of the present invention should not be limited solely to use with surgical instruments with hydraulic or pneumatic surgical implementations. Various embodiments of the present invention can also be used effectively with surgical instruments and similar instruments that include an electrosurgical implementation. An actuator assembly for selectively rotating a portion of the ball member in the socket to articulate the distal tube segment relative to the proximal tube segment; An articulation assembly, A handle assembly, A surgical implement attached to the distal tube segment; Including surgical instruments.

第1の実質的に同軸的に整合した位置にあるチューブセグメントを備えた液圧式エンドカッターに用いるモーメントアーム伸長構造の限定目的ではない一実施形態の部分斜視図である。 FIG. チューブセグメントが互いに対して所定角度関節動作している、図1のエンドカッターおよびモーメントアーム伸長構造の別の斜視図である。 FIG. 見やすくするために一部の構成要素を省略し、アンビルが開位置、すなわちクランプしていない位置にある、図1および図2に示されているエンドカッターに用いられるエンドエフェクタの部分断面図である。 FIG. 切断バーが伸長した位置にあり、アンビルが閉位置、すなわちクランプした位置にある、図3のエンドエフェクタの別の断面図である。 FIG. 切断されてステープル止めされた後の組織を示す、図3および図4のエンドエフェクタの別の断面図である。 FIG. エンドエフェクタおよびステープルカートリッジの別の組立分解図である。 FIG. 図6および図7に示されているエンドエフェクタに取り付けられたステープルカートリッジの平面図である。 FIG.

トロカール通路内に挿入されたエンドエフェクタを例示する端部断面図である。 FIG. アンビルが開位置、すなわちクランプしていない位置にある、エンドエフェクタに取り付けられたカートリッジの斜視図である。 FIG. 本発明の1つの液圧システムの実施形態の概略図である。 1 is a schematic diagram of one hydraulic system embodiment of the present invention.

関節動作していない位置にある本発明の関節接合部の限定目的ではない一実施形態の部分斜視図である。 FIG. 関節動作した位置にある図12に示されている関節接合部の別の部分斜視図である。 FIG. 関節動作した位置にある図12および図13に示されている関節接合部の実施形態の別の部分斜視図である。 14 is another partial perspective view of the embodiment of the articulation joint shown in FIGS. 関節動作した位置にある本発明の関節接合部の限定目的ではない別の実施形態の部分断面図である。 FIG. 関節動作した位置にある本発明の別の関節接合部の部分断面図である。 It is a fragmentary sectional view of another joint joint part of this invention in the position which carried out the joint operation movement.

関節動作した位置にある本発明の別の関節接合部の実施形態の部分断面図である。 FIG. Various embodiments of the articulation joint include at least one fluid-actuated cylinder or flexible driven member to articulate a surgical implement relative to the handle assembly of the instrument.

請求項1に記載の外科器具において、 前記アクチュエータ組立体は、少なくとも1つの流体作動式シリンダを含む、外科器具。 The surgical instrument of claim 1, wherein The surgical instrument includes the actuator assembly including at least one fluid operated cylinder.

請求項3に記載の外科器具において、 前記第1の作動ロッドおよび前記第2の作動ロッドは、可撓性材料から形成されている、外科器具。 The surgical instrument of claim 3, wherein The surgical instrument, wherein the first actuation rod and the second actuation rod are formed from a flexible material.

請求項1に記載の外科器具において、 前記ボール部材は、前記遠位チューブセグメントおよび前記近位チューブセグメントに設けられている開口と連通するように構成された、前記ボール部材の内部を通る少なくとも1つの中空通路を有する、外科器具。 The surgical instrument of claim 1, wherein The surgical instrument having at least one hollow passage through the interior of the ball member configured to communicate with openings provided in the distal tube segment and the proximal tube segment.

請求項2に記載の外科器具において、 少なくとも1つの前記流体作動式シリンダの少なくとも一部にクリアランスを付与するべく、前記ボール部材の外面に形成された少なくとも1つの凹部、 をさらに含む、外科器具。 The surgical instrument of claim 2, wherein At least one recess formed in the outer surface of the ball member to provide clearance to at least a portion of the at least one fluid-operated cylinder; A surgical instrument further comprising: 請求項1に記載の外科器具において、 前記アクチュエータ組立体は、前記遠位チューブセグメントと前記近位チューブセグメントとの間に延在する少なくとも1つの可撓性駆動部材を含む、外科器具。 The surgical instrument of claim 1, wherein The actuator assembly includes at least one flexible drive member extending between the distal tube segment and the proximal tube segment.

請求項7に記載の外科器具において、 前記少なくとも1つの可撓性駆動部材は、前記ボール部材に形成された対応する通路にねじ込み可能な、モータに取り付けられた可撓性ウォームギヤケーブルを含む、外科器具。 The surgical instrument of claim 7, wherein The surgical instrument, wherein the at least one flexible drive member includes a flexible worm gear cable attached to a motor that can be screwed into a corresponding passage formed in the ball member. 請求項8に記載の外科器具において、 前記ボール部材は、前記遠位チューブセグメントおよび前記近位チューブセグメントに設けられている開口に連通するように構成された、前記ボール部材の内部を通る少なくとも1つの中空通路を有する、外科器具。 The surgical instrument of claim 8, wherein The surgical instrument having at least one hollow passage through the interior of the ball member configured to communicate with openings provided in the distal tube segment and the proximal tube segment.

請求項1に記載の外科器具において、 前記ボール部材は、前記遠位チューブセグメントの前記端部に移動しないように結合され、かつ、前記近位チューブセグメントの前記端部のソケット内に回転可能に受容されている、外科器具。 The surgical instrument of claim 1, wherein The surgical instrument, wherein the ball member is non-movably coupled to the end of the distal tube segment and is rotatably received in a socket at the end of the proximal tube segment.

Hydraulically and electrically actuated articulation joints for surgical instruments. JPA true JPA en. JPB2 JPB2 en. JPA Active JPB2 en. USA1 en. EPB1 en. JPB2 en.

CNB en. AUB2 en. BRPIA en. CAC en. MXPAA en. Pneumatically powered surgical cutting and fastening instrument with electrical control and recording mechanisms. USB2 en. Robotically-controlled shaft based rotary drive systems for surgical instruments. Surgical cutting and fastening instrument with apparatus for determining cartridge and firing motion status.

Surgical stapling device with lockout system for preventing actuation in the absence of an installed staple cartridge. Rotating support joint assembly for connecting a first portion of a surgical instrument to a second portion of the surgical instrument. Tissue thickness compensator comprising capsules defining a low pressure environment. Robotically-controlled surgical stapling devices that produce formed staples having different lengths.

Fastener cartridge comprising a cutting member for releasing a tissue thickness compensator. Robotically-controlled surgical instrument with selectively articulatable end effector. Motor-driven surgical cutting and fastening instrument with tactile position feedback. Powered surgical cutting and stapling apparatus with manually retractable firing system. Motor driven surgical fastener device with switching system configured to prevent firing initiation until activated.

Motorized surgical cutting and fastening instrument having handle based power source. Fastener cartridge comprising a firing member including fastener transfer surfaces. Fastener cartridge comprising a tissue thickness compensator including openings therein. Surgical instrument comprising a closing drive and a firing drive operated from the same rotatable output.

Articulatable surgical instruments with separate and distinct closing and firing systems. Motor interface for parallel drive shafts within an independently rotating member. Fastener cartridge comprising a tissue thickness compensator and a gap setting element.

Fastener cartridge assembly comprising a fixed anvil and a staple driver arrangement. Surgical cutting and stapling instruments with independent jaw control features. Surgical instrument systems comprising an articulatable end effector and means for adjusting the firing stroke of a firing member. Monitoring speed control and precision incrementing of motor for powered surgical instruments.

Surgical instruments with articulatable end effectors and movable firing beam support arrangements. Control techniques and sub-processor contained within modular shaft with select control processing from handle. Time dependent evaluation of sensor data to determine stability, creep, and viscoelastic elements of measures. Automated end effector component reloading system for use with a robotic system.

Locking arrangements for detachable shaft assemblies with articulatable surgical end effectors. Surgical apparatus configured to assess whether a performance parameter of the surgical apparatus is within an acceptable performance band. Stapling end effector configured to compensate for an uneven gap between a first jaw and a second jaw.

Articulatable surgical instruments with conductive pathways for signal communication. Surgical stapler having motor control based on an electrical parameter related to a motor current. Surgical instruments with tensioning arrangements for cable driven articulation systems.

Mechanisms for compensating for drivetrain failure in powered surgical instruments. USDS1 en. Mechanisms for compensating for battery pack failure in powered surgical instruments.

Method for closed loop control of motor velocity of a surgical stapling and cutting instrument. Control of motor velocity of a surgical stapling and cutting instrument based on angle of articulation.

Systems and methods for controlling displaying motor velocity for a surgical instrument. Endoscopic surgical instrument with a handle that can articulate with respect to the shaft.

Articulatable surgical instruments with articulation stroke amplification features. Surgical staples having attached drivers of different heights and stapling instruments for deploying the same. System for detecting the mis-insertion of a staple cartridge into a surgical stapler. Adaptive tissue compression techniques to adjust closure rates for multiple tissue types. Surgical shaft assemblies with slip ring assemblies with increased contact pressure.

Systems and methods for providing alerts according to the operational state of a surgical instrument. Percussion safety mechanism and percussion device of cutting anastomat and anastomat. USA en. Modular battery powered handheld surgical instrument with multiple magnetic position sensors. Compressible jaw configuration with bipolar RF output electrodes for soft tissue fusion. Surgical adapter assemblies for use between surgical handle assembly and surgical end effectors.

Surgical stapling instrument having an electroactive polymer actuated medical substance dispenser. EST3 en. Flexible endoscopic catheter with an end effector for coagulating and transfecting tissue. Articulation joint with improved moment arm extension for articulating an end effector of a surgical instrument.

Motor-driven surgical cutting and fastening instrument with adaptive user feedback. Motor-driven surgical cutting and fastening instrument with user feedback system. Motor-driven surgical cutting and fastening instrument with articulatable end effector.

Pneumatically powered surgical cutting and fastening instrument with mechanical linkage coupling end effector and trigger motion. Pneumatically powered surgical cutting and fastening instrument with a variable control of the actuating rate of firing with mechanical power assist. Surgical instrument with elements to communicate between control unit and end effector. Surgical instrument with wireless communication between control unit and remote sensor.

 
 

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Issue: How to open up an Inventor file, created with Inventor and newer, with an earlier release of Inventor and prior? Method and system for distributing content to a user device through a satellite network and a broadband network. Method and system of managing files within a content processing system based on publication time. Apparatus and method for conflict resolution in remote control of digital video recorders and the like.

Apparatus and method for remote wireless control of digital video recorders and the like. Apparatus And Method For Remote Control Of Digital Video Recorders And The Like. Systems, methods and computer program products for providing presence based services. PTE pt. Methods and apparatus for enhanced advertising and promotional delivery in a network. University of Washington UW TechTransfer—Invention Licensing. Scanning laser projection display devices and methods for projecting one or more images onto a surface with a light-scanning optical fiber.

Systems and methods for displaying media content and media guidance information. Dedicated button of remote control for advertisement delivery using interactive television. Method and apparatus for personalized multi-user centralized control and filtering of iptv content. Systems and methods for automatically detecting users within detection regions of media devices.

Systems and methods for providing automatic parental control activation when a restricted user is detected within range of a device. Automatic moderation of media content by a first content provider based on detected moderation by a second content provider. Method and apparatus for utilizing dynamic bandwidth allocation for recording content.

System and method to obtain content and generate modified content based on a time limited content consumption state. System and method for transferring media content from a mobile device to a home network. Systems and methods for dynamic management of geo-fenced and geo-targeted media content and content alternatives in content management systems.

Method of and System for Enhanced Content Discovery Based on Network and Device Access Behavior. Method and system for changing communication parameters of a content delivery system based on feedback from user devices.

System, terminal, server and method for providing rich application based multi-screen iptv service. System and method for simplifying discovery of content availability for a consumer. Method and apparatus for providing streaming media programs and targeted advertisements using multiple advertisement version segments.

KRB1 ko. Methods and apparatus for accessing external devices from a television receiver utilizing integrated content selection menus. CAC en. EPB1 en. Multi-functional display device having an electronic programming guide and method for controlling the same.

Multi-functional display device having a channel scan interface and a method for controlling the same. EPA3 en. Multi-functional display device having a channel map and method for controlling the same. WOA1 en. System and method for using an application on a mobile device to transfer internet media content. System and method for using a list of audio media to create a list of audiovisual media.

External storage device and method for opening directory of the external storage device. Identifying instances of media programming available from different content sources. System and method for scalable, high accuracy, sensor and id based audience measurement system. AUA1 en. System and method to increase efficiency and speed of analytics report generation in Audience Measurement Systems.

Display apparatus for processing multiple applications and method for controlling the same. CAA1 en. Systems and methods for initializing allocations of transport streams based on historical data. System and method for controlling and organizing metadata associated with on-line content.

Methods and apparatus for providing individual service subscribers content related services at one or more locations. Apparatus and methods for automated highlight reel creation in a content delivery network. System and methods for automatically obtaining cost-efficient access to a media content collection.

Systems and methods for translating generic requests into device specific requests based on location information. Systems and methods for auto-configuring a user equipment device with content consumption material. Methods and apparatus for providing and uploading content to personalized network storage. Systems and methods for detecting improper use of telecommunications reception device.

USDS1 en. Extending playing time of a video playing session by adding an increment of time to the video playing session after initiation of the video playing session. Systems and methods for providing a sequence of video-clips in a picture-in-guide. Sharing mobile subscriber content in a publically viewable content distribution network. Automatic video service actions based on matching a video content item to a content identifier. Apparatus and methods for data collection, analysis and service modification based on online activity.

Method and system of adapting quality for presenting content on a computing device. Information processing device, information processing method, receiving device, and receiving method. Method and system for obtaining content data in an in-vehicle infotainment system from a set top box.

Capturing and extracting fragmented data and data processing using machine learning. Systems and methods for resuming media in different modes of playback based on attributes of a physical environment.

Apparatus and methods for personalized content synchronization and delivery in a content distribution network. Conditionally providing network access to allow a network session to reach completion.

System for supplying streams of data to multiple users by distributing a data stream to multiple processors and enabling each user to manipulate supplied data stream. Internet online backup system provides remote storage for customers using IDs and passwords which were interactively established when signing up for backup services.

Digital television receiver with application programming interface for user management. GBA en. USA en. DEC3 de. DEB1 de. Fernsehempfaenger als Bildwiedergabe-Terminal fuer elektronische Peripherie-Gerte. JPSB2 ko. CAA en. BER fr. Dispositif de memorisation de la position instantanee d’une bande magnetique contenue dans une cassette. Grundig E. JPSA en. DEA1 de. Verfahren und vorrichtung zum steuern des betriebs eines fernsehsignalempfaengers.

JPSA ko. Tuning mode arrangement useful for restricting channel selection to certain channels. DEC2 de. JPHB2 ko. DEC2 ko. Telefunken Fernseh Und Rundfunk Gmbh, Hannover, De. GBB en. System for unattended recording of video programs by remote control code transmitter module which receives user selections from a personal computer. Method and apparatus for receiving customized television programming information by transmitting geographic location to a service provider through a wide-area network.

Method and apparatus for digital serial scanning with hierarchical and relational access. USREE en. Remote controlled receiver with provisions for automatically programming a channel skip list.

Einrichtung zum automatischen Ein- und Ausschalten des Aufzeichnungsbetriebs eines Videorecorders. JPSU ko. Television system scheduler with on-screen menu type programming prompting apparatus. Method for expanding interactive CATV displayable choices for a given channel capacity. JPHB2 ja. FRB1 fr. Procede et dispositif d’acquisition, de memorisation et de transmission de donnees specialisees relatives notamment a l’enregistrement des emissions, entre un appareil de type magnetoscope et un centre de traitement.

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