CN109498164A - Master operating station and operating robot with eyepiece - Google Patents

Abstract

The present invention relates to a kind of master operating station with eyepiece and with the operating robot of master operating station, wherein master operating station includes: bracket, display device and observation device, and display device is for showing image；Observing device has eyepiece, for observing described image shown by the display device, and it is corresponding with the operating area of operation portion by the operation image that the eyepiece is observed.

Description

Master operating station and operating robot with eyepiece

Technical field

The present invention relates to Minimally Invasive Surgery fields, more particularly to a kind of master operating station and operating robot.

Background technique

Minimally Invasive Surgery refers to be applied inside body cavity using the modern medical equipments such as laparoscope, thoracoscope and relevant device A kind of modus operandi of row operation.There are the advantages such as wound is small, pain is light, recovery is fast compared to traditional operation mode Minimally Invasive Surgery.

With the development of science and technology micro-wound operation robot technology graduallys mature, and it is widely used.Micro-wound operation robot It generally includes master operating station and from operation equipment, master operating station is used to send control to from operation equipment according to the operation of operator Order is used to respond the control command that master operating station is sent from operation equipment, and carry out corresponding hand with control from operation equipment Art operation.

However, the sense of reality is poor when enabling operation since operator is performed the operation by master operating station.

Summary of the invention

Based on this, it is necessary to provide a kind of stronger master operating station of the sense of reality and the operating robot with master operating station.

A kind of master operating station, comprising:

Bracket；

Display device, for showing image；

Device is observed, there is eyepiece, for observing described image shown by the display device, and passes through the mesh The operation image that sem observation arrives is corresponding with the operating area of operation portion.

In one of the embodiments, the positional relationship in operation portion and the operation image between the instrument of end and/or Movement relation is corresponding.

Positional relationship in one of the embodiments, between operation portion and end instrument in the operation image is consistent.

Movement relation in one of the embodiments, between operation portion and end instrument in the operation image is opposite It answers.

Operation portion and the movement tendency basic one operated in image between the instrument of end in one of the embodiments, It causes, posture relationship is almost the same.

The observation device is wholely set with the display device in one of the embodiments,.

The observation device and the display device are separately positioned in one of the embodiments,.

The observation device and/or the display device and the bracket are separately positioned in one of the embodiments,.

The observation device, the display device are arranged on the bracket in one of the embodiments,.

A kind of operating robot characterized by comprising above-mentioned master operating station and from operation equipment,

The master operating station is used to send control command from operation equipment to described according to the operation of doctor, described in control It is described to be used to respond the control command that master operating station is sent from operation equipment from operation equipment, and carry out corresponding operation.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of operating robot of the present invention；

Fig. 2 is this partial schematic diagram from operation one embodiment of equipment；

Fig. 3 is this partial schematic diagram from operation one embodiment of equipment；

Fig. 4 is the structural schematic diagram of one embodiment of master operating station of the present invention；

Fig. 5 is the use state diagram of master operating station shown in Fig. 4；

Fig. 6 is the structural schematic diagram of one embodiment of master operating station of the present invention；

Fig. 7 is the use state diagram of master operating station shown in Fig. 6；

Fig. 8 is the partial structural diagram of one embodiment of master operating station of the present invention；

Fig. 9 is the partial structural diagram of one embodiment of master operating station of the present invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being set to " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.When an element is considered as " coupling " another element, it can To be to be directly coupled to another element or may be simultaneously present centering elements.Term as used herein " vertically ", " water It is flat ", "left", "right" and similar statement for illustrative purposes only, be not meant to be the only embodiment.Herein Used term " distal end ", " proximal end " are used as the noun of locality, which is interventional medical device field common terminology, wherein " distal end " indicates that one end in surgical procedure far from operator, " proximal end " indicate one end that proximal operator is depended in surgical procedure.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

It as shown in Figure 1 to Figure 3, is respectively the structural schematic diagram of one embodiment of operating robot of the present invention, and from operation The partial schematic diagram of the different embodiments of equipment 20.

Operating robot include master operating station 10 and from operation equipment 20.Wherein, master operating station 10 is used for according to operator Operation to from operation equipment 20 send control command, with control from operation equipment 20, be also used to show from equipment obtain Image.It is used to respond the control command that master operating station 10 is sent from operation equipment 20, and carries out corresponding operation, and from operation Equipment 20 is also used to obtain intracorporal image.

Specifically, from operation equipment 20 include mechanical arm 21, be set on mechanical arm 21 power mechanism 22, be set to it is dynamic Motion arm 23 on force mechanisms 22, and it is arranged the casing 24 of motion arm 23.Mechanical arm 21 is used to adjust the position of motion arm 23 And posture；Power mechanism 22 is for driving motion arm 23 to execute corresponding operating；Motion arm 23 passes through its position for protruding into vivo End instrument in distal end executes surgical procedure, and/or obtains internal image, wherein end instrument can be execution surgical procedure Electric knife, clamp, endoscope etc..As shown in Figure 2 and Figure 3, motion arm 23 wears casing 24, and end instrument stretches out outside casing 24, And it is driven to execute operation by power mechanism 22.In Fig. 2, it is rigid region that motion arm 23, which is located at the region in casing 24,；Fig. 3 In, it is flexible region that motion arm 23, which is located at the region in casing 24, and casing 24 is with flexible region bends.In other embodiments, It can be omitted casing 24, at this point, being not necessarily to casing 24.

As shown in Figures 4 to 7, master operating station 10 include bracket 100, display device 200, operation portion 300, handrail 400 and Observe device 500.Wherein, display device 200 is used to show the in-vivo image of acquisition, and display operation image 30, both can be with It is set on bracket 100, can also be arranged independently of bracket.Operator is operated by operation portion 300, to enable from operation Equipment 20 executes corresponding movement, operation portion 300 can with for handle, as shown in Figure 6, Figure 7, during exercise without constraint, There can be constraint during exercise as shown in Figure 4, Figure 5 for structures such as operating sticks, for example, operation portion 300 is operating stick, It is connect with bracket 100.Handrail 400 is used for the arm and/or hand of placement operation person, so that operator more comfortably operates operation Portion 300.Observation device 500 is for observing described image shown by display device 200.According to actual needs, it also can be omitted Operation portion 300 can control by other means at this time from operation equipment 20, such as by obtaining hand gestures and position to from behaviour Make equipment 20 to be controlled；Also it can be omitted handrail 400；Also it can be omitted observation device 500, can directly observe at this time.

Operation portion 300 is operated in 30 region of operation image that display device 200 is shown, wherein operation portion 300 both may be used It, can also be in operation 30 peripheral region of image, for example, operation portion 300 is away from operation image 10cm to be located in operation image 30 In the range of operated.

In one embodiment, the relationship between operation portion 300 and end instrument in operation image 30 is corresponding.For example, position Relationship is corresponding, and positional relationship is corresponding for apart from proportional, apart from the corresponding relationships such as trend is corresponding.For another example, movement relation It is corresponding, can be corresponding for athletic posture, movement tendency is corresponding etc..Specifically, for example, the disease in operation image 30 of operation portion 300 It being operated near stove, distance between the two is corresponding with the distance between end instrument and lesion in operation image 30, And the posture of operation portion 300 is identical as the posture of end instrument.For another example, operation portion 300 and operation image 30 in end instrument it Between positional relationship it is consistent.When i.e. focal area of the operation portion 300 in operation image 30 is operated, operate in image 30 Instrument corresponding region in lesion in end is operated.

When using above-mentioned master operating station 10, the operation portion 300 of operator's operation is located at operation 30 region of image, to enable operation The feeling of immersion in operation of person more preferably, closer to true operation state.

In Fig. 4, embodiment illustrated in fig. 5, display device 200 includes the display 210 and imaging mechanism 220 being oppositely arranged. Imaging mechanism 220 is used to generate the operation image 30 of the image, i.e. figure in display 210 based on the image in display 210 As forming corresponding operation image 30 in imaging mechanism 220, and display 210 and imaging mechanism 220 form display angle, So that operator operates operation portion 300 in operation 30 region of image.At this point, scheming in the position of operation image 30 and display 210 The position of picture is different.

In one embodiment, imaging mechanism 220 has opaque mirror surface, and shape is imaged in the image in display 210 in mirror surface At operation image 30.In one embodiment, imaging mechanism 220 also can have light-penetrating mirror, such as light splitting mirror surface, i.e. operator were both It can be seen that the operation image 30 reflected in light splitting mirror surface, can also see the operation portion of operator's operation through light splitting mirror surface 300 image.

It should be noted that according to the actual situation, imaging mechanism 220 may include multiple mirror surfaces, the display in display 210 Image passes through the operation image 30 of 300 operating area of multiple reflections formation operation portion, at this point, at least one mirror surface is towards display 210。

Fig. 6 is into embodiment illustrated in fig. 9, and display device 200 also can be omitted imaging mechanism 220, at this time display device 200 Towards observation device 500, so that operator observes the image in display 210 by observation device 500.Its specific structure can join See below text.

In one embodiment, master operating station 10 has the first regulating mechanism 600, is set in display device 200, for adjusting The position of display device 200.In embodiment as shown in Figure 4, Figure 5, when display device 200 includes display 210 and imaging mechanism When 220, for adjusting the display angle between display 210 and imaging mechanism 220 and/or being used for integrally-regulated display 210 With the position of imaging mechanism 220, display angle is not changed；In embodiment as shown in Figure 6, Figure 7, when display device 200 does not have When imaging mechanism 220, the position of display 210 is adjusted.

When with imaging mechanism 220, the first regulating mechanism both can only be carried out display 210 or imaging mechanism 220 It adjusts, display 210 and imaging mechanism 220 can also be adjusted, simultaneously to adjust display angle.It should be noted that when imaging When mechanism 220 has multiple mirror surfaces, display angle is that display 210 and 220 formation operation region of imaging mechanism operate image 30 Mirror surface between angle, the first regulating mechanism 600 both angle between adjustable multiple mirror surfaces can also only adjust part Angle between mirror surface.

Further, the position of display 210 and/or imaging mechanism 220 can be installed as needed.For example, imaging Mechanism 220 is parallel with the placed side of master operating station 10.For another example the angle between imaging mechanism 220 and the placed side of master operating station 10 It is -40~40 degree.

It should be noted that the first regulating mechanism both can during installation be adjusted display device 200, Zhi Hougu It is fixed, to enable display device 200 in operating process be maintained at fixed position；Can also in use, according to the needs of use with When adjust display device 200 position.For example, the first regulating mechanism 600 has the first mounting portion, the second mounting portion and locking Portion, the first mounting portion and the second mounting portion are rotatablely connected, and tight lock part is used to lock the first mounting portion and the second mounting portion, with solid Surely angle is shown, wherein display 210 is connected with the first mounting portion, and imaging mechanism 220 is connected with the second mounting portion.Again Such as, the first regulating mechanism 600 has the first mounting portion, the second mounting portion and driving portion, wherein the first mounting portion, the second installation Portion's rotation connection, driving portion is for driving the first mounting portion and/or the rotation of the second mounting portion, display 210 and the first mounting portion It is connected, imaging mechanism 220 is connected with the second mounting portion.

In one embodiment, master operating station 10 has position acquisition portion (not shown), for obtaining the position of operation portion 300, The first regulating mechanism 600 is adjusted display device 200 according to the location information of the operation portion 300 of acquisition at this time.

For example, position of first regulating mechanism 600 according to operation portion 300, by adjusting display device 200 so that operation diagram As 30 place planes and 300 place plane of operation portion essentially coincide.

For another example, the first regulating mechanism 600 is according to the position of operation portion 300, by adjusting display device 200, so that operation Relationship between portion 300 and end instrument in operation image 30 is corresponding.For example, lesion in operation portion 300 and operation image 30 End instrument in positional relationship between region and display 210 and the positional relationship between lesion are almost the same, i.e., with behaviour The positional relationship made in image 30 between end instrument and lesion is almost the same.Specifically comprising following steps.

Step 1, the first location information for obtaining lesion in operation image 30.

Wherein, the first location information of lesion can be both directly acquired, lesion in 210 image of display can also be first obtained Location information, further according to the location information obtain first location information.

Step 2, the second location information for obtaining operation portion 300.

Step 3, the desired locations information that operation image 30 is obtained according to first location information, second location information, and root The position of display device 200 is adjusted according to desired locations information, so that operation image 30 is located at desired locations.

Wherein, when the deviation between first location information and second location information is in predetermined deviation without adjusting display Device 200 need to adjust display device 200 when more than pre-set tolerance.It should be noted that in order to avoid the adjusting of display device 200 Excessively frequently influence operating experience, settable biggish pre-set tolerance.

In one embodiment, observation device 500 has eyepiece, for observing image shown by display device 200, and leads to The operation image 30 that sem observation of looking over so as to check arrives is corresponding with the operating area of operation portion 300.That is the operating area of operation portion 300 is located at Operate 30 region of image.At this point, as shown in figure 8, the operation image 30 observed by eyepiece both can with scheme in display 210 The position of picture is identical, can also scheme in the operation image 30 and display 210 observed by eyepiece as shown in Fig. 5, Fig. 7, Fig. 9 The position of picture is different.When position is identical, eyepiece or observation device 500, the directly figure in observation display 210 also can be omitted Picture.When position is different, eyepiece enables the position for the operation image 30 observed be located at position appropriate by its eyeglass mould group.Example Such as, the side positioned at display 210 far from observation device 500.It should be noted that when display 210 is three dimensional display 210 When, 3-D image can be presented in eyepiece.Also, the operation image observed by eyepiece is it can be appreciated that the sight that display is shown Examine image.

When observing device 500 has eyepiece, display device 200 both can be the display device in the various embodiments described above 200, i.e. display device 200 can be the display device 200 with imaging mechanism 220, or without imaging mechanism 220 Display device 200.

Further, eyepiece has focus adjustment portion, for focusing, to adjust the position for the operation image 30 observed It sets.

In one embodiment, observation device 500 is wholely set with display device 200, i.e., relative positional relationship between the two It is constant.Specifically, observation device 500 and display device 200 are all set on bracket 100.In other embodiments, device is observed 500 can also be all set on a wearing ontology with display device 200, at this point, observation device 500 can be worn with display device 200 It wears, in embodiment as shown in Figure 9, observation device 500 is worn over head by dressing ontology with display device 200.

In other embodiments, observation device 500 can also be separately positioned with display device 200, i.e., position between the two Relationship is relative variable.For example, the opposite observation device 500 of display device 200 is adjustable.

It should be noted that observing device 500 and/or display device 200 in an embodiment and bracket 100 being separately positioned. That is observation device 500 and at least one of display device 200 is arranged independently of bracket 100.

In one embodiment, observation device 500 is for limiting direction of observation, so that direction of observation and the formation of display device 200 The plane for operating image 30 forms observation angle.Wherein, observation device 500 and the direction of observation of limitation can be set as needed It is fixed.For example, observation device 500 and direction of observation are substantially vertical, for another example, the angle observed between device 500 and direction of observation is 60~120 degree.It should be noted that when imaging mechanism 220 include multiple mirror surfaces when, observation angle be observation device 500 at 220 formation operation region of camera structure operates the angle between the mirror surface of image 30.Further, observation device 500 is also used to limit Direction of observation processed, so that sight is located at the central region of the operation image 30.

In one embodiment, the horizontal line of sight direction of direction of observation and operator form sight angle, wherein the water of operator Direction of visual lines after flat direction of visual lines refers to that operator sits straight or stands erectly in current location, when eyeing to the front.Further, sight Angle is acute angle.For example, sight angle is 3~30 degree, for another example, sight angle is 10 degree.

In one embodiment, observation device 500 is set on bracket 100, when operator observes, is filled around eyes close to observation 500 are set, with the angle observation limited by observation device 500.For example, master operating station 10 has the shell being set on bracket 100 Body, observation device 500 are set on shell.For another example, observation device 500 is set on bracket 100 by the second regulating mechanism, the Two regulating mechanisms can adjust the position of observation device 500 as needed, when master operating station 10 has shell, observe device 500 Both it can be set on shell, opposite shell is adjustable, can also stretch out shell.In other embodiments, observation device 500 can also To be set in other structures, for example, observation device 500 is absolute construction, it is set to observation bracket 100, wall, smallpox Plate, or be wearable structure etc., that is, device 500 is observed independently of the other structures of master operating station 10.

In one embodiment, observation angle is 20~160 degree.For example, observation angle is essentially right angle.For another example, angle is observed It is 75~105 degree.Wherein, operation 30 place plane of image can be set according to actual needs.For example, where operation image 30 Plane is parallel with the placed side of master operating station 10.For another example, operation 30 place plane of image is parallel with 400 place plane of handrail.Again Such as, operation 30 place plane of image and 400 place plane of handrail form obtuse angle.

In one embodiment, position acquisition portion is used to obtain the position of observation device 500 and/or operation portion 300, for example, position Setting acquisition unit is two, obtains operation portion 300 respectively and observes the position of device 500.First regulating mechanism 600 and/or second Regulating mechanism adjusts display angle and/or observation angle according to the operation portion 300 of acquisition and the location information of observation device 500. For example, the position between the plane of 220 formation operation image 30 of imaging mechanism and observation device 500 is adjusted, so that observation angle Within a preset range.It should be noted that both can only be adjusted by the first regulating mechanism 600 or second when adjusting observation angle Section mechanism is adjusted, and can also be adjusted simultaneously by two regulating mechanisms.When only needing a regulating mechanism to be adjusted When, position acquisition portion only obtains the relevant information of the regulating mechanism.

It is identical as display angle is adjusted, wherein when observing angle in predetermined deviation without adjusting, in order to avoid adjusting Excessively frequently influence operating experience, settable biggish pre-set tolerance.

Master operating station 10 further includes elevating mechanism (not shown), and elevating mechanism is set on bracket 100, wherein handrail 400, display device 200, the observation at least one of device 500 are set on elevating mechanism, and are adjusted by elevating mechanism.Example Such as, display device 200, handrail 400 are set on elevating mechanism.For another example, device 500 is observed, indication mechanism is set to elevator On structure.For another example, indication mechanism, handrail 400, observation device 500 are all set on elevating mechanism.For another example, only handrail 400 or aobvious Show that mechanism or observation device 500 are set on elevating mechanism.It should be noted that when master operating station 10 omit handrail 400 or When observing device 500, above-mentioned remaining structure at least one is set on elevating mechanism.

Further, when handrail 400, display device 200, observation device 500 in multiple structure settings on elevating mechanism When, the structure being set on elevating mechanism can both be adjusted together, can also be adjusted respectively.For example, display device 200 and handrail 400 are adjusted together with elevating mechanism, i.e. display device 200 and 400 relative position of handrail is constant, are adjusted together with elevating mechanism, To enable the operation portion 300 after adjusting be still located at operation 30 region of image.For another example, display device 200 and handrail 400 are with elevating mechanism It adjusts respectively, i.e. display device 200 and handrail 400 relative position when adjusting changes, and rises at this point, elevating mechanism may include two Drop portion is connected with handrail 400 and display device 200 respectively or elevating mechanism is two, is separately connected handrail 400 and shows Showing device 200.For another example, display device 200 and observation device 500 are set on elevating mechanism, and are adjusted together with elevating mechanism, Or it is adjusted respectively with elevating mechanism.For another example, handrail 400 and observation device 500 are set on elevating mechanism with elevating mechanism one With adjusting, or adjust respectively.For another example, handrail 400, observation device 500, display device 200 are all set on elevating mechanism, and It is adjusted together with elevating mechanism.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of master operating station with eyepiece characterized by comprising

Bracket；

Display device, for showing image；

Device is observed, there is eyepiece, seen for observing described image shown by the display device, and by the eyepiece The operation image observed is corresponding with the operating area of operation portion.

2. master operating station according to claim 1, which is characterized in that in operation portion and the operation image end instrument it Between positional relationship and/or movement relation it is corresponding.

3. master operating station according to claim 2, which is characterized in that in operation portion and the operation image end instrument it Between positional relationship it is consistent.

4. master operating station according to claim 2, which is characterized in that in operation portion and the operation image end instrument it Between movement relation it is corresponding.

5. master operating station according to claim 4, which is characterized in that in operation portion and the operation image end instrument it Between movement tendency it is almost the same, posture relationship is almost the same.

6. master operating station according to claim 1, which is characterized in that the observation device is integrally set with the display device It sets.

7. master operating station according to claim 1, which is characterized in that the observation device is separated with the display device to be set It sets.

8. master operating station according to claim 1, which is characterized in that the observation device and/or the display device with The bracket is separately positioned.

9. master operating station according to claim 1, which is characterized in that the observation device, the display device are set to On the bracket.

10. a kind of operating robot characterized by comprising the described in any item master operating stations of claim 1 to 9 and from Equipment is operated,

The master operating station is used to send control command from operation equipment to described according to the operation of doctor, described from behaviour to control Make equipment, it is described to be used to respond the control command that master operating station is sent from operation equipment, and carry out corresponding operation.