RU2481073C1 - Device of sliding clamp elements and their positional location inside spherical case of multifunctional diagnostic-surgical robotic system with possibility of information and computer control named after yirusanov - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment and can be used in carrying out different medical procedures. Device of sliding clamp elements and their positional location inside spherical case of multifunctional diagnostic-surgical robotic system with possibility of information and computer control includes case of robotic system and sliding elements of clamp. Case of robotic system is made with external spherical surface and lateral opening of round shape, opposite which from internal side of spherical case successively on circle five cases of linear drives of sliding elements of clamp are located and fixed, one of the latter is located in upper part of spherical case, and its sliding elements of clamp are located in vertical plane of spherical case in the zone of round opening. From both sides of vertical plane of spherical case, one above another, two linear drives are placed, sliding elements of clamp being located in the zone of round opening in spherical case. Sliding elements of clamp of upper linear drives are positionally oriented from vertical plane of spherical case, sliding elements of clamp of lower linear drives being positionally oriented to vertical plane of spherical case.

EFFECT: device makes it possible to realise oriented reception of surgical instrument and diagnostic devices from instrumental table.

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Description

The invention relates to medical equipment and can be used in a robotic system when performing various medical procedures.

A clamping device is known (see patent RU No. 2371305), which includes a clip made with the possibility of translational movement, elastic elements made in the form of an elastic tape with kinks and attached to the clip, a drive element with a rod and a supporting rod. The grip is equipped with a rigid bar having a hinge in the middle part, while the elastic elements are attached to the ferrule with one end and the other, in the form of internal bends of the elastic elements, to the rigid bar. In this case, the supporting rod is fastened with a hinge to a rigid bar (prototype).

A disadvantage of the known clamping device is the limitation of its functionality, since it is designed to solve a specific problem and cannot be used in a computer-controlled robotic system for oriented reception of surgical instruments and diagnostic devices with subsequent reciprocating double-turn for carrying out both surgical and diagnostic procedures.

The technical result of the proposed invention is the improvement of the known capture device for oriented reception and double reciprocating reversal of surgical instruments and diagnostic devices functionally connected to a computer-controlled operating table.

The specified technical result is achieved by the following device.

The device of the retractable clamp elements and their positional location inside the spherical body of the multifunctional diagnostic and surgical robotic system with the possibility of computer-information control, including the robotic system housing and retractable clamp elements, which include a clamp device for operating elements with the possibility of two turns and connected to the intermediate turn device the first drive that acts as a hinge, which through the second drive yes, also performing the function of a hinge, it is connected to an additional device of axial rotation of the clamp, which is connected to the housing of the rotor part of the drive mounted on the sliding part of the linear drive, while the housing of the robotic system is made with an external spherical surface and with a lateral round hole, opposite which on the inside of the spherical body, five cases of a linear drive of the retractable clamp elements are arranged and fixed sequentially in a circle, one of the second is located at parts of the spherical body, and its sliding clamp elements are located in the vertical plane of the spherical body in the area of the round hole, two linear actuators are arranged on each side of the vertical plane of the spherical body, the sliding elements of the clamp are located in the zone of the round shape of the spherical body while the sliding elements of the clamp of the upper linear actuators are positionally oriented from the vertical plane of the spherical body, and the sliding elements of the clamp of the lower linear actuators are positionally oriented to the vertical plane of the spherical body.

Figures 1 and 2 show the device of the retractable clamping elements and their positional location inside the spherical body of the multifunctional diagnostic-surgical robotic system with the possibility of information-computer control. Figure 3 shows the positional position of the housing of the spherical operating system relative to the surgical and instrumental table. Figure 4 shows the device of the first axial turn of the clamp operating elements. Figure 5 shows a device for intermediate reversal of clamping of surgical elements. Figure 6 shows the device of the second turn of the clamp. 7 depicts a linear shear clamp device of a robotic system.

The device of the retractable clamp elements and their positional location inside the spherical body of the multifunctional diagnostic-surgical robotic system with the possibility of information-computer control contains (Fig. 4) the clamping device 1 of the medical instrument 2, implemented with the possibility of reciprocating displacement in the housing of the clamp 3 of the actuator 4 s fixing rod 5. In this case, the housing 3 with the clamp 1 of the surgical element 2 on the opposite side 6 of the location of the clamp 1 is fixed on a conical neck terenka 7 for reciprocating displacement in the axial plane of the first part of the displacement body 8 of the clamp 1 and pivotally connected to the upper part of the axial shaft 9 of the bevel gear 7, which is functionally connected with the bevel gear 10 of the actuator 11 of the reciprocating rotation of the case 3 with the clamp 1 of the surgical element 2. In this case, the drive 11 of the reciprocating rotation of the housing 3 with the clamp 1 is fixed on the first 12 and second 13 halves of the first part of the housing 8 of the bias of the clamp 1, which together form the cylinder body of the shape and on the opposite side 14 of the location of the clamp 1 are fixed to each other by means of a stopper 15, which is fixed at one end of the axial rod element 16 of the first axial rotation of the clamp 1. In this case, the second end of the axial rod element 16 is made with a bevel gear 17, which is functionally connected bevel gear 18 of the drive 19 of the first axial rotation, which is fixed inside the second part of the housing 20, which is also made in the form of two halves 21 and 22 connected by a washer 23. B Performan described structure is a turning device 1 is operating clamping elements 2 and the first axial rotation device operating elements 2 and a device, with two turns. At the same time, the clamping device for the operating elements (Fig. 4) with the possibility of two turns also includes an additional housing 25 (Fig. 5) of the intermediate turning device with the first 26 and second 27 drives with a gearbox, which are positionally located at one 28 and the other 29 of its end, while the outer gear part of the first 26 and second 27 drives is connected to the first half of the end part 30 of the housing 25 of the intermediate turn of the clamp, and the opposite stator part 31 of the drives is pivotally connected to the second half of the end part 28 of the housing and an intermediate reversal 25, while on the stator housing of the first drive 26, the extreme part of the housing 23, 24 of the clamping device of the operating elements with the possibility of double reversal of the clamp is fixed with the possibility of joint reversal, and on the stator housing of the second drive 27 is fixed the end portion 32 of the additional device of the second axial rotation clamping. The device additional axial rotation capture (Fig.6), the housing of which is made of two parts 33 and 34 of a cylindrical shape, one 34 of which includes a fixed inside drive 35 with a bevel gear 36, functionally connected with a bevel gear 37 of the axial rod element 38 of the turn the second part of the housing 33, inside which it is fixed in the Central part of the stop 39, and the upper part of the stop 39 is fixed inside the second part 33 of the reversal housing. Moreover, on the axial rod element 38 between its bevel gear 37 and the limiter 39 there are two spaced bearings 40 and 41 with a washer 42 between them, which is fixed with the first and second parts of the housing 34 of the axial additional rotation of the clamping device 1. In this case, the first 33 and second 34 parts of the casing of the additional axial clamp turning device with opposite sides 43 and 32 are fixed on the stator part of the drive 44 of the device for turning the sliding part and on the stator part of the second drive 27 of the spacing device full-time reversal, respectively. In this case, a linear actuator 45 is introduced (Fig. 7), the housing 46 of which is fixed in the spherical housing of the robotic system, and on the sliding part 47 of the linear actuator 45 by means of two brackets 48 and 49, a drive with a gear 44 is fixed, in which the outer part 50 of the gear is fixed with the bar 49, and the stator part of the actuator 44 with the gearbox by means of an axial rod 51 is rotatably connected to the second bar 48, while the housing of the stator of the actuator 44 is connected to an additional second axial clamp reversal device. In this case, the housing 52 of the robotic system (Figs. 1 and 2) is made with an external spherical surface and with a side hole 53 with a lid 54 of a round shape and includes an upper 55 and lower 56 parts, which are made with the possibility of their joint fastening, while inside the upper part 55 of the housing 52, by means of the first mounting plate 57, three housings of the linear actuator 45 of the clamping elements are fastened, and inside the lower part 56 of the housing, two housing of the linear actuator 45 of the clamping elements are secured by that the fastening strips 57 and 58 are connected among themselves and are fixed within the upper 55 and lower 56 housing portions, respectively. In this case (Fig. 1), the upper part 59 of the cover 54 is rotatably connected to the shaft 60 inside the upper part 55 of the housing 52, and the lower part of the cover 56 is connected to the outer part of the drive gearbox 62, the housing of which is fixed inside the lower part 56 of the housing 52. Robotic the system (Fig. 3) includes a surgical table 63 and an instrument table 64. In this case, the retractable clamp elements 65 and 66 (Figs. 4-7) in Fig. 1 are located in the area of the round opening 53 of the spherical body 52, while the retractable clamp elements 65 top linear actuators 44 positional oriented from the vertical plane (67) of the spherical body 52, and the sliding elements of the clamp 66 of the lower linear actuators are positionally oriented to the vertical plane 67 of the spherical body 52, which allows you to extend the sliding elements of the clamp 65 and 66 (Fig.4-7) in the operating room and instrumental table for performing surgical procedures. And also allows you to ensure the sterility of the sliding elements of the clamp 65 and 66 (Fig.4-7) by introducing them into the inside of the spherical body 52.

The device of the retractable clamp elements and their positional location inside the spherical body of the multifunctional diagnostic-surgical robotic system with the possibility of information-computer control in this design can be used for oriented reception (figures 1 and 2) of surgical instruments and diagnostic devices from the tool table 64, functionally associated with the operating table 63. And implement this procedure (figure 3) by means of a clamp device 1, which includes a locking st rye 5, functionally connected to the actuator 4 with the possibility of reciprocating displacement inside the housing 3 of the clamp 1. In this case, the housing 3 of the clamp 1 in position 6 is fixed with a bevel gear 7 and pivotally connected to the upper part of the axial shaft 9 of the bevel gear 7 and performs a joint rotation by means of a bevel gear 10 and a drive 11, which is fixed inside the bias housing 8 of the clamp, consisting of the first 12 and second 13 of its parts. On the other side of the clamp bias body 8, the first 12 and second part 13 thereof are fixed to each other by means of a stopper 15, which is located on the axial pivot element 16 of the housing 8 to rotate the clamp 1 after receiving tool 2. In this case, the clamp axial rotation housing 20 is made of two parts 21 and 22 of a cylindrical shape, one part 22 includes an actuator 19 fixed inside with a bevel gear 18 operably connected with a bevel gear 17 of an axial pivot member 16 of a turn of the second part of the housing 8, inside When it is fixed in the central part of the limiter 15, and the upper stopper 15 is fixed inside the second housing part 8 reversal. Moreover, on the axial rod element 16 between its bevel gear 17 and the limiter 15 are two spaced bearings with a washer 23 between them, which is fixed with the first 21 and second parts 22 of the axial rotation housing. In this case, the functional purpose of the intermediate reversal device (Fig. 3) is intended to expand the functionality of moving the clamp 1 both above the operating table 63 (Fig. 2) and to move the clamp to the area of the tool table 64. And this procedure is performed (Fig. 4) the first 26 and second 27 drives. And if the second drive 27 performs the function of the reciprocating turn of the additional housing 25 of the intermediate turn of the clamp 1 by more than 180 °, then the first drive 26 performs the function of the reciprocating turn of the device 23, 24 (Fig. 3) of the reciprocating double turn of the clamp 1 It should be noted that the reversal is carried out by the stator part of the drive 26 and 27. And the device of the second axial reversal of the clamp (figure 5) allows you to expand the functionality of the positional position in the robot housing system 52 (Fig. 1), and the area of operation on the surgical table 63 and the instrument table 64. In this case, by means of the linear actuator 45 (Figs. 1, 7), an additional extension of the clamp 1 is carried out, and by the actuator 44 in addition to adjusting the position of the clamp pre-assembled clamping devices 1 are inserted into the inside of the spherical body 52 of the robotic system. In this case, the robotic system (Fig. 3) includes a surgical table 63 and an instrument table 64 for joint surgical procedures, in which the housing 52 of the robotic system (Figs. 1 and 2) is made with an external spherical surface and with a side hole 53 with a round lid 54 forms and includes the upper 55 and lower 56 parts, made with the possibility of their joint fastening. In this case, inside the upper part 55 of the housing 52, through the first mounting plate 57, three cases of the linear actuator 45 of the clamping elements are fixed, and inside the lower part 56 of the housing are secured by the second mounting plate 58 two cases of the linear actuator 45 of the sliding elements of the clamp, while the fixing strips 57 and 58 are interconnected and fixed inside the upper 55 and lower 56 parts of the housing, respectively. Moreover, to ensure the sterility of the procedures (Fig. 1), the upper part 59 of the cover 54 is rotatably connected to the shaft 60 inside the upper part of the housing 55, and the lower part of the cover 56 is connected to the outer part of the drive reducer 62, the housing of which is fixed inside the lower part of the housing 56. In this case, the sliding elements of the clamp 65 and 66 (FIGS. 4-7) in FIG. 1 are located in the region of the hole 53 of the round shape of the spherical body 52, while the sliding elements of the clamp 65 of the upper linear actuators 44 are positionally oriented from the vertical plane (67 ) of the spherical body 52, and the sliding elements of the clamp 66 of the lower linear actuators are positionally oriented to the vertical plane 67 of the spherical housing 52, which allows you to extend the sliding elements of the clamp 65 and 66 (Fig.4-7) in the area of the operating and instrumental table for performing surgical procedures . And also allows you to ensure the sterility of the sliding elements of the clamp 65 and 66 (Fig.4-7) by introducing them into the inside of the spherical body 52.

Using the proposed technical solution allows you to expand the functionality of the capture device of surgical instruments and diagnostic devices in the diagnostic and surgical systems of the operating table with the possibility of information-computer control.

Claims (1)

The device of the retractable clamping elements and their positional location inside the spherical body of the multifunctional diagnostic and surgical robotic system with the possibility of information-computer control, including the robotic system housing and retractable clamping elements, which include the clamping device of the operating elements with the possibility of two turns and connected to the intermediate reversal device by the first drive that acts as a hinge, which through the second The ode, which also performs the function of a hinge, is connected to an additional device of axial rotation of the clamp, which is connected to the housing of the rotor part of the drive mounted on the sliding part of the linear actuator, characterized in that the housing of the robotic system is made with an external spherical surface and with a lateral round hole, opposite of which, on the inside of the spherical body, five cases of linear actuators of the retractable clamping elements are arranged and fixed sequentially in a circle, one of which is laid in the upper part of the spherical body and its retractable clamp elements are located in the vertical plane of the spherical body in the area of the round hole, two linear actuators are located on each side of the vertical plane of the spherical body on top of each other, while the retractable clamp elements are located in the area of the round hole spherical body, while the sliding elements of the clamping of the upper linear actuators are positionally oriented from the vertical plane of the spherical body, and the sliding elements are benching lower linear actuators position oriented to the vertical plane of the spherical shell.

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