CN218426796U - Implant device - Google Patents

Abstract

The utility model provides an implant device, including bearing component, driving piece and moving part, bearing component is equipped with a locating area, and the locating area is used for fixing a position the second work piece, and bearing component is connected to the driving piece, and the moving part includes the activity body and supports the body, and the body coupling driving piece that moves about supports the body and convexly locates the surface of activity body orientation locating area to corresponding with the end angle of first work piece, driving piece drive activity body drives supports the body and moves towards the locating area, so that support the body and support the end angle of holding first work piece so that the second work piece is located to first work piece cover. The driving piece of the implanting device drives the movable body to drive the abutting body to move towards the first workpiece and abut against the end corner of the first workpiece, so that the end corner and other parts of the first workpiece are successively sleeved on the second workpiece, the phenomenon that the end corner of the first workpiece is easy to warp when the first workpiece is sleeved on the second workpiece is avoided, the first workpiece can be rapidly implanted into the second workpiece, and the implanting efficiency of the first workpiece is improved.

Description

Implant device

Technical Field

The utility model relates to an implant technical field, concretely relates to implant device.

Background

In a mechanical implantation operation, a first workpiece having elasticity or flexibility is usually attached to a second workpiece by an operator, thereby completing the implantation operation of the first workpiece. However, this method is time-consuming, and when the first workpiece is a flexible member such as a seal ring, due to the requirement of adaptability, when the first workpiece is mounted on the second workpiece, the end corner of the first workpiece is easily warped, so that the difficulty of the implantation operation is increased, time and labor are consumed, and the efficiency of the implantation operation of the first workpiece is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide an implant device to improve the efficiency of the implantation procedure.

An embodiment of the utility model provides an implant device for connect first work piece to second work piece, include:

the bearing assembly is provided with a positioning area, and the positioning area is used for positioning the second workpiece;

the driving piece is connected with the bearing component;

the movable piece comprises a movable body and a propping body, the movable body is connected with the driving piece, and the propping body is convexly arranged on the surface of the movable body facing the positioning area and corresponds to the end angle of the first workpiece; the driving part drives the movable body to drive the abutting body to move towards the positioning area, so that the abutting body abuts against the end angle of the first workpiece, and the first workpiece is implanted into the second workpiece.

In some embodiments, the carrier assembly comprises:

the bearing part is provided with the positioning area;

the drive installed part, connect in hold carrier, the driving piece is connected the drive installed part and with the location district is located hold the homonymy of carrier.

In some embodiments, the drive mount comprises:

the supporting seat is provided with a plurality of adjusting holes which are arranged at intervals along the moving direction of the moving part;

one side of the mounting plate is connected to the driving piece, and the other side of the mounting plate is arranged on one side, facing the positioning area, of the supporting seat;

the fasteners penetrate through the mounting plate and are connected to the corresponding adjusting holes so as to adjust the distance between the driving piece and the bearing piece.

In some embodiments, the carrier comprises:

a bearing body connected with the driving installation part;

the two first limiting bodies are connected with the surface of the bearing body facing the driving piece and are arranged at intervals along a first direction;

the two second limiting bodies are connected with the surface of the bearing body facing the driving piece and are arranged at intervals along the second direction;

the two first limiting bodies, the two second limiting bodies and the bearing body are enclosed into the positioning area, and the first direction and the second direction are perpendicular to the moving direction of the moving part.

In some embodiments, the implant device further includes a positioning element, the positioning element is disposed on a surface of the second workpiece facing the movable element, and the first workpiece is sleeved on an outer circumference of the positioning element to position the first workpiece; the one side of moving part towards the locating area has been seted up and has been kept away the position groove, keep away the position groove and be used for keeping away the position to the setting element.

In some embodiments, the implantation device further includes an elastic abutting component, and the elastic abutting component is disposed through the movable member and can extend to the avoiding groove to abut against the positioning component after the first workpiece is sleeved on the second workpiece.

In some embodiments, the resilient biasing member comprises:

the fixed cylinder is inserted in the movable piece;

the supporting rod is connected to the fixed barrel in a sliding mode, can extend out of the fixed barrel and extends into the avoiding groove;

the elastic piece is arranged in the fixed cylinder, one end of the elastic piece abuts against the fixed cylinder, and the other end of the elastic piece abuts against the abutting rod.

In some embodiments, a first accommodating cavity and a second accommodating cavity which are communicated with each other are arranged in the fixing cylinder, the diameter of the first accommodating cavity is larger than that of the second accommodating cavity, the abutting rod comprises an abutting portion and a sliding connecting portion which are connected with each other, the sliding connecting portion is slidably connected in the first accommodating cavity, the abutting portion penetrates through the second accommodating cavity and is slidably connected with the second accommodating cavity, the elastic member is arranged in the first accommodating cavity, one end of the elastic member is fixed on the inner wall of the fixing cylinder, and the other end of the elastic member abuts against the sliding connecting portion.

In some embodiments, the movable member is provided with a vent hole, and the vent hole penetrates through the movable member to communicate the inside and the outside of the avoiding groove.

In some embodiments, a chamfered surface is disposed on one side of the positioning element facing the movable element to guide the first workpiece to be sleeved on the periphery of the positioning element.

When the implantation device is used for implantation operation, firstly, the second workpiece is placed in the positioning area, the first workpiece is placed on the implantation part corresponding to the second workpiece, then the driving piece is started, the driving piece drives the movable body to drive the abutting body to move towards the first workpiece and abut against the end corner of the first workpiece, so that the end corner and other parts of the first workpiece are successively sleeved on the second workpiece, the phenomenon that the end corner of the first workpiece is easy to warp when the first workpiece is sleeved on the second workpiece is avoided, the first workpiece can be rapidly implanted onto the second workpiece, and the implantation efficiency of the first workpiece is improved.

Drawings

Fig. 1 is a schematic structural diagram of an implantation device, a first workpiece and a second workpiece according to an embodiment of the present invention.

Fig. 2 is an exploded view of the implant device, the first workpiece, and the second workpiece of fig. 1.

FIG. 3 is a bottom view of the moveable member of FIG. 2.

Fig. 4 is a schematic perspective view of the positioning element in fig. 1.

Fig. 5 is an exploded view of the drive mount of fig. 1.

Fig. 6 isbase:Sub>A schematic cross-sectional view of the elastic holding assembly in fig. 2 along the directionbase:Sub>A-base:Sub>A.

Description of the main elements

Implant device 10

Bearing assembly 11

Carrier 111

Load-bearing body 1111

The first position-limiting body 1112

The second limiting body 1113

Drive mount 112

Supporting seat 1121

Mounting plate 1122

Fastener 1123

Adjustment apertures 1124

Driver 12

Movable part 13

Movable body 131

Supporting body 132

Elastic support component 14

Fixed cylinder 141

Support rod 142

Abutting part 1421

Sliding connection part 1422

Elastic member 143

The first receiving cavity 144

The second receiving chamber 145

Positioning member 15

Avoiding groove 16

Vent hole 17

Chamfered surface 18

Locating area 19

First workpiece 20

Second workpiece 30

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first" and "second" may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

An embodiment of the utility model provides an implant device for connect first work piece to second work piece, including bearing assembly, driving piece and moving part. For example, a first workpiece is placed at an implantation position of the upper end surface of a second workpiece, and the driving member drives the movable member to abut against the first workpiece, so that the first workpiece is sleeved on the periphery of the second workpiece.

Specifically, the bearing component is provided with a positioning area, the positioning area is used for positioning a second workpiece, the driving part is connected with the bearing component, the moving part comprises a moving body and a propping body, the moving body is connected with the driving part, and the propping body is convexly arranged on the surface of the moving body facing the positioning area and corresponds to an end angle of the first workpiece; the driving member drives the movable body to drive the abutting body to move towards the positioning area, so that the abutting body abuts against the end angle of the first workpiece to enable the first workpiece to be sleeved on the second workpiece. Exemplarily, the driving piece can be a cylinder, the first workpiece can be a sealing ring, the second workpiece can be a printing ink shielding jig cover plate, the sealing ring is implanted into the printing ink shielding jig cover plate, the printing ink shielding jig cover plate is prevented from being directly contacted with a material placed on the printing ink shielding jig cover plate to scratch the material, and therefore the material is protected.

When the implantation device is used for implantation, firstly, the second workpiece is placed in the positioning area, the first workpiece is placed at the implantation part corresponding to the second workpiece, then the driving piece is started, the driving piece drives the movable body to drive the abutting body to move towards the first workpiece and abut against the end corner of the first workpiece, so that the end corner and other parts of the first workpiece are successively sleeved on the second workpiece, the phenomenon that the end corner of the first workpiece is easy to warp when the first workpiece is sleeved on the second workpiece is avoided, the first workpiece can be rapidly implanted onto the second workpiece, and the implantation efficiency of the first workpiece is improved.

The embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2 together, in some embodiments, an implant device 10 is used to couple a first workpiece 20 to a second workpiece 30, and includes a carriage assembly 11, a drive member 12, and a moveable member 13. The bearing component 11 is provided with a positioning area 19, the positioning area 19 is used for positioning the second workpiece 30, the driving component 12 is connected with the bearing component 11, the movable member 13 includes a movable body 131 and a supporting body 132, the movable body 131 is connected with the driving component 12, and the supporting body 132 is convexly arranged on the surface of the movable body 131 facing the positioning area 19 and corresponds to the end angle of the first workpiece 20. The driving member 12 drives the movable body 131 to drive the abutting body 132 to move toward the positioning area 19, so that the abutting body 132 abuts against the end corner of the first workpiece 20, and the first workpiece 20 is rapidly and precisely sleeved on the second workpiece 30.

In other embodiments, the first and second workpieces 20, 30 may be mated in other manners. For example, the first workpiece 20 may be inserted into a receiving slot provided in the second workpiece 30 to achieve a sealing function, etc.

Illustratively, the driving element 12 may be an air cylinder, the first workpiece 20 may be a sealing ring, and the second workpiece 30 may be a printing ink shielding jig cover plate, and the printing ink shielding jig cover plate is implanted with the sealing ring to prevent the printing ink shielding jig cover plate from directly contacting with the material on the printing ink shielding jig cover plate to scratch the material, thereby protecting the material.

When the implantation device 10 is used for implantation, firstly, the second workpiece 30 is placed in the positioning area 19, the first workpiece 20 is placed at the implantation position corresponding to the second workpiece 30, then, the driving member 12 is started, the driving member 12 drives the movable body 131 to drive the abutting body 132 to move towards the first workpiece 20 and abut against the corner of the first workpiece 20, so that the corner and other positions of the first workpiece 20 are sequentially sleeved on the second workpiece 30, the phenomenon that the corner of the first workpiece 20 is easy to warp when the first workpiece 20 is sleeved on the second workpiece 30 is avoided, the first workpiece 20 can be rapidly implanted into the second workpiece 30, and the implantation efficiency is improved.

Referring to fig. 2, in some embodiments, the carrier assembly 11 includes a carrier 111 and a driving mounting member 112, the carrier 111 has a positioning portion 19, the driving mounting member 112 is connected to the carrier 111, and the driving member 12 is connected to the driving mounting member 112 and is located on the same side of the carrier 111 as the positioning portion 19. Thus, the driving member 12 is disposed on the driving mounting member 112 and disposed on the same side of the supporting member 111 as the positioning region 19, so that the driving member 12 drives the movable member 13 to move toward or away from the positioning region 19 for implantation.

For convenience of illustration, a three-dimensional coordinate system is added to fig. 1 and fig. 2, wherein the Y-axis is in a first direction, i.e. the arrangement direction of the two first position-limiting bodies 1112 on the carrying body 1111, and the X-axis is in a second direction, i.e. the arrangement direction of the two second position-limiting bodies 1113 on the carrying body 1111.

In some embodiments, the supporting member 111 includes a supporting body 1111, two first limiting bodies 1112 and two second limiting bodies 1113, the supporting body 1111 is connected to the driving member 112, the two first limiting bodies 1112 are connected to the supporting body 1111 facing the driving member 12 and spaced apart from each other along a first direction, the two second limiting bodies 1113 are connected to the supporting body 1111 facing the driving member 12 and spaced apart from each other along a second direction, the two first limiting bodies 1112, the two second limiting bodies 1113 and the supporting body 1111 surround a positioning area 19, and the first direction and the second direction are perpendicular to the moving direction of the moving member 13.

Thus, the positioning region 19 is formed by the two first position-limiting bodies 1112, the two second position-limiting bodies 1113 and the bearing body 1111, so that the second workpiece 30 can be quickly positioned, and the positioning region has a simple structure and a low manufacturing cost. Specifically, when the second workpiece 30 is placed in the positioning area 19, the two first position-limiting bodies 1112 support opposite ends of the second workpiece 30 in the first direction, and the two second position-limiting bodies 1113 support opposite ends of the second workpiece 30 in the second direction, so that the second workpiece 30 can be quickly positioned through the positioning area 19.

Referring to fig. 3 and 4, in some embodiments, the implanting device 10 further includes a positioning element 15, the positioning element 15 is disposed on a surface of the second workpiece 30 facing the movable element 13, the first workpiece 20 is sleeved on an outer circumference of the positioning element 15 to position the first workpiece 20, a position-avoiding groove 16 is disposed on a side of the movable element 13 facing the positioning area 19, and the position-avoiding groove 16 is used for avoiding the positioning element 15, so that when the movable element 13 supports the first workpiece 20 and is sleeved on the second workpiece 30, the positioning element 15 enters the position-avoiding groove 16.

In this embodiment, a protruding portion (not shown) is disposed on an upper end surface of the second workpiece 30, and a position corresponding to the protruding portion on the positioning element 15 is provided with a limiting through hole (not shown) adapted to the protruding portion, so that when the positioning element 15 is placed on the surface of the second workpiece 30 facing the moving element 13, the protruding portion passes through the limiting through hole to limit the relative displacement between the positioning element 15 and the second workpiece 30 in the horizontal direction, so that the positioning element 15 is positioned on the second workpiece 30, the first workpiece 20 is quickly positioned on the second workpiece 30 by sleeving the first workpiece 20 on the periphery of the positioning element 15, and meanwhile, the position avoiding groove 16 disposed on the moving element 13 is used for accommodating the positioning element 15 through the position avoiding groove 16 in the process that the moving element 13 abuts against the first workpiece 20 to the second workpiece 30, so as to avoid the positioning element 15 interfering with the moving element 13 to perform the implantation operation.

Referring to fig. 5, in some embodiments, the driving mounting member 112 includes a supporting seat 1121, a mounting plate 1122 and a fastening member 1123, the supporting seat 1121 is provided with a plurality of adjusting holes 1124, the adjusting holes 1124 are spaced apart along the moving direction of the moving member 13, one side of the mounting plate 1122 is connected to the driving member 12, the other side of the mounting plate 1122 is disposed on one side of the supporting seat 1121 facing the positioning region 19, and the fastening member 1123 is inserted through the mounting plate 1122 and is threadedly connected to the corresponding adjusting hole 1124 to adjust the distance between the driving member 12 and the supporting member 111. Illustratively, the fastener 1123 may be a bolt.

In this way, the fasteners 1123 penetrating through the mounting plate 1122 are screwed into different adjusting holes 1124 so as to adjust the height of the mounting plate 1122 in the moving direction along the movable member 13, and the driving member 12 mounted on the mounting plate 1122 is adjusted together with the mounting plate 1122, so that the adjustment of the operation space in which the second workpiece 30, the positioning member 15 and the first workpiece 20 can be placed on the bearing member 111 is realized, and the practicability of the implantation device 10 is increased.

Referring to fig. 6, in some embodiments, the implanting device 10 further includes an elastic supporting component 14, and the elastic supporting component 14 penetrates through the moving component 13 and can extend into the avoiding groove 16 to support the positioning component 15.

Thus, when the movable element 13 implants the first workpiece 20, the positioning element 15 enters the avoiding groove 16, and the elastic abutting assembly 14 pushes the positioning element out of the avoiding groove 16, so that the positioning element 15 is prevented from being clamped into the avoiding groove 16 to influence the implantation of the next first workpiece 20, the implantation of the first workpiece 20 can be continuously performed, and the implantation efficiency of the first workpiece 20 is improved.

In some embodiments, the elastic supporting component 14 includes a fixed cylinder 141, a supporting rod 142 and an elastic element 143, the fixed cylinder 141 is inserted into the movable element 13, the supporting rod 142 is slidably connected to the fixed cylinder 141 and can extend out of the fixed cylinder 141 and extend into the avoiding groove, the elastic element 143 is disposed in the fixed cylinder 141, one end of the elastic element 143 supports the fixed cylinder 141, and the other end of the elastic element 143 supports the supporting rod 142. Illustratively, the elastic member 143 may be a spring.

When the driving member 12 drives the movable member 13 to perform an implantation operation, the positioning member 15 pushes the supporting rod 142 to move upward, the supporting rod 142 extrudes the elastic member 143, when the driving member 12 drives the movable member 13 to reset, the compressed elastic member 143 releases the elastic force and pushes the supporting rod 142 to move downward, and the positioning member 15 entering the avoiding groove 16 is ejected out of the avoiding groove 16 during the downward movement of the supporting rod 142, thereby realizing the automatic ejection of the positioning member 15. Thus, the elastic member 143 releases the elastic force to push the abutting rod 142 to move downward, so that the abutting rod 142 automatically ejects the positioning member 15 out of the avoiding groove 16, the labor intensity of the operator is reduced, and the efficiency of the implantation operation of the first workpiece 20 is improved.

Referring to fig. 6, in some embodiments, a first receiving cavity 144 and a second receiving cavity 145 which are communicated with each other are disposed in the fixing cylinder 141, and a diameter of the first receiving cavity 144 is larger than a diameter of the second receiving cavity 145, the abutting rod 142 includes an abutting portion 1421 and a sliding connection portion 1422 which are connected with each other, the sliding connection portion 1422 is slidably connected in the first receiving cavity 144, the abutting portion 1421 penetrates through the second receiving cavity 145 and is slidably connected with the second receiving cavity 145, the elastic member 143 is disposed in the first receiving cavity 144, one end of the elastic member 143 is fixed on an inner wall of the fixing cylinder, and the other end of the elastic member 143 abuts against the sliding connection portion 1422.

Thus, the sliding connection part 1422 slides in the first accommodating cavity 144, the abutting part 1421 slides in the second accommodating cavity 145, and the diameter of the first accommodating cavity 144 is larger than that of the second accommodating cavity 145, so that the lower end surface of the sliding connection part 1422 abuts against the upper end of the second accommodating cavity 145 to prevent the abutting rod 142 from being separated from the fixing cylinder 141 under the action of gravity.

Referring to fig. 3, in some embodiments, the movable member 13 is provided with a vent hole 17, and the vent hole 17 penetrates through the movable member 13 to communicate the inside and the outside of the avoiding groove 16.

Therefore, when the moving element 13 abuts against the first workpiece 20 to the outer periphery of the second workpiece 30, the positioning element 15 enters the avoiding groove 16, the positioning element 15 shields the avoiding groove 16 towards the opening side of the bearing body 1111, and at the moment, air in the avoiding groove 16 is exhausted from the vent hole 17, so that the air pressure inside and outside the avoiding groove 16 is equal, the positioning element 15 can completely enter the avoiding groove 16, and the moving element 13 can completely implant the first workpiece 20 into the outer periphery of the second workpiece 30, so that smooth implantation of the first workpiece 20 is ensured.

Referring to fig. 4, in some embodiments, a chamfered surface 18 is disposed on a side of the positioning member 15 facing the movable member 13 to guide the first workpiece 20 to be sleeved on an outer circumference of the positioning member 15.

Thus, the chamfer surface 18 is arranged on one side of the positioning member 15 facing the movable member 13, so that when the first workpiece 20 is sleeved on the positioning member 15 and passes through the chamfer surface 18, a sleeving gap is formed between the first workpiece 20 and the chamfer surface 18, and the first workpiece 20 is more convenient and faster to be sleeved on the positioning member 15.

The implantation of the implant device 10 into the first workpiece 20 to the second workpiece 30 is generally as follows:

firstly, the second workpiece 30 is placed in the positioning area 19, the two first position-limiting bodies 1112 respectively abut against two opposite ends of the second workpiece 30 in the first direction, and the two second position-limiting bodies 1113 respectively abut against two opposite ends of the other group of the second workpiece 30 in the second direction, so that the second workpiece 30 is positioned;

then, the positioning piece 15 is placed on the upper end surface of the second workpiece 30, and the protruding part on the second workpiece 30 is clamped in the limiting through hole on the positioning piece 15, so that the positioning piece 15 is positioned on the second workpiece;

then, the first workpiece 20 is sleeved on the positioning piece 15, and the positioning of the first workpiece 20 to the implantation part on the second workpiece 30 is realized through the positioning piece 15;

finally, the driving member 12 is started, the driving member 12 drives the movable member 13 to abut against the first workpiece 20 and to be sleeved on the periphery of the second workpiece 30 from the implantation position, when the movable member 13 abuts against the first workpiece 20, the abutting body 132 at the end corner of the movable member 13 firstly abuts against the end corner of the first workpiece 20 and is sleeved on the periphery of the second workpiece 30, and other positions of the first workpiece 20 are sleeved on the second workpiece 30 along with the second workpiece, so that the end corner of the first workpiece 20 is prevented from warping when being implanted.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. An implant device for nesting a first workpiece to a second workpiece, comprising:

the bearing assembly is provided with a positioning area, and the positioning area is used for positioning the second workpiece;

the driving piece is connected with the bearing assembly;

the movable piece comprises a movable body and a propping body, the movable body is connected with the driving piece, and the propping body is convexly arranged on the surface of the movable body facing the positioning area and corresponds to the end angle of the first workpiece; wherein the content of the first and second substances,

the driving piece drives the movable body to drive the abutting body to move towards the positioning area, so that the abutting body abuts against the end angle of the first workpiece, and the first workpiece is implanted into the second workpiece.

2. The implant device of claim 1, wherein the carrier assembly comprises:

the bearing part is provided with the positioning area;

the driving installation part is connected with the bearing part, and the driving part is connected with the driving installation part and is located at the same side of the bearing part in the positioning area.

3. The implant device of claim 2, wherein the drive mount comprises:

the supporting seat is provided with a plurality of adjusting holes which are arranged at intervals along the moving direction of the moving part;

one side of the mounting plate is connected to the driving piece, and the other side of the mounting plate is arranged on one side, facing the positioning area, of the supporting seat;

the fastener is arranged in the mounting plate in a penetrating mode and connected to the corresponding adjusting hole so as to adjust the distance between the driving piece and the bearing piece.

4. The implant device of claim 2, wherein the carrier comprises:

a bearing body connected with the drive mounting part;

the two first limiting bodies are connected with the surface of the bearing body facing the driving piece and are arranged at intervals along a first direction;

the two second limiting bodies are connected with the surface of the bearing body facing the driving piece and are arranged at intervals along the second direction;

the two first limiting bodies, the two second limiting bodies and the bearing body are enclosed into the positioning area, and the first direction and the second direction are perpendicular to the moving direction of the moving part.

5. The implant device of claim 1,

the implantation device further comprises a positioning piece, the positioning piece is arranged on the surface, facing the movable piece, of the second workpiece, and the first workpiece is sleeved on the periphery of the positioning piece to position the first workpiece; and one surface of the moving part facing the positioning area is provided with a position avoiding groove, and the position avoiding groove is used for avoiding the positioning part.

6. The implant device of claim 5,

the implantation device further comprises an elastic abutting component, wherein the elastic abutting component penetrates through the moving part and can extend to the avoiding groove so as to abut against the positioning piece after the first workpiece is sleeved on the second workpiece.

7. The implant device of claim 6, wherein the resilient retention assembly comprises:

the fixed cylinder is inserted in the movable piece;

the supporting rod is connected to the fixed barrel in a sliding mode, can extend out of the fixed barrel and extends into the avoiding groove;

the elastic piece is arranged in the fixed cylinder, one end of the elastic piece abuts against the fixed cylinder, and the other end of the elastic piece abuts against the abutting rod.

8. The implant device of claim 7,

a first accommodating cavity and a second accommodating cavity which are communicated with each other are arranged in the fixed cylinder, and the diameter of the first accommodating cavity is larger than that of the second accommodating cavity;

the abutting rod comprises an abutting portion and a sliding connecting portion which are connected with each other, the sliding connecting portion is connected in the first accommodating cavity in a sliding mode, the abutting portion penetrates through the second accommodating cavity and is connected with the second accommodating cavity in a sliding mode, the elastic piece is arranged in the first accommodating cavity, one end of the elastic piece is fixed to the inner wall of the fixed cylinder, and the other end of the elastic piece abuts against the sliding connecting portion.

9. The implant device of claim 5,

the movable piece is provided with a vent hole which penetrates through the movable piece to communicate the inside and the outside of the avoiding groove.

10. The implant device of claim 5,

one side of the positioning piece, which faces the moving piece, is provided with a chamfer surface so as to guide the first workpiece to be sleeved to the periphery of the positioning piece.

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