CN214595853U - Tray, emitter subassembly and implantation instrument - Google Patents

Abstract

The utility model provides a tray, which comprises a bottom wall, a side wall and an elastic arm; the side wall is arranged around the bottom wall, and the bottom wall and the side wall enclose an accommodating space; one end of the elastic arm is connected with the bottom wall and/or the side wall, the other end of the elastic arm extends towards the accommodating space, and the other end of the elastic arm is movably arranged in the accommodating space. The utility model also provides a transmitter subassembly, it reaches including the transmitter the tray, play the arm the other end with the transmitter butt will the transmitter buckle in among the accommodation space, just play the arm receive after the extrusion can with the transmitter separation. And simultaneously, the utility model also provides an adoption transmitter subassembly's implantation instrument. Compared with the prior art, the utility model provides a tray, transmitter subassembly and implantation instrument can effectively protect the transmitter, avoids the transmitter collision damage, also can not influence the normal use of transmitter simultaneously.

Description

Tray, emitter subassembly and implantation instrument

Technical Field

The utility model relates to a medical treatment auxiliary instrument technical field especially relates to a tray, transmitter subassembly and implantation instrument.

Background

In recent years, with the gradual improvement of living standard of people, people pay more and more attention to their health condition, and with the development of technology, people detect various parameters in their bodies more and more conveniently and effectively. For example, the CGM is a system for monitoring the blood glucose index of a human body.

Dynamic blood glucose monitoring system CGM among the prior art is through implanting blood glucose sensor subcutaneously, and the enzyme on the sensor detects the blood glucose value with subcutaneous tissue liquid reaction to cooperate the transmitter to send the blood glucose value to the terminal, thereby can gather continuous blood glucose value, to dynamic blood glucose monitoring system CGM, the implantation instrument of implanting blood glucose sensor is one of the indispensable device, can be simply, quick implant blood glucose sensor on the human body through implanting the instrument.

The implantation tool in the prior art generally includes a housing, a push-shooting element accommodated in the housing, a driving button disposed on the housing, and a transmitter detachably connected to the housing, wherein the push-shooting element is fastened to the housing, and the push-shooting element is provided with a sensor and an implantation needle. When implanting the instrument and not using, the transmitter with implant other parts alternate segregation of instrument, when implanting the instrument and need use, install the transmitter on the casing again, the user is through pressing the drive button to make and push away to penetrate the piece and drop off the removal from the casing, and then push away to penetrate the piece and send into the transmitter with the sensor, push away simultaneously and penetrate the piece and drive and implant the needle and stab the human body. However, the implantation tool in the prior art is not provided with a corresponding receiving device for receiving the emitter, so that the emitter is at risk of being damaged, and particularly when the emitter is accidentally collided, the emitter is easily damaged, and the implantation tool cannot be normally used.

SUMMERY OF THE UTILITY MODEL

The implantation tool aims at the technical problem that the emitter is easy to damage and the implantation tool cannot be used normally because the emitter is not well protected in the implantation tool in the prior art. The utility model provides a can effectively accept the protection to the transmitter to avoid the tray of transmitter damage.

A tray for receiving a transmitter of an implantation tool, the tray comprising:

a bottom wall;

the side wall is arranged around the edge of the bottom wall, and the bottom wall and the side wall enclose an accommodating space;

the elastic arm, one end with the diapire and/or the lateral wall is connected, and the other end orientation extends in the accommodation space, just the other end activity of elastic arm set up in the accommodation space.

And simultaneously, the utility model also provides a transmitter subassembly, it includes the transmitter and the tray, play the arm the other end with the transmitter butt will the transmitter buckle in among the accommodation space, just play the arm receive after the extrusion can with the transmitter separation.

Preferably, set up on the transmitter and run through the through-hole that the transmitter set up, the tray still includes:

and the limiting column is arranged on the bottom wall and is positioned in the accommodating space, and the limiting column is correspondingly inserted in the through hole.

Preferably, the emitter edge has been seted up the constant head tank, the tray still includes:

the positioning column is arranged on the side wall, connected with the bottom wall and located in the accommodating space, and corresponds to the positioning groove.

Preferably, the tray further comprises:

the accommodating groove is formed in the bottom wall;

the detected body is arranged in the accommodating groove;

the transmitter is provided with a proximity switch, and the proximity switch is used for detecting the detected body and controlling the circuit in the transmitter to be disconnected.

Preferably, the transmitter includes:

a mounting bracket assembly;

the emitter body is movably arranged in the fixed frame component;

the elastic arm is abutted to the fixed frame component.

Preferably, the fixing frame assembly includes:

a fixed frame body;

the fixing frame clamping table is arranged at the edge of the fixing frame body;

the emitter body is movably arranged in the fixing frame body, and the elastic arm is abutted to the fixing frame clamping table.

Preferably, the bottom of the fixing frame body is close to the fixing frame clamping table, an avoiding groove is formed in the position, where the fixing frame clamping table is sunken, and the elastic arm penetrates through the avoiding groove and is abutted to the fixing frame clamping table.

Preferably, the bottom wall is sunken to be formed with the sunken groove of bottom wall, the bullet arm is located correspondingly in the sunken groove of bottom wall, the bullet arm includes:

the elastic arm body is connected with the bottom wall;

the boss, set up in the tip of bullet arm body and with mount ka tai butt, just the boss is kept away from dodge the surface of groove one side and be the inclined plane.

Preferably, the elastic arm includes:

one end of the fixed arm is connected with the side wall;

the movable arm extends from the other end of the side wall to the accommodating space and is close to one side of the bottom wall, a clamping cavity is formed between the movable arm and the bottom wall in the accommodating space at intervals, and the movable arm comprises a body connected with the fixed arm and a boss arranged at one end of the body, which is far away from the fixed arm;

the fixing frame clamping table is provided with a groove, and the boss is correspondingly abutted to the groove.

Preferably, a recessed groove is formed in the side wall, the recessed groove is communicated with the accommodating space, the elastic arm is correspondingly located at the recessed groove, and the elastic arm is arranged at intervals on two sides of the elastic arm along the extending direction of the side wall.

And simultaneously, the utility model also provides an implantation tool, it includes:

a housing;

the pushing and ejecting piece is accommodated in the shell and is buckled on the shell in a buckling manner;

the launcher assembly according to any one of the preceding claims, wherein the launcher is detachably connected to the housing, and the housing is configured to press the elastic arm to separate the elastic arm from the launcher.

Compared with the prior art, the utility model provides a tray passes through the lateral wall with the diapire encloses jointly accommodation space, thereby pass through accommodation space can realize the effective accomodation to the transmitter, and the tray still is provided with the bullet arm, bullet arm one end with the lateral wall is connected, and the other end orientation extends in the accommodation space, just the other end activity of bullet arm set up in the accommodation space, thereby pass through the bullet arm can be in the transmitter buckle in the accommodation space, simultaneously because the other end activity of bullet arm sets up for the transmitter also can effectual follow when needs use deviate from in the accommodation space. Therefore, the emitter can be effectively protected by the tray, damage caused by accidental collision of the emitter is avoided, and normal use of the emitter cannot be influenced.

Correspondingly, the utility model provides a transmitter subassembly is through adopting the tray, the other end of bullet arm with the transmitter butt will the transmitter buckle in among the accommodation space, just the bullet arm can with the transmitter separation after receiving the extrusion, thereby pass through the tray can effectually protect the transmitter, is in simultaneously when the transmitter needs to use, the transmitter also can be followed deviate from smoothly in the tray.

Correspondingly, the utility model provides an implant instrument is through adopting the transmitter subassembly to can effectually protect the transmitter, be in simultaneously when implanting the instrument and need using, also can pass through the smooth will of casing the transmitter is followed deviate from in the tray.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic cross-sectional view of an implantation tool according to an exemplary embodiment in one implementation;

FIG. 2 is a schematic partial cross-sectional view of the implant tool of FIG. 1;

FIG. 3 is a perspective view of the pallet shown in FIG. 1;

FIG. 4 is a perspective view of the mounting bracket assembly of FIG. 1;

FIG. 5 is a schematic view of an implantation tool according to a second embodiment in partial cross-section;

FIG. 6 is a perspective view of the tray shown in FIG. 5;

fig. 7 is a perspective view of the mounting bracket assembly shown in fig. 5.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly disposed on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings are only used for matching the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the practical limit conditions of the present application, so that the modifications of the structures, the changes of the ratio relationships, or the adjustment of the sizes, do not have the technical essence, and the modifications, the changes of the ratio relationships, or the adjustment of the sizes, are all within the scope of the technical contents disclosed in the present application without affecting the efficacy and the achievable purpose of the present application.

The utility model provides a tray, which is used for accommodating a transmitter of an implantation tool, and comprises a bottom wall, a side wall and an elastic arm; the side wall is arranged around the edge of the bottom wall, and the bottom wall and the side wall enclose an accommodating space; one end of the elastic arm is connected with the side wall, the other end of the elastic arm faces the accommodating space and extends into the accommodating space, and the other end of the elastic arm is movably arranged in the accommodating space. The tray can effectively protect the emitter, avoids the collision damage of the emitter, and simultaneously can not influence the normal use of the emitter.

And simultaneously, the utility model also provides a transmitter subassembly, it includes the transmitter and the tray, play the arm the other end with the transmitter butt will the transmitter buckle in among the accommodation space, just play the arm receive after the extrusion can with the transmitter separation. The same can effectively protect the transmitter, avoid the transmitter collision damage, can not influence the normal use of transmitter simultaneously yet.

Example one

Please refer to fig. 1 to fig. 4. The present embodiment provides a transmitter assembly 10, which includes a tray 11 and a transmitter 12, wherein the tray is used for accommodating the transmitter 12, so that the transmitter 12 can be well protected by the tray 11, and the transmitter 12 is prevented from being damaged due to collision.

The tray 11 includes a bottom wall 111, a side wall 112 and an elastic arm 113, the side wall 112 is disposed around an edge of the bottom wall 111, the bottom wall 111 and the side wall 112 together enclose an accommodating space 114, and the accommodating space 114 is used for accommodating the emitter 12. One end of the elastic arm 113 is connected to the side wall 112, the other end of the elastic arm 113 extends toward the accommodating space 114, and the other end of the elastic arm 113 is movably disposed in the accommodating space 114. The movable setting means that the other end of the elastic arm 113 can move or deform in the accommodating space 114, so that the elastic arm 113 can correspondingly abut against the launcher 12 under normal conditions to clamp the launcher 12 in the accommodating space 114, and when the launcher 12 needs to be separated from the tray 11, the elastic arm 113 can be smoothly separated from the launcher 12. Specifically, the other end of the elastic arm 113 abuts against the launcher 12 to fasten the launcher 12 in the accommodating space 114, and the elastic arm 113 can be separated from the launcher 12 after being pressed. Therefore, when the launcher 12 is not needed to be used, the elastic arm 113 in the tray 11 can well clamp the launcher 12 in the accommodating space 114, and when the launcher 12 is needed to be used, the launcher 12 can smoothly fall out of the accommodating space 114. Effective protection of the transmitter 12 can be achieved without affecting the normal use of the transmitter 12. It can be understood that, in this embodiment, the elastic arm 113 is disposed on the side wall 112, of course, in other embodiments, the elastic arm 113 may also be correspondingly disposed on the bottom wall 111, and even the elastic arm 113 may be disposed on both the bottom wall 111 and the side wall 112, that is, only the elastic arm 113 is disposed in the tray 11 to movably buckle the emitter 12.

Preferably, the launcher 12 includes a fixing frame assembly 121 and a launcher body 122, the launcher body 122 is movably disposed in the fixing frame assembly 121, and the elastic arm 113 abuts against the fixing frame assembly 121. Wherein, the activity of transmitter body 122 set up in the mount subassembly 121 specifically is: the emitter body 122 is fastened in the fixing frame assembly 121, and the emitter body 122 can be released from the fixing frame assembly 121 under a certain condition. In this embodiment, the emitter body 122 is buckled in the fixing frame assembly 121 by a slider and a spring in the fixing frame assembly 121 in a matching manner, and the emitter body 122 can be released by a push-shooting piece of an implantation tool, that is, the push-shooting piece of the implantation tool can press the slider in the fixing frame assembly 121 when moving, so that the emitter body 122 is released from the fixing frame assembly 121, and the emitter body 122 is attached to a human body.

Preferably, the fixing frame assembly 121 includes a fixing frame body 1211 and a fixing frame clamping table 1212, the fixing frame clamping table 1212 is disposed at an edge of the fixing frame body 1211, the emitter body 122 is movably disposed in the fixing frame body 1211, and the elastic arm 113 abuts against the fixing frame clamping table 1212. Specifically, the holder block 1212 is formed by extending from the edge of the holder body 1211 in a direction away from the center. The elastic arm 113 can better abut against the fixing frame assembly 121 by arranging the fixing frame clamping table 1212, so that the emitter 12 can be more stably clamped in the accommodating space 114.

Preferably, the elastic arm 113 includes a fixed arm 1131 and a movable arm 1132, one end of the fixed arm 1131 is connected to the side wall 112, the movable arm 1132 extends from the other end of the side wall 112 toward the accommodating space 114 and near one side of the bottom wall 111, the movable arm 1132 and the bottom wall 111 form a clamping cavity 1133 in the accommodating space 114 at an interval, and the movable arm 1132 clips the fixing frame clamping platform 1212 in the clamping cavity 1133. The movable arm 1132 includes a body 1133 connected to the fixed arm 1131 and a boss 1134 disposed at an end of the body 1133 away from the fixed arm 1131, a groove 1213 is disposed on the fixed frame block 1212, and the boss 1134 abuts against the groove 1213, so that the elastic arm 113 better abuts against the emitter 12. It will be appreciated that in one embodiment, the surface of the groove 1213 that abuts the boss 1134 can be beveled to allow the spring arm 113 to more easily slide off of the holder block 1212 when a force is applied to the spring arm 113.

Preferably, a recessed groove 1121 is formed in the side wall 112, the recessed groove 1121 is communicated with the accommodating space 114, and the elastic arm 113 is correspondingly located at the recessed groove 1121, and two sides of the elastic arm 113 are spaced from the side wall 112 along the extending direction of the side wall 112. In the present embodiment, the sidewall 112 is annular, that is, the extending direction of the sidewall 112 is the circumferential direction. Through setting up the both sides of bullet arm 113 with lateral wall 112 interval for it is easier to be out of shape after the atress for bullet arm 113, thereby lets emitter 12 from accommodation space 114 dropout is more convenient.

Preferably, in this embodiment, two elastic arms 113, two fixing frame clamping platforms 1212 and two concave grooves 1121 are disposed, the two fixing frame clamping platforms 1212 are disposed at two sides of the fixing frame body 1211, and each fixing frame clamping platform 1212 is correspondingly disposed with one elastic arm 113 and one concave groove 1121. Therefore, the two elastic arms 113 can be respectively buckled from two opposite sides of the launcher 12, so that the force of the launcher 12 is more balanced, and the launcher 12 is prevented from sliding out from one side.

Preferably, a through hole 123 penetrating through the emitter 12 is formed in the emitter 12, the tray 11 further includes a limiting post 115, the limiting post 115 is disposed on the bottom wall 111 and located in the accommodating space 114, and the limiting post 115 is correspondingly inserted into the through hole 123. Therefore, the movement of the emitter 12 in the accommodating space 114 can be limited by the limiting column 115, and more preferably, the limiting column 115 is completely abutted against the inside of the through hole 123, so that the limiting column 115 is clamped in the through hole 123 and the boss 1134 is clamped in the groove 1213, so that the tray 11 completely limits six degrees of freedom of the emitter 12, and the requirements of a drop test are effectively met. Preferably, the position of the limiting column 115 corresponds to the position of an implantation needle of an implantation tool, so that the through hole 123 is positioned through the limiting column 115, and when the implantation tool is used, the implantation needle of the implantation tool can smoothly penetrate into a human body through the through hole 123.

Preferably, the emitter 12 is provided with a positioning groove, the tray 11 further includes a positioning column 116, the positioning column 116 is disposed on the side wall 112 and connected to the bottom wall 111, the positioning column 116 is located in the accommodating space 114, and the positioning column 116 is disposed corresponding to the positioning groove. Through the positioning column 116 and the positioning groove, positioning of the emitter 12 when being installed on the tray 11 can be effectively realized, so that the fixed frame clamping table 1212 on the emitter 12 can be opposite to the elastic arm 113, and the elastic arm 113 can be effectively fastened and fixed to the emitter 12.

Preferably, the tray 11 further includes an accommodating groove 117 and a detected body, the accommodating groove 117 is disposed on the bottom wall 111, specifically, the accommodating groove 117 is recessed from a side surface of the bottom wall 111 enclosing the accommodating space 114 toward a direction away from the accommodating space 114, and the detected body is disposed in the accommodating groove 117. A proximity switch is provided in the transmitter 12, and the proximity switch is used to detect that the detected object controls the circuit in the transmitter 12 to be opened. Specifically, in the present embodiment, the proximity switch is a magnetic proximity switch, and the detected object is a magnetic object, such as a magnetic metal, so that the power of the transmitter 12 can be controlled to be cut off when the transmitter 12 is installed in the tray 11, thereby effectively saving the power of the transmitter 12 and ensuring the service time of the transmitter 12.

Meanwhile, the present embodiment further provides an implantation tool 100, which includes the emitter assembly 10, a housing 20, a pushing member 30 and a driving button 40, wherein the emitter 12 is detachably connected to the housing 20, the pushing member 30 is accommodated in the housing 20 and is connected to the housing 20 in a snap-fit manner, and the driving button 40 is used for driving the pushing member 30 to release from the housing 20. When the implantation tool 100 is not in use, the transmitter assembly 10 is placed separately from the other components of the implantation tool 100. When the implantation tool 100 needs to be used, the user mounts the emitter assembly 10 on the housing 20, at this time, the housing 20 presses the elastic arm 113 to separate the elastic arm 113 from the emitter 12, so that the emitter 12 is released from the receiving space 114 and mounted on the housing 20, and then the user further pushes the driving button 40 to move the ejector 30 toward the side of the emitter 12, the ejector 30 feeds the sensor into the emitter 12, and the ejector 30 drives the implantation needle to penetrate into the human body, thereby completing the operation of the implantation tool 100.

Example two

Please refer to fig. 5-7. The present embodiment provides a transmitter assembly 50, which has substantially the same structure as the transmitter assembly 10 in the first embodiment, but the difference is that the snap-fit structure between the transmitter 51 and the tray 52 of the transmitter assembly 50 in the present embodiment is different from that in the first embodiment:

in this embodiment, the elastic arm 521 is disposed on the bottom wall 522, and the bottom of the fixing frame body 511 is recessed near the fixing frame clamping table 512 to form an avoiding groove 513, and the elastic arm 521 passes through the avoiding groove 513 and the fixing frame clamping table 512.

It will be appreciated that in the first embodiment, the elastic arm is pressed downwards from the upper end of the tray, and when the housing of the implantation tool is pressed downwards from above, the elastic arm is touched first, so that the elastic arm unlocks the fixing frame assembly first. When the user uses the electronic device halfway, the end of use may bring about bad phenomena, such as the user presses half to be unnecessary to use, the launcher may already trip from the tray due to the fact that the user touches the elastic arm, and the launcher has a risk of falling. In the embodiment, the fastening frame assembly is fastened from the bottom end instead of being fastened from the bottom end, that is, the fastening frame assembly is fastened from the elastic arm 521 to the fastening frame fastening table 512 after passing through the avoiding slot 513 from the bottom wall 522, so that the object of the implantation tool must move a certain distance to touch the elastic arm 521 after being pressed into the tray 52, and the emitter 51 can be disengaged from the tray 52, thereby effectively reducing the adverse effect brought by the user when the user stops operating in the middle of use.

Preferably, the bottom wall 522 is concavely formed with a bottom wall concave groove 5221, and the elastic arm 521 is correspondingly positioned in the bottom wall concave groove 5221. The elastic arm 521 includes an elastic arm body 5211 and a boss 5212, the elastic arm body 5211 and the bottom wall 522 are connected, the boss 5212 is arranged at the end of the elastic arm body 5211 and abutted against the fixing frame clamping table 512, and the boss 5212 is far away from one side surface of the avoiding groove 513 is an inclined plane. That is, the abutting surface 5213 of the boss 5212 for abutting against the housing of the implantation tool is a slope surface, so that the implantation tool can more easily press the boss 5212 toward the side close to the avoiding groove 513, facilitating the trip of the emitter 51. It can be understood that the bottom wall concave slot 5221 can effectively provide a deformation space for the elastic arm 521, so that the elastic arm 521 can be more easily separated from the launcher 51 after being pressed, and the operation difficulty of a user is reduced.

Likewise, the emitter assembly 50 may be employed in the implantation tool 100.

Compared with the prior art, the utility model provides a tray passes through the lateral wall with the diapire encloses jointly accommodation space, thereby pass through accommodation space can realize the effective accomodation to the transmitter, and the tray still is provided with the bullet arm, bullet arm one end with the lateral wall is connected, and the other end orientation extends in the accommodation space, just the other end activity of bullet arm set up in the accommodation space, thereby pass through the bullet arm can be in the transmitter buckle in the accommodation space, simultaneously because the other end activity of bullet arm sets up for the transmitter also can effectual follow when needs use deviate from in the accommodation space. Therefore, the emitter can be effectively protected through the tray, and damage caused by accidental collision of the emitter is avoided.

Correspondingly, the utility model provides a transmitter subassembly is through adopting the tray, the other end of bullet arm with the transmitter butt will the transmitter buckle in among the accommodation space, just the bullet arm can with the transmitter separation after receiving the extrusion, thereby pass through the tray can effectually protect the transmitter, is in simultaneously when the transmitter needs to use, the transmitter also can be followed deviate from smoothly in the tray.

Correspondingly, the utility model provides an implant instrument is through adopting the transmitter subassembly to can effectually protect the transmitter, be in simultaneously when implanting the instrument and need using, also can pass through the smooth will of casing the transmitter is followed deviate from in the tray.

The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims (12)

1. A tray for receiving a transmitter of an implantation tool, the tray comprising:

a bottom wall;

the side wall is arranged around the bottom wall, and the bottom wall and the side wall enclose an accommodating space;

the elastic arm, one end with the diapire and/or the lateral wall is connected, and the other end orientation extends in the accommodation space, just the other end activity of elastic arm set up in the accommodation space.

2. An emitter assembly, comprising:

a transmitter;

the tray of claim 1, wherein the other end of the spring arm abuts against the launcher to fasten the launcher in the receiving space, and the spring arm can be separated from the launcher after being pressed.

3. The emitter assembly of claim 2, wherein said emitter has a through hole formed therethrough, said tray further comprising:

and the limiting column is arranged on the bottom wall and is positioned in the accommodating space, and the limiting column is correspondingly inserted in the through hole.

4. The emitter assembly of claim 3, wherein said emitter rim defines a detent, said tray further comprising:

the positioning column is arranged on the side wall, connected with the bottom wall and located in the accommodating space, and corresponds to the positioning groove.

5. The emitter assembly of claim 4, wherein said tray further comprises:

the accommodating groove is formed in the bottom wall;

the detected body is arranged in the accommodating groove;

a proximity switch is arranged in the transmitter and used for controlling the circuit in the transmitter to be disconnected.

6. The transmitter assembly of any one of claims 2 to 5, wherein the transmitter comprises:

a mounting bracket assembly;

the emitter body is movably arranged in the fixed frame component;

the elastic arm is abutted to the fixed frame component.

7. The launcher assembly according to claim 6, wherein said mounting bracket assembly comprises:

a fixed frame body;

the fixing frame clamping table is arranged at the edge of the fixing frame body;

the emitter body is movably arranged in the fixing frame body, and the elastic arm is abutted to the fixing frame clamping table.

8. The launcher assembly according to claim 7, wherein an avoiding slot is formed at a bottom of the holder body near the holder engaging platform, and the elastic arm passes through the avoiding slot and abuts against the holder engaging platform.

9. The launcher assembly according to claim 8, wherein said bottom wall recess is formed with a bottom wall recess groove, and said elastic arm is correspondingly located in said bottom wall recess groove, said elastic arm comprising:

the elastic arm body is connected with the bottom wall;

the boss, set up in the tip of bullet arm body and with mount ka tai butt, just the boss is kept away from dodge the surface of groove one side and be the inclined plane.

10. The launcher assembly according to claim 7, wherein said elastic arm comprises:

one end of the fixed arm is connected with the side wall;

the movable arm extends from the other end of the side wall to one side, which faces the accommodating space and is close to the bottom wall, the movable arm and the bottom wall are separated to form a clamping cavity in the accommodating space, and the movable arm comprises a body connected with the fixed arm and a boss arranged at one end, far away from the fixed arm, of the body;

the fixing frame clamping table is provided with a groove, and the boss is correspondingly abutted to the groove.

11. The launcher assembly according to any one of claims 2 to 5 or 7 to 10, wherein the side wall has a recessed groove formed therein, the recessed groove is communicated with the accommodating space, the elastic arm is correspondingly located at the recessed groove, and two sides of the elastic arm are spaced from the side wall along an extending direction of the side wall.

12. An implant tool, comprising:

a housing;

the pushing and ejecting piece is accommodated in the shell and is buckled on the shell in a buckling manner;

the launcher assembly according to any one of claims 2 to 9, wherein the launcher is removably attached to the housing, and the housing is configured to squeeze the elastic arm to separate the elastic arm from the launcher.

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