CN219501127U - Intervene puncture positioning mechanism - Google Patents

Abstract

The utility model provides an intervention puncture positioning mechanism, which relates to the technical field of intervention puncture and comprises an intervention module, wherein an anti-slip pad is arranged on the outer surface of one side of the intervention module, a fixing ring is fixed on the outer surface of the intervention module close to the center, extension plates are fixed on the outer surfaces of two sides of the fixing ring, a fixing module is arranged on the top of the extension plates, a buffer structure is arranged on the outer surface of the intervention module, and the buffer structure comprises a receiving ring.

Description

Intervene puncture positioning mechanism

Technical Field

The utility model relates to the technical field of interventional puncture, in particular to an interventional puncture positioning mechanism.

Background

The puncture is to inject medicine, nutrient solution, etc. into the body of patient to treat disease or maintain life, and consists of one transparent tube and pressing assembly.

However, in the prior art, the interventional puncture belongs to a treatment means, and the interventional puncture enters the skin mainly through the interventional puncture and then is injected with the medicine so as to achieve the treatment means, the interventional module has different sizes, but is single-handed and handheld, and the single-handed and handheld can enable the interventional module to generate certain inclination, so that the interventional module can be used to have certain auxiliary positioning structure, but because the interventional module is auxiliary positioning of an external object and is not connected with the interventional module, the interventional module needs to be installed and fixed in advance, the interventional module needs to find an interventional position in advance, is fixed at the position, and can cause excessive intervention during the intervention.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and because the external object is in auxiliary positioning and is not connected with an intervention module, the external object needs to be installed and fixed in advance, which leads to the need of searching an intervention position in advance and fixing the intervention position, and the intervention can also cause excessive intervention during the intervention, thereby providing an intervention puncture positioning mechanism.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an intervene puncture positioning mechanism, includes intervenes the module, one side surface of intervene the module is provided with the slipmat, the surface of intervene the module is close to center department and is fixed with solid fixed ring, gu fixed ring's both sides surface all is fixed with the extension board, the top of extension board is provided with fixed module, the surface of intervene the module is provided with buffer structure, buffer structure is including accepting the ring, it all is fixed with the fixed plate to accept the both sides surface of ring, the bottom of fixed plate is fixed with first supporting template.

As a preferred implementation mode, a plurality of laminating grooves are formed in the bottom of the first support template in a penetrating mode, a partition plate is connected to the inside of each laminating groove in a sliding mode, and a second support template is fixed to the bottom of each partition plate.

As a preferred embodiment, a spring is fixed between the opposite faces of the second support template and the first support template, and a positioning structure is arranged at the bottom of the second support template.

As a preferred implementation mode, the positioning structure comprises a sliding ring, connecting plates are fixed on the outer surfaces of two sides of the sliding ring, connecting rods are fixed at the bottoms of the connecting plates, and positioning rings are fixed at the bottom ends of the connecting rods.

As a preferred embodiment, the sliding ring is arranged at the center of the outer surface of the intervention module, and the sliding ring is in sliding connection with the intervention module.

As a preferred implementation mode, the bearing rings are arranged in one, and each bearing ring is arranged at the center of the outer surface of the intervention module in a group and is in fit connection.

Compared with the prior art, the utility model has the advantages and positive effects that:

the utility model aims to solve the problems, plays a role in positioning and buffering under the auxiliary action of the positioning structure and the buffering structure part, and then plays a role in fixing the positioning structure and the buffering structure part through the fixing ring, the extension plate and the fixing module, wherein the positioning structure plays a role in positioning during insertion, and the buffering structure plays a role in buffering during insertion, so that the situation that the need of searching for position fixing in advance and the possibility of excessive insertion are avoided.

Drawings

FIG. 1 is a schematic side view of an interventional puncture positioning mechanism according to the present utility model;

FIG. 2 is a schematic bottom perspective view of an intervention module part of an intervention puncture positioning mechanism according to the present utility model;

FIG. 3 is a schematic side view of a positioning structure of an interventional puncture positioning mechanism according to the present utility model;

fig. 4 is a partially disassembled schematic perspective view of a buffer structure of an interventional puncture positioning mechanism.

Legend description:

1. an intervention module; 2. an anti-slip pad; 3. a fixing ring; 4. an extension plate; 5. a fixed module; 6. a positioning structure; 7. a buffer structure;

601. a positioning ring; 602. a connecting rod; 603. a connecting plate; 604. a slip ring;

701. a receiving ring; 702. a fixing plate; 703. a first support template; 704. a second support template; 705. a bonding groove; 706. a spring; 707. a partition board.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-4, the present utility model provides a technical solution: the utility model provides an intervene puncture positioning mechanism, including intervene module 1, intervene the one side surface of module 1 and be provided with slipmat 2, intervene the surface of module 1 and be close to center department and be fixed with solid fixed ring 3, gu fixed ring 3's both sides surface all is fixed with extension board 4, and extension board 4's top is provided with fixed module 5, intervene the surface of module 1 and be provided with buffer structure 7, buffer structure 7 is including accepting ring 701, accept the both sides surface of ring 701 and all be fixed with fixed plate 702, and the bottom of fixed plate 702 is fixed with first supporting template 703.

In this embodiment, the anti-slip pad 2 can provide a certain anti-slip effect when the intervention module 1 is used, the fixing ring 3 mainly plays a role in fixing and connecting, the extension plate 4 mainly plays a role in extending and connecting, the fixing module 5 mainly plays a role in fixing, it is mainly connected with the fixing plate 702 part in the buffer structure 7, the buffer structure 7 part plays a role in fixing the external surface of the intervention module 1, the buffer structure 7 mainly plays a role in linking with the positioning structure 6 when the intervention, and the buffer effect is played, so that excessive intervention or excessive intervention is avoided.

Example 2

As shown in fig. 1-4, a plurality of attaching grooves 705 are formed in the bottom of the first supporting template 703 in a penetrating manner, a partition 707 is slidably connected in the attaching grooves 705, a second supporting template 704 is fixed at the bottom of the partition 707, a spring 706 is fixed between opposite surfaces of the second supporting template 704 and the first supporting template 703, a positioning structure 6 is arranged at the bottom of the second supporting template 704, the positioning structure 6 comprises a sliding ring 604, connecting plates 603 are fixed on two outer surfaces of the sliding ring 604, connecting rods 602 are fixed at the bottoms of the connecting plates 603, a positioning ring 601 is fixed at the bottom end of the connecting rods 602, the sliding ring 604 is arranged at the center of the outer surface of the intervention module, the sliding ring 604 is slidably connected with the intervention module 1, the receiving rings 701 are provided with one group, and each group is arranged at the center of the outer surface of the intervention module 1 in an attaching manner.

In this embodiment, the buffer structure 7 is affected by the positioning structure 6, the first supporting template 703 moves to one side, and pushes the partition 707 and the spring 706, the pushed partition 707 slides along the fitting groove 705, and the auxiliary spring 706 contracts, the pushed spring 706 contracts under the action of the second supporting template 704, the contracted spring 706 provides a certain buffering effect, thereby playing a role in buffering, the positioning structure 6 plays a role in positioning mainly during intervention, the connecting rod 602 plays a role in supporting and connecting, the connecting plate 603 plays a role in supporting and connecting, the sliding ring 604 plays a role in sliding and supporting, and when the buffer structure 7 is linked, the connecting rod 602 pushes the connecting rod 602, and the connecting rod 603 drives the sliding ring 604 to slide on the outer surface of the intervention module 1.

Working principle:

as shown in fig. 1-4, in actual use, when the drug needs to be injected in an intervention way, the positioning structure 6 provides a certain positioning effect, the buffer structure 7 provides a certain buffer effect, the positioning structure 6 can avoid the inclination during the intervention, the buffer structure 7 can avoid the condition of excessive intervention during the intervention, wherein the situation can be more current, and the disassembly of the positioning structure 6 and the buffer structure 7 can be realized;

it should be noted that, in the positioning structure 6, the positioning structure 6 mainly provides a positioning effect through the positioning ring 601, the connecting rod 602 therein can provide effective support and connection, the connecting plate 603 can perform the effect of receiving and connection, the sliding ring 604 can perform the sliding effect, when the positioning structure is used in linkage with the buffer structure 7, the positioning ring 601 can move to one side and drive the connecting rod 602 to move, the connecting rod 602 can drive the connecting plate 603 to move, the connecting plate 603 can drive the sliding ring 604 to slide and link with the buffer structure 7, and the buffer effect is achieved;

secondly, it should be noted that the buffer structure 7 is mainly used for providing a certain buffer effect during intervention, avoiding the situation of excessive intervention or excessive intervention, wherein the second support module is driven by the positioning structure 6, when the positioning structure 6 is driven, the second support module moves to one side and drives the partition 707, and pushes the spring 706, the partition 707 slides through the fitting groove 705 when moving, the spring 706 is assisted to move and shrink, the spring 706 is shrunk under the action of the first support plate, and a certain buffer effect is provided when the spring 706 is shrunk, thus playing the buffer effect and avoiding the situation of excessive intervention;

and what should be stated here is that when the positioning structure 6 and the buffer structure 7 are required to be partially disassembled at present, the positioning structure 6 and the buffer structure 7 can be partially disassembled after the fixing module 5 is partially disassembled by partially disassembling the fixing module 5, wherein the anti-slip pad 2 can provide a certain anti-slip effect when being intervened.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. Intervene puncture positioning mechanism, including intervene module (1), its characterized in that: the anti-slip device is characterized in that an anti-slip pad (2) is arranged on one outer surface of the intervention module (1), a fixing ring (3) is fixed on the outer surface of the intervention module (1) close to the center, extension plates (4) are fixed on the outer surfaces of the two sides of the fixing ring (3), a fixing module (5) is arranged on the top of each extension plate (4), a buffer structure (7) is arranged on the outer surface of the intervention module (1), the buffer structure (7) comprises a bearing ring (701), fixing plates (702) are fixed on the outer surfaces of the two sides of the bearing ring (701), and a first support template (703) is fixed on the bottom of each fixing plate (702).

2. An interventional puncture location mechanism as set forth in claim 1, wherein: the bottom of first supporting template (703) has all run through and has seted up a plurality of laminating grooves (705), the inside sliding connection in laminating groove (705) has baffle (707), the bottom of baffle (707) is fixed with second supporting template (704).

3. An interventional puncture location mechanism as set forth in claim 2, wherein: a spring (706) is fixed between the opposite surfaces of the second support template (704) and the first support template (703), and a positioning structure (6) is arranged at the bottom of the second support template (704).

4. An interventional puncture location mechanism as set forth in claim 3, wherein: the positioning structure (6) comprises a sliding ring (604), connecting plates (603) are fixed on the outer surfaces of two sides of the sliding ring (604), connecting rods (602) are fixed at the bottoms of the connecting plates (603), and positioning rings (601) are fixed at the bottom ends of the connecting rods (602).

5. An interventional puncture location mechanism as set forth in claim 4, wherein: the sliding ring (604) is arranged at the center of the outer surface of the intervention module, and the sliding ring (604) is in sliding connection with the intervention module (1).

6. An interventional puncture location mechanism as set forth in claim 1, wherein: the bearing rings (701) are provided with one, and each bearing ring is a group which is arranged at the center of the outer surface of the intervention module (1) and is in fit connection.