CN110975069B

CN110975069B - Medicine syringe for muscle

Info

Publication number: CN110975069B
Application number: CN201911236446.3A
Authority: CN
Inventors: 杨霞
Original assignee: Yueqing Chuanjia Electric Technology Co ltd
Current assignee: Shaanxi Longkangxin Medical Instrument Co.,Ltd.
Priority date: 2018-12-30
Filing date: 2018-12-30
Publication date: 2021-08-03
Anticipated expiration: 2038-12-30
Also published as: CN110975069A; CN109481790A; CN109481790B

Abstract

The invention discloses a medicine injector for muscle, which comprises a needle tube, a puncture needle, a connecting seat and two plungers; one end of the needle tube is provided with two mutually isolated sliding cavities, the other end of the needle tube is provided with a sealing plate, the sealing plate is provided with two through holes, and each through hole is communicated with one corresponding sliding cavity; each plunger is positioned in a corresponding sliding cavity and can slide in the sliding cavity in a sealing way; the shape of the radial section of the needle tube is 8-shaped; the connecting seat comprises an 8-shaped seat plate and an 8-shaped sliding pipe arranged at one end of the seat plate; two transfusion holes communicated with the puncture needle are arranged on the 8-shaped seat plate; the 8-shaped sliding pipe consists of two communicated arc-shaped sliding pipes, and each infusion hole is positioned in one corresponding arc-shaped sliding pipe; the closing plate of the needle tube is positioned in the 8-shaped sliding tube, the closing plate is abutted against the wall surface of the 8-shaped seat plate and is in sealing fit with the wall surface of the 8-shaped seat plate, and the needle tube can be twisted in the 8-shaped sliding tube in a reciprocating mode for a certain angle; and in the twisting process of the needle tube, each through hole and one corresponding infusion hole are communicated or blocked. The invention can inject more than two medicaments after being inserted into one time.

Description

Medicine syringe for muscle

Technical Field

The invention belongs to the technical field of structural design of syringes, and particularly relates to a syringe for muscle medication.

Background

Generally, when a patient is comprehensively treated, a plurality of medicaments need to be injected into muscles, and generally, a nursing staff can mix the medicaments and inject the mixed medicaments into the muscles at one time; however, for some special medicaments, the medicaments cannot be mixed for use, and the sequential injection must be clarified; conventionally, intramuscular injections are performed sequentially using a plurality of syringes, which results in at least one muscle penetration per syringe, thereby increasing pain to the patient.

Disclosure of Invention

The invention aims to provide an intramuscular injection syringe which can inject at least two medicaments only by pricking once, thereby effectively relieving the pain of patients.

The technical scheme for realizing the purpose of the invention is as follows: a medicine injector for muscle comprises a needle tube, a puncture needle, a connecting seat and two plungers; one end of the needle tube is provided with two mutually isolated sliding cavities, the other end of the needle tube is provided with a sealing plate, the sealing plate is provided with two through holes, and each through hole is communicated with one corresponding sliding cavity; each plunger is positioned in a corresponding sliding cavity and can slide in the sliding cavity in a sealing way; the shape of the radial section of the needle tube is 8-shaped; the connecting seat comprises an 8-shaped seat plate and an 8-shaped sliding pipe arranged at one end of the seat plate; two transfusion holes communicated with the puncture needle are arranged on the 8-shaped seat plate; the 8-shaped sliding pipe consists of two communicated arc-shaped sliding pipes, and each infusion hole is positioned in one corresponding arc-shaped sliding pipe; the closing plate of the needle tube is positioned in the 8-shaped sliding tube, the closing plate is abutted against the wall surface of the 8-shaped seat plate and is in sealing fit with the wall surface of the 8-shaped seat plate, and the needle tube can be twisted in the 8-shaped sliding tube in a reciprocating mode for a certain angle; and in the twisting process of the needle tube, each through hole and one corresponding infusion hole are communicated or blocked.

The further preferred scheme is as follows: the other end of the 8-shaped seat plate is provided with a felting needle mounting seat; the puncture needle comprises a needle head and a needle head seat; the puncture needle mounting seat is provided with a liquid channel, and the two transfusion holes are communicated with the needle head of the puncture needle through the liquid channel.

The further preferred scheme is as follows: the needle head seat is clamped and sleeved on the needle mounting seat of the seat plate.

The further preferred scheme is as follows: two limiting bosses protruding outwards along the radial direction of the needle tube are arranged on the outer wall of the needle tube, and an inwards-concave limiting slide way and a guide slide way communicated with the limiting slide way are arranged on the inner wall of each arc-shaped slide tube; each limiting boss is matched with a corresponding limiting slide way and is in interference fit with a corresponding guiding slide way.

The further preferred scheme is as follows: the moving track line of each through hole is an arc line during the twisting process of the needle tube.

The further preferred scheme is as follows: the transfusion hole and a corresponding through hole are arranged at two ends of the moving track line of the through hole.

The further preferred scheme is as follows: the position of each through hole is deviated from the central position of a corresponding one of the slide cavities.

The further preferred scheme is as follows: the center distance of the two through holes is smaller than that of the two slide cavities.

The invention has the advantages that: can inject at least two medicaments after being pricked once, thereby effectively relieving the pain of patients.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an exploded view of the syringe of FIG. 1;

FIG. 3 is a perspective view of the connecting base of the syringe of FIG. 1;

FIG. 4 is a cross-sectional view of the connecting socket shown in FIG. 3;

FIG. 5 is a cross-sectional view of the syringe of FIG. 1;

FIG. 6 is a schematic view of the syringe of FIG. 1 in a twisted position;

fig. 7 is a schematic view of the syringe of fig. 1 in another twisted position.

The reference signs are: the needle tube 1, the sliding cavity 11, the closing plate 12, the through hole 13, the puncture needle 2, the needle 21, the needle seat 22, the connecting seat 3, the 8-shaped seat plate 31, the infusion hole 311, the 8-shaped sliding tube 32, the arc-shaped sliding tube 321, the limiting slide 322, the guiding slide 323, the puncture needle mounting seat 33, the liquid channel 331, the plunger 4 and the limiting boss 5.

Detailed Description

(example 1)

This embodiment is a muscle medicine syringe, as shown in fig. 1 to 7, comprising a needle tube 1, a puncture needle 2, a connecting base 3 and two plungers 4.

One end of the needle tube is provided with two side-by-side and isolated sliding cavities 11, the other end of the needle tube is provided with a sealing plate 12 for sealing the same end opening of the two sliding cavities, the sealing plate is provided with two through holes 13, and each through hole is communicated with a corresponding sliding cavity.

Each plunger is positioned in a corresponding sliding cavity and can slide in the sliding cavity in a sealing way; each plunger is pulled outwards to suck the liquid medicine into the sliding cavity and push the liquid medicine inwards to discharge the liquid medicine.

The shape of each slide chamber is preferably circular, so that the shape of the radial section of the needle cannula in this embodiment is 8-shaped.

The position of each through hole is preferably deviated from the central position of a corresponding sliding cavity, namely an eccentric hole; a further preferred way is that the distance between the centres of the two eccentric holes is smaller than the distance between the centres of the two slide cavities.

The connecting seat comprises an 8-shaped seat plate 31, an 8-shaped sliding tube 32 arranged at one end of the seat plate and a puncture needle mounting seat 33 arranged at the other end of the seat plate.

The puncture needle 2 comprises a needle head 21 and a needle head seat 22 which is clamped and sleeved on a puncture needle mounting seat of the seat plate.

The 8-shaped seat plate is provided with two transfusion holes 311, the puncture needle mounting seat is provided with a liquid channel 331, and the two transfusion holes are communicated with the needle head of the puncture needle through the liquid channel.

The 8-shaped sliding pipe consists of two communicated arc-shaped sliding pipes 321, and each infusion hole is positioned in one corresponding arc-shaped sliding pipe; one end of the needle tube, which is provided with a closing plate, is inserted into the 8-shaped sliding tube.

The sealing plate of the needle tube is positioned in the 8-shaped sliding tube, the sealing plate is abutted against the wall surface of the 8-shaped seat plate and is in sealing fit with the wall surface of the 8-shaped seat plate, and the needle tube can be twisted in the 8-shaped sliding tube in a reciprocating mode for a certain angle.

In this embodiment, two limiting bosses 5 protruding outward along the needle tube radial direction are arranged on the outer wall of the needle tube, and an inward-concave limiting slide 322 and a guiding slide 323 communicated with the limiting slide are arranged on the inner wall of each arc-shaped sliding tube 321; each limiting boss is matched with a corresponding limiting slide way and is in interference fit with a corresponding guiding slide way;

when the needle tube is inserted into the 8-shaped sliding tube, each limiting boss is firstly inserted into a corresponding guiding slide way and then enters a corresponding limiting slide way, and at the moment, under the limiting action of the limiting slide ways on the limiting bosses, the needle tube can be twisted in the 8-shaped sliding tube in a reciprocating mode.

In the twisting process of the needle tube, each through hole can be communicated with or blocked from a corresponding infusion hole.

In the twisting process of the needle tube, the moving trajectory of each through hole is an arc line, so that the infusion hole can be arranged on the corresponding arc line, and the position of the infusion hole can meet the functions.

In the embodiment, the transfusion hole and the corresponding through hole are arranged at two ends of the moving track line of the through hole, and the displacement of the through hole and the corresponding transfusion hole can meet the function by presetting the length of the track line.

As shown in FIG. 6, at this time, the upper through hole and the upper infusion hole are in a communicated state, and at this time, the lower through hole and the lower infusion hole are in a completely deviated state, that is, a blocked state, and the upper through hole and the lower infusion hole cannot form a liquid path channel.

When the needle tube in fig. 6 is twisted to the position shown in fig. 7 along the direction of the arrow in fig. 6, the upper through hole and the upper infusion hole are in a complete deviation state, i.e., a blocking state, and cannot form a liquid path channel, and the lower through hole and the lower infusion hole are in a communication state to form the liquid path channel.

In fig. 6 and 7, the through-hole is shown by a broken line and the infusion hole is shown by a solid line in order to remove the through-hole and the infusion hole, respectively.

When the syringe is used, the connecting seat is held, the corresponding plunger can be pulled to draw in liquid medicine into the corresponding sliding cavity by twisting the needle tube along one direction until the needle tube cannot be twisted; after one sliding cavity finishes pumping the liquid medicine, the needle tube is twisted in the opposite direction until the needle tube cannot be twisted, and the other plunger is pulled, so that the liquid medicine can be pumped into the other sliding cavity; after the two sliding cavities are pumped with the liquid medicine, the liquid medicine can be firstly injected by twisting the needle tube.

Claims

1. An intramuscular administration syringe comprises a needle tube and a puncture needle; the method is characterized in that:

the device also comprises a connecting seat and two plungers; one end of the needle tube is provided with two mutually isolated sliding cavities, the other end of the needle tube is provided with a sealing plate, the sealing plate is provided with two through holes, and each through hole is communicated with one corresponding sliding cavity; each plunger is positioned in a corresponding sliding cavity and can slide in the sliding cavity in a sealing way; the shape of the radial section of the needle tube is 8-shaped; the connecting seat comprises an 8-shaped seat plate and an 8-shaped sliding pipe arranged at one end of the seat plate; two transfusion holes communicated with the puncture needle are arranged on the 8-shaped seat plate; the other end of the 8-shaped seat plate is provided with a felting needle mounting seat; the puncture needle comprises a needle head and a needle head seat; the puncture needle mounting seat is provided with a liquid channel, and the two infusion holes are communicated with the needle head of the puncture needle through the liquid channel; the 8-shaped sliding pipe consists of two communicated arc-shaped sliding pipes, and each infusion hole is positioned in one corresponding arc-shaped sliding pipe; the closing plate of the needle tube is positioned in the 8-shaped sliding tube, the closing plate is abutted against the wall surface of the 8-shaped seat plate and is in sealing fit with the wall surface of the 8-shaped seat plate, and the needle tube can be twisted in the 8-shaped sliding tube in a reciprocating mode for a certain angle; in the twisting process of the needle tube, each through hole and a corresponding infusion hole are communicated or blocked;

two limiting bosses protruding outwards along the radial direction of the needle tube are arranged on the outer wall of the needle tube, and an inwards-concave limiting slide way and a guide slide way communicated with the limiting slide way are arranged on the inner wall of each arc-shaped slide tube; each limiting boss is matched with a corresponding limiting slide way and is in interference fit with a corresponding guiding slide way; in the twisting process of the needle tube, the moving track line of each through hole is an arc line, and the infusion hole and the corresponding through hole are arranged at two ends of the moving track line of the through hole;

in the twisting process of the needle tube, each limiting boss slides from one end, which is abutted against a corresponding limiting slide way, to the other end, which is abutted against the limiting slide way;

the needle head seat is clamped and sleeved on the needle mounting seat of the seat plate; the position of each through hole deviates from the central position of a corresponding sliding cavity; the center distance of the two through holes is smaller than that of the two slide cavities.