CN219413846U - Pipe joint, base and semiconductor laser therapeutic apparatus - Google Patents

Abstract

The utility model discloses a pipeline joint, which is used for a base of a semiconductor laser therapeutic apparatus and comprises a cylindrical body, wherein two ends of the body are respectively connected with two pipes to be communicated in an inserted manner; the first end of the body is provided with a first clamp which is used for fixing a pipe inserted into the first end of the body; the second end of the body is provided with a second clamp for fixing the pipe inserted into the second end of the body. Among the above-mentioned pipe joint, two pipes of waiting to communicate are spliced respectively at the both ends of body, and the first clamp at body both ends and second clamp not only fix two above-mentioned pipes of waiting to communicate and ensure that two pipes pass through this pipe joint and reliably communicate, avoid taking place the condition that these two pipes break away from each other in the use, are applicable to transfer line and gas-supply pipe and different external pipeline intercommunication in the base of semiconductor laser therapeutic instrument. The utility model also discloses a base for the semiconductor laser therapeutic apparatus and the semiconductor laser therapeutic apparatus, and the pipe joint is respectively applied to the semiconductor laser therapeutic apparatus and the semiconductor laser therapeutic apparatus.

Description

Pipe joint, base and semiconductor laser therapeutic apparatus

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a pipeline joint, a base and a semiconductor laser therapeutic instrument.

Background

The semiconductor laser therapeutic apparatus is used in oral cavity and medical industry, and has the principle that laser is output by a laser working tip, high-energy laser gasifies target tissue and tissue protein at the outer edge of the target tissue is thermally solidified, so that the cutting of the target tissue is realized, and the semiconductor laser therapeutic apparatus has the advantages of less bleeding and less damage to the outer edge tissue.

The laser working tip outputs high-energy laser to generate high temperature, and a water mist system is required to be configured for the semiconductor laser therapeutic instrument in order to avoid scalding healthy tissues of a patient by the laser working tip. The water mist system comprises a base for placing the semiconductor laser therapeutic instrument body and a containing bottle arranged on the base through a bottle seat; a waterway and a gas circuit are arranged in the base; the waterway comprises a transfusion tube, one end of the transfusion tube is communicated with the bottom of the bottle, and the other end of the transfusion tube is arranged at the edge of the base; the middle part of the infusion tube is provided with a water pump; the air circuit comprises an air pump and an air pipe, one end of the air pipe is communicated with an air outlet of the air pump, and the other end of the air pipe is arranged at the edge of the base. The infusion tube and the gas transmission tube are respectively connected with external pipelines to respectively supply sterile water or physiological saline conveyed by the waterway and gas conveyed by the gas circuit to the laser working tip for mixing and forming water mist, and the laser working tip and the tissue of a patient are cooled by spraying the water mist by the laser working tip so as to avoid scalding.

For the person skilled in the art, how to reliably communicate the infusion tube and the gas transmission tube in the base of the semiconductor laser therapeutic apparatus with different external pipelines respectively, and avoid separating from the external pipelines in the use process is a problem to be solved.

Disclosure of Invention

In view of this, the present utility model provides a pipe joint, two ends of a body of the pipe joint are respectively connected with two pipes to be communicated, and a first clamp and a second clamp at two ends of the body are respectively fixed with the two pipes to be communicated, so as to ensure reliable communication of the two pipes, avoid the situation that the two pipes to be communicated are separated from each other in the use process, and be suitable for communicating an infusion pipe and an air pipe with different external pipelines in a base of a semiconductor laser therapeutic apparatus. The utility model also provides a base for the semiconductor laser therapeutic apparatus and the semiconductor laser therapeutic apparatus, and the pipe joint is respectively applied to ensure that the infusion pipe and the gas pipe in the base are reliably communicated with different external pipelines respectively.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a pipeline joint is used for a base of a semiconductor laser therapeutic apparatus and comprises a cylindrical body, wherein two ends of the body are respectively connected with two pipes to be communicated in an inserted mode; the first end of the body is provided with a first clamp which is used for fixing a pipe inserted into the first end of the body; the second end of the body is provided with a second clamp which is used for fixing the pipe inserted into the second end of the body.

Preferably, in the above pipe joint, the body is provided with a mounting structure for being matched with the base to be fixed;

the mounting structure comprises a limit boss and a clamping groove which are arranged on the outer wall of the body;

the limit boss is a bump fixed on the outer wall of the body, or

The outer wall surface of the body is a step surface, and the size change part of the outer wall surface of the body forms the limit boss.

Preferably, in the above pipe joint, the pipe joint is a flexible pipe joint, and the first clip, the second clip and the body are of an integral structure;

the inner diameters of the first clamp and the second clamp are respectively smaller than the inner diameter of the body.

A base, which is used for a semiconductor laser therapeutic apparatus, wherein a transfusion tube and a gas transmission tube are arranged in the base; the end part of the infusion tube is fixed with a pipeline joint for externally connecting a liquid tube; the end part of the gas pipe is fixed with another pipeline joint for externally connecting a gas pipe; the pipeline joint is the pipeline joint in any one of the technical schemes.

Preferably, in the base, the base is provided with a fixed blocking rib and a limiting blocking rib; the fixed blocking rib is clamped into the clamping groove of the pipeline joint; the limiting stop rib abuts against the limiting boss of the pipeline joint and limits the limiting boss to move outwards of the base.

Preferably, in the above base, the fixing rib and the limiting rib are sequentially arranged along a direction from inside the base to outside the base.

Preferably, in the above base, the base is formed by fixedly connecting an upper shell and a lower shell;

the limiting stop rib comprises a first split body fixed on the upper shell and a second split body fixed on the lower shell; the edges of the first split body and the second split body are respectively provided with a notch for accommodating the body; the first split body and the second split body respectively abut against one side, facing the outside of the base, of the limiting boss of the body.

Preferably, in the above base, the lower shell is provided with a supporting rib, and the supporting rib is fixedly connected with the fixed blocking rib, the second split and the lower shell respectively, and is used for supporting a portion of the pipe joint located between the fixed blocking rib and the second split.

Preferably, in the base, notches are respectively arranged at positions corresponding to the edges of the upper shell and the lower shell, and the notches at the edges of the upper shell and the notches at the edges of the lower shell form through holes for inserting the pipeline connectors; and a clamp for fixing an external air pipe or an external liquid pipe in the pipeline joint extends out of the base.

A semiconductor laser therapeutic apparatus, comprising a base, wherein the base is any one of the above technical solutions.

The utility model provides a pipeline joint, which is used for a base of a semiconductor laser therapeutic apparatus and comprises a cylindrical body, wherein two ends of the body are respectively connected with two pipes to be communicated in an inserted manner; the first end of the body is provided with a first clamp which is used for fixing a pipe inserted into the first end of the body; the second end of the body is provided with a second clamp for fixing the pipe inserted into the second end of the body.

Among the above-mentioned pipe joint, two pipes of waiting to communicate are spliced respectively at the both ends of body, and the first clamp at body both ends and second clamp are fixed two above-mentioned pipes of waiting to communicate respectively, ensure that two pipes pass through this pipe joint reliable intercommunication, avoid taking place the condition that these two pipes break away from each other in the use, be applicable to transfer line and external pipeline intercommunication, gas-supply pipe and another external pipeline intercommunication in the base of semiconductor laser therapeutic instrument, improve transfer line and external pipeline, gas-supply pipe and another external pipeline's communication reliability.

The utility model also provides a base for the semiconductor laser therapeutic apparatus and the semiconductor laser therapeutic apparatus, which respectively apply the pipeline connectors to ensure that the infusion pipe and the gas pipe in the base are reliably communicated with different external pipelines respectively.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an assembly of a pipe fitting and a lower housing provided in an embodiment of the present utility model;

fig. 2 is a schematic structural view of a lower shell according to an embodiment of the present utility model;

fig. 3 is a schematic perspective view of an upper case according to an embodiment of the present utility model;

FIG. 4 is a schematic view of an assembly of a pipe fitting and a base provided by an embodiment of the present utility model;

wherein, in fig. 1-4:

a pipe joint 101; a first clip 1011; a clamping groove 1012; a body 1013; a second clip 1014; an infusion tube 102; a gas pipe 103; fixing the stop rib 104; a second split 105; a reinforcing rib 106; a lower case 107; support ribs 108; an upper case 109; a first split 110; notches 1041, 1051, 1071, 1091, 1101.

Detailed Description

The embodiment of the utility model discloses a pipeline joint, wherein two ends of a body are respectively inserted into two pipes to be communicated, a first clamp and a second clamp at two ends of the body are respectively used for fixing the two pipes to be communicated, so that the two pipes are ensured to be reliably communicated, the condition that the two pipes to be communicated are separated from each other in the use process is avoided, and the pipeline joint is suitable for communicating an infusion pipe and an air pipe with different external pipelines in a base of a semiconductor laser therapeutic instrument. The embodiment of the utility model also discloses a base for the semiconductor laser therapeutic apparatus and the semiconductor laser therapeutic apparatus, which are respectively applied to the pipeline joint to ensure that the infusion pipe and the gas pipe in the base are reliably communicated with different external pipelines respectively.

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.

Referring to fig. 1-4, an embodiment of the present utility model provides a pipe joint 101 for a base of a semiconductor laser therapeutic apparatus, the pipe joint 101 includes a cylindrical body 1013, two ends of the body 1013 are respectively inserted into two pipes to be connected; the first end of the body 1013 is provided with a first clamp 1011 for fixing a tube inserted into the first end of the body 1013; a second clamp 1014 is provided at the second end of the body 1013 for securing a tube inserted into the second end of the body 1013.

In the above-mentioned pipe joint 101, two pipes that wait to communicate are inserted respectively at the both ends of body 1013, and the first clamp 1011 and the second clamp 1014 at body 1013 both ends are fixed two above-mentioned pipes that wait to communicate respectively, ensure that two pipes pass through this pipe joint 101 and reliably communicate, avoid taking place the condition that these two pipes break away from each other in the use, be applicable to transfer line 102 and external pipeline intercommunication in the base of semiconductor laser therapeutic instrument, transfer line 103 and another external pipeline intercommunication, improve transfer line 102 and external pipeline, transfer line 103 and another external pipeline's communication reliability.

When the pipe joint 101 is applied to the infusion pipe and the gas pipe of the base, it is preferably fixedly connected to the base in order to further improve the communication reliability between the base pipe and the external pipe. Specifically, the body 1013 is provided with a mounting structure for mating with the base for securing.

The mounting structure includes a limit boss and a clamping groove 1012 disposed on the outer wall of the body 1013. When the clamping device is applied, the preset structure of the base is clamped into the clamping groove, the other preset structure of the base abuts against the limiting boss, and the clamping groove and the limiting boss simultaneously play a role in enabling the body 1013 to be fixed to the base.

Of course, the mounting structure may also be configured to include a mounting base fixed to the body, the mounting base being provided with a through hole, and the body 1013 being fixed to the base by inserting the fixing member into the mounting hole and fastening the fixing member to the base during assembly. The specific structure of the mounting structure is not limited in this embodiment, and it is only necessary to ensure that the main body 1013 can be fixed to the base.

The above-mentioned limit boss may be fixed to the outer wall of the body 1013, or the outer wall of the body 1013 is a stepped surface, and the size change portion of the outer wall of the body 1013 forms the above-mentioned limit boss. The specific structure of the limiting boss is not limited in this embodiment.

The pipe joint 101 is a flexible pipe joint, and can be used for inserting pipes with various specifications and sizes by utilizing the self-deformation capacity, so that the application range is increased.

Further, in the pipe joint 101, the first clamp 1011, the second clamp 1014 and the body 1013 are integrated, that is, the first clamp 1011 and the second clamp 1014 are flexible clamps respectively; the inner diameters of the first and second clamps 1011, 1014 are respectively smaller than the inner diameter of the body 1013.

During assembly, two to-be-connected pipes with proper outer diameter sizes are respectively inserted into the first clamp 1011 and the second clamp 1014, and are respectively inserted into the body 1013 from two ends, so that interference fit between the first clamp 1011 and the second clamp 1014 and the two pipes is ensured, the two pipes can be respectively inserted under the action of external force driving by utilizing own flexibility, and the two pipes are respectively and automatically fastened on the periphery of the pipes after the insertion is completed, so that the pipes are fixed. The inner wall of the body 1013 is provided with at least two seals (which may be provided in particular as "O" -ring seals), one of which seals the gap between one of the pipes to be connected and the body 1013 and the other of which seals the gap between the other pipe to be connected and the body 1013. The clamp specifically includes the clamp body as an organic whole structure with body 1013 to and fix the elasticity jack catch (elasticity jack catch is specifically metal elastic sheet) in this internal at the clamp, elasticity jack catch is used for blocking the pipe of inserting its inside, prevents that this pipe from taking off, when dismantling the pipe, can extract the pipe through pressing the clamp.

The pipe joint 101 may be also configured as a rigid pipe joint, where the first clamp 1011 and the second clamp 1014 are both separated from the body 1013, and when assembled, two pipes to be communicated are respectively inserted into the body 1013 from two ends, and then the first clamp 1011 and the second clamp 1014 are installed, and the two pipes are respectively pressed out of the body 1013 in the circumferential direction, thereby fixing the two pipes and sealing the gap between the two pipes and the body 1013.

The embodiment of the utility model also provides a base which is used for the semiconductor laser therapeutic apparatus, and the infusion tube 102 and the gas transmission tube 103 are arranged in the base; the end part of the infusion tube 102 is fixed with a pipeline joint 101 for externally connecting with a liquid tube; the end part of the gas pipe 103 is fixed with another pipeline joint 101 for externally connecting a gas pipe; the pipe joint 101 is the pipe joint 101 provided in the above embodiment.

Specifically, the infusion tube 102 is inserted into the first clip 1011 of the tubing connector 101 and the first end of the body 1013; the gas pipe 103 is inserted into the first clip 1011 and the first end of the body 1013 of the other pipe joint 101.

The base is provided with a fixed stop rib 104 and a limit stop rib; the fixed stop rib 104 is clamped into the clamping groove 1012 of the pipeline joint 101; the limiting stop rib abuts against the limiting boss of the pipeline joint 101 and limits the limiting boss to move outwards of the base.

As shown in fig. 1 and 2, in the above-mentioned base, the fixed rib 104 and the limit rib are sequentially arranged along the direction from the inside of the base to the outside of the base.

The base is formed by fixedly connecting an upper shell 109 and a lower shell 107; the limiting rib comprises a first split 110 fixed on the upper shell 109 and a second split 105 fixed on the lower shell 107; the edge of the first split 110 is provided with a notch 1101, the edge of the second split 105 is provided with a notch 1051, and the notches 1101, 1051 are used for accommodating the body 1013; the first split body 110 and the second split body 105 respectively abut against one side, facing the outside of the base, of the limit boss of the body 1013.

Referring to fig. 1, the outer wall surface of the body 1013 is a two-stage stepped surface, and a limit boss is formed at a size change position of the outer wall surface thereof; the notch 1101 of the first body member 110 and the notch 1051 of the second body member 105 are shaped to match the shape of the smaller outer wall dimension section of the body member 1013.

The fixed rib 104 is fixed on the lower shell 107, and a notch 1041 is provided at the upper edge of the fixed rib 104, and the notch 1041 is inserted into the clamping slot 1012. The latch 1012 is annular and is disposed on the outer periphery of the main body 1013.

The lower shell 107 is provided with a support rib 108, the support rib 108 is fixedly connected with the fixed blocking rib 104, the second sub 105 and the lower shell 107 respectively, and the support rib 108 is used for supporting a part of the pipeline joint 101 between the second sub 105 and the fixed blocking rib 104. The lower shell 107 is also provided with a reinforcing rib 106, and the reinforcing rib 106 is fixedly connected with the fixed blocking rib 104, the second split 105 and the lower shell 107 respectively.

The fixed stop rib 104 is provided with notches 1041 which are respectively matched with the two pipeline joints 101 (the two pipeline joints 101 are respectively fixed on the infusion tube 102 and the gas transmission tube 103); the first split 110 is provided with notches 1041 respectively matched with two pipeline joints 101 (the two pipeline joints 101 are respectively fixed on the infusion tube 102 and the gas delivery tube 103); the second body 105 is provided with a notch 1051 that mates with two pipe joints 101 (the two pipe joints 101 are fixed to the transfer line 102 and the gas line 103, respectively).

Notches 1091 and 1071 are respectively arranged at the corresponding positions of the edge of the upper shell 109 and the edge of the lower shell 107, and the notch 1091 at the edge of the upper shell 109 and the notch 1071 at the edge of the lower shell 107 form a through hole for inserting the pipeline joint 101; the clamp for fixing the external air pipe or the external liquid pipe in the pipe joint 101 extends out of the base, as shown in fig. 1 and 4.

The embodiment of the utility model also provides a semiconductor laser therapeutic apparatus, which comprises a base, wherein the base is provided by the embodiment.

The semiconductor laser therapeutic apparatus is provided with a water mist system, and the water mist system comprises the base and a containing bottle arranged on the base through a bottle seat; a waterway and a gas circuit are arranged in the base; the waterway comprises a transfusion tube 102, one end of the transfusion tube 102 is communicated with the bottom of the bottle, the other end of the transfusion tube is provided with a pipeline joint 101, and the pipeline joint 101 is arranged at the edge of the base; the middle part of the infusion tube 102 is provided with a water pump; the air circuit comprises an air pump and an air pipe 103, one end of the air pipe is communicated with an air outlet of the air pump, the other end of the air pipe is arranged at the edge of the base, and the other end of the air pipe 103 is provided with a pipeline joint 101. The infusion tube 102 and the gas delivery tube 103 are respectively connected with external pipelines to respectively supply sterile water or physiological saline conveyed by a waterway or gas conveyed by a gas path to the laser working tip of the semiconductor laser therapeutic instrument for mixing and forming water mist, and the water mist is sprayed by the laser working tip to realize the cooling of the laser working tip and the tissues of a patient so as to avoid scalding.

The base and the semiconductor laser therapeutic apparatus provided in this embodiment are respectively applied to the pipe joint 101 provided in the foregoing embodiments, so as to ensure that the infusion pipe 102 and the gas pipe 103 in the base are reliably communicated with different external pipelines respectively. Of course, the base and the semiconductor laser therapeutic apparatus provided in this embodiment also have other effects related to the pipe joint 101 provided in the above embodiment, which are not described herein.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The pipe joint is used for a base of a semiconductor laser therapeutic apparatus and is characterized by comprising a cylindrical body, wherein two ends of the body are respectively inserted into two pipes to be communicated; the first end of the body is provided with a first clamp which is used for fixing a pipe inserted into the first end of the body; the second end of the body is provided with a second clamp which is used for fixing the pipe inserted into the second end of the body.

2. A pipe fitting according to claim 1, wherein the body is provided with mounting formations for cooperation with the base for securement;

the mounting structure comprises a limit boss and a clamping groove which are arranged on the outer wall of the body;

the limit boss is a bump fixed on the outer wall of the body, or

The outer wall surface of the body is a step surface, and the size change part of the outer wall surface of the body forms the limit boss.

3. The pipe fitting of claim 1 wherein the pipe fitting is a flexible pipe fitting and the first clip, the second clip and the body are of unitary construction;

the inner diameters of the first clamp and the second clamp are respectively smaller than the inner diameter of the body.

4. A base for a semiconductor laser therapeutic apparatus, characterized in that an infusion tube and a gas transmission tube are arranged in the base; the end part of the infusion tube is fixed with a pipeline joint for externally connecting a liquid tube; the end part of the gas pipe is fixed with another pipeline joint for externally connecting a gas pipe; the pipe joint is the pipe joint according to any one of claims 1 to 3.

5. The base of claim 4, wherein the base is provided with a fixed stop bar and a limit stop bar; the fixed blocking rib is clamped into the clamping groove of the pipeline joint; the limiting stop rib abuts against the limiting boss of the pipeline joint and limits the limiting boss to move outwards of the base.

6. The base of claim 5, wherein the fixed stop bar and the limit stop bar are arranged in sequence along a direction from inside the base to outside the base.

7. The base according to claim 5 or 6, wherein the base is formed by fixedly connecting an upper shell and a lower shell;

the limiting stop rib comprises a first split body fixed on the upper shell and a second split body fixed on the lower shell; the edges of the first split body and the second split body are respectively provided with a notch for accommodating the body; the first split body and the second split body respectively abut against one side, facing the outside of the base, of the limiting boss of the body.

8. The base of claim 7, wherein the lower shell is provided with a support rib fixedly connected to the fixed rib, the second sub and the lower shell, respectively, and adapted to support a portion of the pipe joint between the fixed rib and the second sub.

9. The base of claim 7, wherein notches are respectively arranged at positions corresponding to the edges of the upper shell and the lower shell, and the notches of the edges of the upper shell and the edges of the lower shell form through holes for inserting the pipeline joint; and a clamp for fixing an external air pipe or an external liquid pipe in the pipeline joint extends out of the base.

10. A semiconductor laser therapeutic apparatus comprising a base as claimed in any one of claims 4 to 9.