CN211461561U - Pipeline component mounting part and pipeline mechanism - Google Patents

Abstract

The utility model discloses a pipeline component mounting part and a pipeline mechanism, wherein the pipeline component mounting part is used for mounting a pipeline component; the pipeline assembly comprises an input pipeline, an output pipeline and an input and output communicating pipeline; the pipeline component mounting part is respectively provided with an input pipeline mounting area, an output pipeline mounting area and an input and output conduction pipeline mounting area for mounting an input pipeline, an output pipeline and an input and output conduction pipeline; the input pipeline mounting area, the output pipeline mounting area and the input and output conduction pipeline mounting area are arranged independently; the utility model discloses pipeline subassembly installed part switches on the pipeline installing zone through the input pipeline installing zone, output pipeline installing zone and the input/output that mutually independent set up and installs input pipeline, output pipeline and input/output respectively and switches on the pipeline for input pipeline, output pipeline and input/output switch on the pipeline and do not influence each other, reduce the risk that extrudees each other between the pipeline and lead to stifled pipe.

Description

Pipeline component mounting part and pipeline mechanism

All as the field of technology

The utility model relates to the technical field of medical equipment, especially, relate to a pipeline subassembly installed part and pipeline mechanism.

All the above-mentioned background techniques

PCA (patient contained purified Analgesia) is a self-controlled dispensing device for disposable infusion pumps. In the process of liquid medicine infusion, part of patients can occasionally feel that the dosage of the medicine for short time is insufficient due to the fact that the set flow rate just meets the requirement of the medicine, and therefore the liquid medicine in the micro liquid storage bag is extruded by extruding the micro liquid storage bag in the PCA component, so that the infusion of additional dosage is realized, and the requirement of temporarily increasing the medicine for short time is met. The existing self-control liquid feeding device for the disposable infusion pump has small volume, and the pipelines are mutually extruded to easily cause pipe blockage.

All kinds of practical novel contents

The utility model discloses a first purpose aims at providing a pipeline component installed part, through setting up mutually independent pipeline installation region, reduces the risk that mutual extrusion leads to stifled pipe between the pipeline.

In order to realize the utility model discloses a purpose, the utility model discloses a following technical scheme:

a pipeline component mounting part is used for mounting a pipeline component, and the pipeline component comprises an input pipeline, an output pipeline and an input and output conduction pipeline; the pipeline component mounting part is respectively provided with an input pipeline mounting area, an output pipeline mounting area and an input and output conduction pipeline mounting area for mounting an input pipeline, an output pipeline and an input and output conduction pipeline; the input pipeline mounting area, the output pipeline mounting area and the input and output conduction pipeline mounting area are arranged independently.

As a specific embodiment, the plumbing assembly mount includes a mounting plate; the input pipeline mounting area comprises a left front area or a left side area of the bottom plane of the mounting plate; the output pipeline mounting area comprises a right front area or a right side area of the mounting plate bottom plane; the input and output conduction pipeline installation area comprises an area below the bottom plane of the installation plate and is positioned on the upper side or the lower side of the input pipeline and the output pipeline. As a specific implementation mode, the input pipeline comprises a first input pipeline, a second input pipeline and an input pipeline tee joint; the pipeline assembly mounting member comprises a first clamp position arranged at the left front area of the bottom plane of the mounting plate; the input pipeline tee joint is fixedly clamped on the first clamping position, one inlet faces the front, and the two outlets face the rear; and the inlet of the input pipeline tee joint is connected with the second input pipeline, one outlet is connected with the first input pipeline, and the other outlet is connected with one end of the input and output conduction pipeline.

Furthermore, the input pipeline mounting area also comprises a middle area at the rear side of the bottom plane of the mounting plate; the pipeline component mounting part also comprises a third clamping position arranged in the middle area of the rear side of the bottom plane of the mounting plate; one end of the first input pipeline is clamped on the third clamping position, and the other end of the first input pipeline is connected with one outlet of the input pipeline tee joint.

As a specific implementation mode, the output pipeline comprises a first output pipeline, a second output pipeline and an output pipeline tee joint; the pipeline assembly mounting piece further comprises a second clamp position arranged in the right front area of the bottom plane of the mounting plate; the output pipeline tee joint is fixedly clamped on the second clamping position, one inlet faces the front, and the other inlet and one outlet face the rear; one outlet of the output pipeline tee joint is connected with the first output pipeline, one inlet of the output pipeline tee joint is connected with one end of the second output pipeline, and the other inlet of the output pipeline tee joint is connected with the other end of the input and output communicating pipeline; the middle part of the second output pipeline is fixed along the middle area of the mounting plate, and the other end of the second output pipeline extends out of the mounting plate from the front; and a shutoff valve is arranged on the first output pipeline.

Furthermore, the output pipeline mounting area also comprises a front middle area of the top plane of the mounting plate; the pipeline component mounting part also comprises a fourth clamping position arranged in the middle area of the front side of the mounting plate top plane; one end of the first output pipeline is clamped on the fourth clamping position, and the other end of the first output pipeline winds around the bottom plane of the mounting plate and is connected with an outlet of the output pipeline tee joint.

Furthermore, the output pipeline mounting area also comprises a middle area of the bottom plane of the mounting plate; the pipeline component mounting part also comprises a fifth clamping position arranged in the middle area of the rear side of the bottom plane of the mounting plate; the middle part of the second output pipeline bypasses the fifth clamping position and extends out of the mounting plate from the front along the middle area of the mounting plate.

As a specific implementation mode, the pipeline assembly installation part further comprises a first support arranged on the left side of the bottom plane of the installation plate, a sixth clamping position arranged on the left side of the bottom plane of the installation plate and positioned in front of the first support, a second support arranged on the right side of the bottom plane of the installation plate, an eighth clamping position arranged on the right side of the bottom plane of the installation plate and positioned in front of the second support, and a seventh clamping position arranged in the middle of the front of the bottom plane of the installation plate; the one end that input/output switched on the pipeline with input pipeline connects, and first pillar, sixth screens, seventh screens, eighth screens and second pillar are walked around in proper order to the mid portion, the other end with output pipeline connects.

Further, the input and output communicating pipeline is wound on the upper sides of the input pipeline and the output pipeline.

The utility model discloses a second purpose aims at providing a pipeline mechanism, through adopting the pipeline subassembly installed part that sets up mutually independent pipeline installation region, reduces the risk that mutual extrusion leads to stifled pipe between the pipeline.

In order to realize the second purpose of the utility model, the utility model adopts the following technical scheme:

a pipeline mechanism comprises a pipeline assembly, a pipeline assembly mounting part and a pipeline assembly; the pipeline assembly comprises an input pipeline, an output pipeline and an input and output communicating pipeline; the input pipeline, the output pipeline and the input and output conduction pipeline are respectively assembled in the input pipeline installation area, the output pipeline installation area and the input and output conduction pipeline installation area.

The utility model has the advantages that:

the utility model discloses pipeline subassembly installed part switches on the pipeline installing zone through the input pipeline installing zone, output pipeline installing zone and the input/output that mutually independent set up and installs input pipeline, output pipeline and input/output respectively and switches on the pipeline for input pipeline, output pipeline and input/output switch on the pipeline and do not influence each other, reduce input pipeline, output pipeline and input/output and switch on the risk that mutual extrusion leads to stifled pipe between the pipeline.

Description of the drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings used in the embodiments will be briefly described below. The drawings in the following description are only examples of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts.

Fig. 1 is a schematic perspective view of a self-controlled liquid feeding device of a disposable infusion pump according to an embodiment of the present invention;

fig. 2 is an exploded view of a self-controlled dispensing device of a disposable infusion pump according to an embodiment of the present invention;

fig. 3 is a front perspective view of the self-controlled dispensing device (with the housing removed) of the disposable infusion pump according to the embodiment of the present invention;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a schematic reverse side perspective view of the self-controlled dispensing device of the disposable infusion pump (after the housing is removed) according to the embodiment of the present invention;

FIG. 6 is a top view of FIG. 5;

description of reference numerals: 1-shell, 11-upper shell, 111-key mounting hole, 12-lower shell, 121-first limit column, 122-second limit column, 2-key component, 21-key, 211-compression spring clamping mechanism, 22-compression spring, 3-reservoir, 31-input pipeline interface, 32-output pipeline interface, 4-pipeline component, 41-input pipeline, 411-first input pipeline, 412-second input pipeline, 413-input pipeline tee joint, 42-output pipeline, 421-first output pipeline, 4211-shutoff valve, 422-second output pipeline, 423-output pipeline tee joint, 43-input and output conducting pipeline, 51-mounting plate, 52, first protrusion mechanism, 521-groove, 522-first opening, 523-second opening, 524-concave part, 531-first clamp, 532-second clamp, 533-third clamp, 534-fourth clamp, 535-fifth clamp, 536-sixth clamp, 537-seventh clamp, 538-eighth clamp, 541-first support, 5411-first limit groove, 542-second support, 5421-second limit groove, 6-pressing sheet, 7-clamping sheet and 8-additional medicine opening.

(specific embodiments) in all cases

For convenience of explanation, the present application defines upper, lower, left, right, front, rear, and the like orientations, and the definitions of the orientations are intended to determine relative positional relationships between the devices, components, and parts in the present application and are not intended to limit actual orientations of the devices, components, and parts in production, use, sale, and the like. The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

the present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and 2, the self-controlled liquid feeding device of the disposable infusion pump comprises a shell 1, a key assembly 2, a liquid storage bag 3, a pipeline assembly 4 and a liquid storage bag pipeline assembly mounting piece; the shell 1 comprises an upper shell 11 and a lower shell 12, and the upper shell 11 and the lower shell 12 are buckled and fixed; the key assembly 2 is arranged on the upper shell 1; reservoir 3 and pipeline subassembly 4 assemble on reservoir pipeline subassembly installed part, install inside casing 1 through reservoir pipeline subassembly installed part, with casing 12 detachably connection down.

In this embodiment, the reservoir 3 and the tube assembly 4 are mounted inside the housing 1 through a reservoir tube assembly mounting member, facilitating mounting and dismounting.

As shown in fig. 2, the key assembly 2 includes a key 21 and a compression spring 22; a key mounting hole 111 is formed in the upper shell 11, and the key 21 is mounted in the key mounting hole 111; a compression spring clamping mechanism 211 is arranged below the middle part of the front side of the key 21, the compression spring clamping mechanism 211 comprises two oppositely arranged side walls, and the two oppositely arranged side walls are used for clamping the compression spring 22; one end of the compression spring 22 abuts against the inner side wall of the front middle part of the upper shell 11, and the other end is connected with the lower part of the front middle part of the key 21 through the compression spring clamping mechanism 211. When the operator presses the button 21, the button 21 generates a forward pressure on the compression spring 22 through the compression spring holding mechanism 211, forcing the compression spring 22 to compress; when the operator releases the push button 21, the push button 21 is restored by the elastic force of the compression spring 22.

As shown in fig. 3 to 6, the reservoir pipe assembly mounting member includes a mounting plate 51, a reservoir mounting region and a pipe assembly mounting region are disposed on the mounting plate 51, the reservoir mounting region is disposed on a top plane of the mounting plate 51, and the pipe assembly mounting region includes a bottom plane of the mounting plate 51; the liquid storage bag 3 is arranged in the liquid storage bag mounting area; the pipeline component 4 is arranged in the pipeline component mounting area; one end of the pipeline assembly 4 is connected with the liquid storage bag 3 positioned on the top plane of the mounting plate 51, and the other end of the pipeline assembly extends out of the shell 1 after winding to the bottom plane of the mounting plate 51.

In the present embodiment, the reservoir 3 is mounted on the top plane of the mounting plate 51, in the accommodation space between the top plane of the mounting plate 51 and the upper case 11; the portion of the piping component 4 wound around the bottom plane of the mounting plate 51 is disposed in the accommodation space between the bottom plane of the mounting plate 51 and the lower housing 12; when the operator presses the button 21, pressure only acts on the reservoir 3, and does not act on the pipeline component 4 arranged on the bottom plane of the mounting plate 51, so that the deformation of the pipeline component 4 caused by pressing the button 21 is avoided. Meanwhile, the liquid storage bag 3 and the pipeline assembly 4 are respectively positioned on the top plane and the bottom plane of the mounting plate 51, so that mutual influence between the liquid storage bag 3 and the pipeline is avoided.

As shown in fig. 2 to 4, the reservoir tubing assembly mount further comprises a first protrusion mechanism 52, the first protrusion mechanism 52 is disposed at the reservoir mounting region, and the reservoir 3 is mounted in a receiving space surrounded by the first protrusion mechanism 52. As shown in fig. 2, the self-controlled liquid feeding device of the disposable infusion pump further comprises a pressing sheet 6, a groove 521 is arranged on the side wall of the first protrusion mechanism 52, and a protrusion 61 is arranged on the side wall of the pressing sheet 6; the pressing sheet 6 is arranged above the liquid storage bag 3, is positioned in a space surrounded by the first protrusion mechanism 52, and is positioned by matching the protrusion 61 and the groove 521.

In the present embodiment, the push button 21 transmits the pressure to the reservoir 3 through the pressing sheet 6; the pressing sheet 6 is covered above the liquid storage bag 3 to ensure the sufficient pressing of the liquid storage bag 3.

As shown in fig. 3 to 6, the piping assembly 4 includes an input piping 41, an output piping 42, and an input/output conducting piping 43; the pipeline component mounting area comprises an input pipeline mounting area, an output pipeline mounting area and an input/output conduction pipeline mounting area which are respectively used for mounting an input pipeline 41, an output pipeline 42 and an input/output conduction pipeline 43, and the input pipeline mounting area, the output pipeline mounting area and the input/output conduction pipeline mounting area are mutually and independently arranged; the input pipe mounting area comprises a left front area of the bottom plane of the mounting plate 51 and a rear middle area of the bottom plane of the mounting plate 51; the output pipeline mounting area comprises a right front area of the bottom plane of the mounting plate 51, a middle area of the bottom plane of the mounting plate 51 and a front middle area of the top plane of the mounting plate 51; the input/output conducting pipe installation area includes a lower area of the bottom plane of the installation plate 51 and is located at an upper side of the input pipe 41 and the output pipe 42.

In other embodiments, the input/output conducting pipe mounting area includes a lower region of the bottom plane of the mounting plate 51 and is disposed around the lower sides of the input pipe 41 and the output pipe 42.

As shown in fig. 3 to 6, the input pipeline 41 includes a first input pipeline 411, a second input pipeline 412 and an input pipeline tee 413; the output pipeline 42 comprises a first output pipeline 421, a second output pipeline 422 and an output pipeline tee 423; the reservoir tubing assembly mount comprises a first detent 531 disposed at a left front region of the bottom plane of the mounting plate 51, a second detent 532 disposed at a right front region of the bottom plane of the mounting plate 512, a third detent 533 disposed at a rear central region of the bottom plane of the mounting plate 51, a fourth detent 534 disposed at a front central region of the top plane of the mounting plate 51, and a fifth detent 535 disposed at a rear central region of the bottom plane of the mounting plate 51; the input pipeline tee 413 is fixedly clamped on the first clamping position 531, one inlet faces to the front, and two outlets face to the rear; the output pipeline tee 423 is fixedly clamped on the second clamping position 532, one inlet faces to the front, and the other inlet and the outlet face to the rear.

As shown in fig. 1, 3 to 6, one end of the first input line 411 is connected to the reservoir 3 at the top plane of the mounting plate 51, the middle part thereof is wound around the bottom plane of the mounting plate 51, the fixing clip is arranged at the third clip position 533, and the other end thereof is connected to an outlet of the input line tee 413; one end of the second input pipeline 412 is connected with the inlet of the input pipeline tee 413, and the other end extends out of the shell 1 from the front; one end of the first output pipeline 421 is connected with the reservoir 3 on the top plane of the mounting plate 51, the middle part is fixedly clamped on the fourth clamping position 534, and the other end is wound on the bottom plane of the mounting plate 51 and is connected with one inlet of the output pipeline tee 423; one end of the second output pipeline 422 is connected with an outlet of the output pipeline tee 423, one section of the middle part is fixedly clamped between the fifth clamping position 535, the part bypassing the fifth clamping position 535 is clamped between the first clamping position 531 and the second clamping position 532, the middle part is fixed along the middle area of the mounting plate 51, and the other end of the second output pipeline extends out of the shell 1 from the front; the first output line 421 is provided with a shut-off valve 4211 for preventing the liquid medicine in the reservoir 3 of the automatic liquid feeding device from being output when the push button 21 is not pressed.

As shown in fig. 5 and 6, the reservoir tubing assembly mount further comprises a first post 541 disposed on the left side of the bottom plane of the mounting plate 51, a sixth detent 536 disposed on the left side of the bottom plane of the mounting plate 51 and located forward of the first post 541, a second post 542 disposed on the right side of the bottom plane of the mounting plate 51, an eighth detent 538 disposed on the right side of the bottom plane of the mounting plate 51 and located forward of the second post 542, and a seventh detent 537 disposed in the middle of the front of the bottom plane of the mounting plate; one end (inlet) of the input and output conduction pipeline 43 is connected with the other outlet of the input pipeline tee 413, the middle part of the input and output conduction pipeline bypasses the first support 541, the sixth clamp 536, the seventh clamp 537, the eighth clamp 538 and the second support 542 in sequence, and the other end (outlet) of the input and output conduction pipeline is connected with the other outlet of the output pipeline tee 423; the input/output conducting pipeline 43 is wound around the first input pipeline 411, the second input pipeline 412, the input pipeline tee 413, the first output pipeline 421, the second output pipeline 422 and the output pipeline tee 423, and is independent from the input pipeline 41 and the output pipeline 42, and will not be affected.

In the present embodiment, the medical fluid output from the reservoir device in the disposable infusion pump housing is output through the second input line 412, the input/output conducting line 43 and the second output line 422 in sequence; meanwhile, the liquid medicine output by the disposable infusion pump sequentially passes through the second input pipeline 412 and the first input pipeline 411 to the liquid storage bag 3 in the automatic control liquid feeding device, and when an operator presses the key 21, the liquid medicine in the liquid storage bag 3 of the automatic control liquid feeding device sequentially passes through the first output pipeline 421 and the second output pipeline 422 to be output; when an operator presses the button 21, the liquid storage device in the disposable infusion pump shell directly outputs liquid medicine, and the liquid storage bag of the automatic control liquid feeding device also outputs liquid medicine, so that the demand of temporarily increasing the medicine taking in a short time is met. In the present embodiment, the mounting plate 51, the first to eighth detents 531 to 532, the first strut 541 and the second strut 542 constitute a pipeline assembly mounting member for mounting the pipeline assembly 4; input pipeline installing area, output pipeline installing area and input/output switch on the mutual independent setting between the pipeline installing area, do not influence each other, have reduced the risk that extrudees each other between the pipeline of pipeline subassembly 4 and lead to stifled pipe.

As shown in fig. 3 and 4, the reservoir 3 is provided with an input pipeline interface 31 and an output pipeline interface 32; a first opening 522 and a second opening 523 are formed in the side wall of the first protrusion mechanism 52, and the first opening 522 and the second opening 523 correspond to the input pipeline interface 31 and the output pipeline interface 32 respectively; one end of the first input pipe 411 passes through the first opening 522 to be connected to the input pipe connector 31; the first output line 421 passes through the second opening 523 and is connected to the output line 32; as shown in fig. 3 and 4, the pressing plate 6 is provided with a first notch 621 and a second notch 622 corresponding to the input pipeline interface 31 and the output pipeline interface 32, so as to prevent the pressing plate 6 from pressing the input pipeline interface 31 and the output pipeline interface 32 during pressing down to cause pipe blockage.

As shown in fig. 2, 5 and 6, the first strut 541 and the second strut 542 are axially provided with a first limiting groove 5411 and a second limiting groove 5421; as shown in fig. 2, a first spacing column 121 and a second spacing column 122 are arranged on one side of the bottom plane of the lower shell 12 facing the inside; the first limiting groove 5411 and the second limiting groove 5421 in the first strut 541 and the second strut 542 are in plugging fit with the first limiting column 121 and the second limiting column 122, so that the mounting plate 51 is detachably connected with the lower housing 12.

In other embodiments, the first limiting column 121 and the second limiting column 122 are axially provided with limiting grooves, and the limiting grooves in the first limiting column 121 and the second limiting column 122 are in plug-in fit with the first support 541 and the second support 542, so as to realize the detachable connection between the mounting plate 51 and the lower housing 12.

As shown in fig. 1 to 6, the self-controlled liquid feeding device of the disposable infusion pump further comprises an additional medicine port 8 arranged at the rear side of the mounting plate 51; the additional chemical inlet 8 is connected to the reservoir 3 through the housing 1 and the first boss mechanism 52, and is used for additional chemical.

As shown in fig. 2 and 3, a concave portion 524 is formed on the side wall behind the first protrusion 52 for engaging with the key 21, and is used to provide a space for the key 21 to move downward, so that the key 21 moves downward to contact with the pressing sheet 5.

In the present embodiment, the lowest height of the depression 524 for allowing the key 21 to move downward is lower than or equal to the height of the pressing sheet 6 when the liquid medicine is not stored in the reservoir 3.

As shown in fig. 1 and 2, the self-controlled liquid feeding device of the disposable infusion pump further comprises a card 7, wherein the card 7 is arranged above the key 21 and used for locking the key 21; the key 21 can be used by removing the card 7.

It is only above the preferred embodiment of the utility model, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongings to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A plumbing assembly mount for mounting a plumbing assembly, comprising: the pipeline assembly comprises an input pipeline, an output pipeline and an input and output communicating pipeline; the pipeline component mounting part is respectively provided with an input pipeline mounting area, an output pipeline mounting area and an input and output conduction pipeline mounting area for mounting an input pipeline, an output pipeline and an input and output conduction pipeline; the input pipeline mounting area, the output pipeline mounting area and the input and output conduction pipeline mounting area are arranged independently.

2. The piping component mount of claim 1 wherein: the plumbing assembly mount includes a mounting plate; the input pipeline mounting area comprises a left front area or a left side area of the bottom plane of the mounting plate; the output pipeline mounting area comprises a right front area or a right side area of the mounting plate bottom plane; the input and output conduction pipeline installation area comprises an area below the bottom plane of the installation plate and is positioned on the upper side or the lower side of the input pipeline and the output pipeline.

3. The piping component mount of claim 2 wherein: the input pipeline comprises a first input pipeline, a second input pipeline and an input pipeline tee joint; the pipeline assembly mounting member comprises a first clamp position arranged at the left front area of the bottom plane of the mounting plate; the input pipeline tee joint is fixedly clamped on the first clamping position, one inlet faces the front, and the two outlets face the rear; and the inlet of the input pipeline tee joint is connected with the second input pipeline, one outlet is connected with the first input pipeline, and the other outlet is connected with one end of the input and output conduction pipeline.

4. The piping component mount of claim 3 wherein: the input pipeline mounting area also comprises a middle area at the rear side of the bottom plane of the mounting plate; the pipeline component mounting part also comprises a third clamping position arranged in the middle area of the rear side of the bottom plane of the mounting plate; one end of the first input pipeline is clamped on the third clamping position, and the other end of the first input pipeline is connected with one outlet of the input pipeline tee joint.

5. The piping component mount of claim 2 wherein: the output pipeline comprises a first output pipeline, a second output pipeline and an output pipeline tee joint; the pipeline assembly mounting piece further comprises a second clamp position arranged in the right front area of the bottom plane of the mounting plate; the output pipeline tee joint is fixedly clamped on the second clamping position, one inlet faces the front, and the other inlet and one outlet face the rear; one outlet of the output pipeline tee joint is connected with the first output pipeline, one inlet of the output pipeline tee joint is connected with one end of the second output pipeline, and the other inlet of the output pipeline tee joint is connected with the other end of the input and output communicating pipeline; the second outlet pipe has a middle portion fixed along a middle region of the mounting plate and the other end extending out of the mounting plate from the front.

6. The piping component mount of claim 5 wherein: the output pipeline mounting area also comprises a middle area at the front side of the mounting plate top plane; the pipeline component mounting part also comprises a fourth clamping position arranged in the middle area of the front side of the mounting plate top plane; one end of the first output pipeline is clamped on the fourth clamping position, and the other end of the first output pipeline winds around the bottom plane of the mounting plate and is connected with an outlet of the output pipeline tee joint.

7. The piping component mount of claim 5 wherein: the output pipeline mounting area also comprises a middle area of the bottom plane of the mounting plate; the pipeline component mounting part also comprises a fifth clamping position arranged in the middle area of the rear side of the bottom plane of the mounting plate; the middle part of the second output pipeline bypasses the fifth clamping position and extends out of the mounting plate from the front along the middle area of the mounting plate.

8. The plumbing assembly mount of any one of claims 2-7, wherein: the pipeline component mounting part further comprises a first support arranged on the left side of the mounting plate bottom plane, a sixth clamping position arranged on the left side of the mounting plate bottom plane and located in front of the first support, a second support arranged on the right side of the mounting plate bottom plane, an eighth clamping position arranged on the right side of the mounting plate bottom plane and located in front of the second support, and a seventh clamping position arranged in the middle of the front of the mounting plate bottom plane; the one end that input/output switched on the pipeline with input pipeline connects, and first pillar, sixth screens, seventh screens, eighth screens and second pillar are walked around in proper order to the mid portion, the other end with output pipeline connects.

9. The plumbing assembly mount of claim 8, wherein: the input and output conducting pipeline is wound on the upper sides of the input pipeline and the output pipeline.

10. A plumbing mechanism utilizing the plumbing assembly mount of any one of claims 1-9, wherein: comprises a pipeline component; the pipeline assembly comprises an input pipeline, an output pipeline and an input and output communication pipeline which are respectively assembled in the input pipeline installation area, the output pipeline installation area and the input and output communication pipeline installation area.

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