CN112895840B

CN112895840B - Arrangement structure of compressor air conditioner pipeline

Info

Publication number: CN112895840B
Application number: CN202110312669.4A
Authority: CN
Inventors: 陈再霖; 赵庆福; 陈颖; 谭川; 孙攀; 黄发明; 李伟
Original assignee: Dongfeng Trucks Co ltd
Current assignee: Dongfeng Trucks Co ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2022-08-19
Anticipated expiration: 2041-03-24
Also published as: CN112895840A

Abstract

The invention discloses an arrangement structure of a compressor air-conditioning pipeline, which comprises a compressor, a compressor air inlet pipe and a compressor air outlet pipe, wherein the compressor air inlet pipe and the compressor air outlet pipe are connected with the compressor, a pipeline bracket is fixed on the compressor, the compressor air inlet pipe and the compressor air outlet pipe are both fixed on the pipeline bracket, the butt joint end of the compressor air inlet pipe and the compressor is fixedly connected with the compressor through a joint fixing bracket, the butt joint end of the compressor air outlet pipe and the compressor is fixed on the joint fixing bracket, and a pipeline conversion structure which is axially fixed with the compressor air inlet pipe in a butt joint manner and can enable air-conditioning air in the compressor air inlet pipe to be communicated with the compressor along the radial direction of the compressor air inlet pipe is arranged in the joint fixing bracket. The air inlet pipe of the compressor and the compressor are changed from axial butt joint into radial butt joint through the pressure plate support, so that the interface of the air conditioner pipe is transferred from a part with poor proximity to a part with good proximity and sufficient operation space, and the space occupied by the bent pipe is reduced.

Description

Arrangement structure of compressor air conditioner pipeline

Technical Field

The invention relates to the technical field of automobile air conditioner pipeline arrangement, in particular to an arrangement structure of a compressor air conditioner pipeline.

Background

Aiming at the requirement that the engine meets the six-state emission standard in the current country, the engine needs to be upgraded, the installation space of the compressor and the air conditioner pipeline is reduced due to the upgrade of the engine, and the installation point, the installation mode and the positions of the air inlet and the air outlet of the compressor cannot be changed. Therefore, it is difficult to reduce the space for disposing the air conditioning pipeline of the compressor so as to meet the requirements of the gap between the pipeline and the driving belt (moving part), the gap between the pipeline and the EGR pipe (heat pipe), the gap between the pipeline and the engine structure, and the gap between the installation space and the operation space of the pressure plate butt bolt.

Disclosure of Invention

The invention aims to solve the defects of the background technology and provide an arrangement structure of a compressor air conditioner pipeline, which has small arrangement space and meets the requirement of the gap between the pipeline and each part.

In order to achieve the purpose, the arrangement structure of the compressor air-conditioning pipeline comprises a compressor, a compressor air inlet pipe and a compressor air outlet pipe, wherein the compressor air inlet pipe and the compressor air outlet pipe are connected with the compressor, and the arrangement structure is characterized in that: the air conditioner air inlet pipe is characterized in that a pipeline support is fixed on the compressor, the compressor air inlet pipe and the compressor air outlet pipe are fixed on the pipeline support, the compressor air inlet pipe and the butt joint end of the compressor are fixedly connected with the compressor through a joint fixing support, the compressor air outlet pipe and the butt joint end of the compressor are fixed on the joint fixing support, and a pipeline conversion structure which is axially fixed to the compressor air inlet pipe in a butt joint mode and enables air conditioner air in the compressor air inlet pipe to be communicated with the compressor along the radial direction of the compressor air inlet pipe is arranged in the joint fixing support.

Furthermore, the compressor air inlet pipe comprises a first compressor air inlet branch pipe and a second compressor air inlet branch pipe which are axially communicated, and the compressor air outlet pipe comprises a first compressor air outlet branch pipe and a second compressor air outlet branch pipe which are axially communicated; the one end that first compressor air inlet was in charge of with the one end that first compressor air-out was in charge of is fixed in respectively in the interface fixed bolster with in the compressor, the other end that first compressor air inlet was in charge of with the other end that first compressor air-out was in charge of all is fixed in on the pipeline bracket, the one end that second compressor air inlet was in charge of with the one end that second compressor air-out was in charge of all is fixed in on the pipeline bracket.

Furthermore, the pipeline support is a straight plate fixed on the compressor, and the other end of the first compressor air inlet branch pipe and the other end of the first compressor air outlet branch pipe are fixed on the straight plate through a first pressing plate support and a second pressing plate support respectively.

Furthermore, the other end of the first compressor air inlet branch pipe is fixed in the first pressing plate support, the other end of the first compressor air outlet branch pipe is fixed in the second pressing plate support, the first pressing plate support and the second pressing plate support are arranged on the left side and the right side of the straight plate, and the top of the first pressing plate support, the straight plate and the top of the second pressing plate support are fixedly connected through bolts and nuts.

Furthermore, a positioning structure is connected between the first pressing plate support and the second pressing plate support and comprises a positioning pin fixed in the first pressing plate support and a positioning pin hole arranged in the second pressing plate support, a positioning pin through hole is formed in the straight plate, and the positioning pin penetrates through the positioning pin through hole and is arranged in the positioning pin hole.

Furthermore, the straight plate comprises a first straight plate section fixed with the first pressing plate support and the second pressing plate support and a second straight plate section fixed with the compressor, a transition inclined plate section is connected between the first straight plate section and the second straight plate section, and the transition inclined plate section is connected with the first straight plate section and the second straight plate section in an obtuse angle.

Furthermore, a pipe clamp is connected between one end of the second compressor air inlet branch pipe and one end of the second compressor air outlet branch pipe, the pipe clamp is fixed on the first straight plate section through bolts and nuts, and the second compressor air inlet branch pipe and the second compressor air outlet branch pipe are located on the left side and the right side of the first straight plate section.

Furthermore, a first connecting support is fixed on the first pressing plate support, a second connecting support is fixed on the second pressing plate support, a compressor air inlet connecting pipe is coaxially connected between the first compressor air inlet branch pipe and the second compressor air inlet branch pipe, the compressor air inlet connecting pipe is fixed in the first connecting support, a compressor air outlet connecting pipe is coaxially connected between the first compressor air outlet branch pipe and the second compressor air outlet branch pipe, and the compressor air outlet connecting pipe is fixed in the second connecting support.

Furthermore, the interface fixing support and the butt joint of the compressor are positioned above the compressor air outlet pipe and the butt joint of the compressor.

Furthermore, the pipeline conversion structure is an L-shaped air channel arranged in the interface fixing support, and two ends of the L-shaped air channel are respectively connected with the compressor and the compressor air inlet pipe.

The invention has the beneficial effects that: the air inlet pipe of the compressor and the compressor are changed from axial butt joint into radial butt joint through the pressure plate support, so that the interface of the air conditioner pipe is transferred from a part with poor proximity to a part with good proximity and sufficient operation space, and the space occupied by the bent pipe is reduced. The air inlet and outlet pipes of the compressor are assembled in equal sections, so that the occupied space of the bent pipeline is further reduced, the pipeline can be arranged in a manner of fitting the outline of the compressor as much as possible, and the pipeline support and the compressor share the same hole, so that the air inlet and outlet pipes of the compressor can be mounted on the engine together with the compressor. The arrangement structure of the compressor air-conditioning pipeline designed by the invention ensures the installation and operation space of the gap between the compressor pipeline and the transmission belt, the gap between the compressor pipeline and the EGR pipe, the gap between the compressor pipeline and the engine structure and the butt bolt of the pressure plate bracket. The air-conditioning pipeline and the pipeline support are assembled together in an engine plant and an air-conditioning compressor, and are subsequently butt-jointed with the air-conditioning pipeline of the whole vehicle and installed in a final assembly plant for implementation, so that the assembly process is optimized, and the assembly flow is simplified.

Drawings

FIG. 1 is a perspective view of the arrangement structure of the air conditioning pipeline of the compressor in the invention;

FIG. 2 is a perspective view showing the arrangement of the air conditioning piping structure directly connected to the compressor according to the present invention;

FIG. 3 is a perspective view of an air conditioning circuit of the present invention directly connected to a compressor;

FIG. 4 is a perspective view of the connection structure of the two ends of the air inlet branch pipe of the first compressor in the present invention;

FIG. 5 is a perspective view of a connection structure of two ends of an air outlet branch pipe of a first compressor according to the present invention;

FIG. 6 is a perspective view of a tubing rack according to the present invention;

FIG. 7 is a top elevational view of the compressor air conditioning duct arrangement of the present invention;

FIG. 8 is a cross-sectional view taken along line A-A of FIG. 7;

FIG. 9 is a front view of the connection end of the first compressor inlet branch pipe and the interface fixing bracket of the present invention;

FIG. 10 is a cross-sectional view taken along line B-B of FIG. 9;

the air conditioner comprises a compressor, a compressor air inlet pipe (1.1-first compressor air inlet branch pipe, a compressor air inlet connecting pipe) 1.2-second compressor air inlet branch pipe, a compressor air outlet pipe (2.1-first compressor air outlet branch pipe, a compressor air outlet branch pipe 2.2-second compressor air outlet branch pipe, a compressor air outlet connecting pipe 2.3), a compressor 3, a pipeline support 4 (4.1-first straight plate section, 4.2-second straight plate section, 4.3-transition inclined plate section), a connector fixing support 5, a first pressure plate support 6, a second pressure plate support 7, a positioning pin 8, a positioning pin hole 9, a positioning pin hole 10, a pipe clamp 11, a first connecting support 12, a second connecting support 13 and an L-type air channel 14.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments.

The arrangement structure of the compressor air-conditioning pipeline shown in fig. 1-10 comprises a compressor 3, a compressor air inlet pipe 1 and a compressor air outlet pipe 2 which are connected with the compressor 3.

Compressor air-supply line 1 includes that the first compressor air-supply of axial intercommunication divides pipe 1.1 and the second compressor air-supply to divide pipe 1.2, and compressor air-out pipe 2 includes that the first compressor air-out of axial intercommunication divides pipe 2.1 and the second compressor air-out divides pipe 2.2. One end of a first compressor air inlet branch pipe 1.1 and one end of a first compressor air outlet branch pipe 2.1 are respectively fixed in an interface fixing support 5 and a compressor 3, the interface fixing support 5 is fixed on the compressor 3, a butt joint of the interface fixing support 5 and the compressor 3 is positioned above a butt joint of the compressor air outlet pipe 2 and the compressor 3, and the butt joint of the compressor air outlet pipe 2 and the compressor 3 is fixed on the interface fixing support 5. The interface fixed bolster 5 is provided with in with the compressor air-supply line 1 axial butt joint fixed, can make the air conditioner wind in the compressor air-supply line 1 along the radial direction of compressor air-supply line 1 with the pipeline transform structure of compressor 3 intercommunication: and the two ends of the L-shaped air channel 14 are respectively connected with the compressor 3 and the compressor air inlet pipe 1.

Be fixed with pipeline bracket 4 on the compressor 3, pipeline bracket 4 is the straight board that is fixed in on the compressor 3, and the straight board includes first straight board section 4.1 fixed with first clamp plate support 6 and second clamp plate support 7 and the second straight board section 4.2 fixed with compressor 3, is connected with transition swash plate section 4.3 between first straight board section 4.1 and the second straight board section 4.2, and transition swash plate section 4.3 all becomes the obtuse angle with first straight board section 4.1 and second straight board section 4.2 and is connected. The structure of transition swash plate section 4.3 has strengthened the structural strength of pipeline support 4, has formed the disjunction of two parts about pipeline support 4 simultaneously, the assembly of the pipeline support of being convenient for more.

The other end of the first compressor air inlet branch pipe 1.1 is fixed in the first pressing plate support 6, the other end of the first compressor air outlet branch pipe 2.1 is fixed in the second pressing plate support 7, the first pressing plate support 6 and the second pressing plate support 7 are arranged on the left side and the right side of the straight plate, and the top of the first pressing plate support 6, the straight plate and the top of the second pressing plate support 7 are fixedly connected through bolts and nuts. A positioning structure is connected between the first pressing plate support 6 and the second pressing plate support 7 and comprises a positioning pin 8 fixed in the first pressing plate support 6 and a positioning pin hole 9 arranged in the second pressing plate support 7, a positioning pin through hole 10 is formed in the straight plate, and the positioning pin 8 penetrates through the positioning pin through hole 10 and is arranged in the positioning pin hole 9.

A pipe clamp 11 is connected between one end of the second compressor air inlet branch pipe 1.2 and one end of the second compressor air outlet branch pipe 2.2, the pipe clamp 11 is fixed on the first straight plate section 4.1 through bolts and nuts, and the second compressor air inlet branch pipe 1.2 and the second compressor air outlet branch pipe 2.2 are located on the left side and the right side of the first straight plate section 4.1.

First clamp plate support 6 is last to be fixed with first linking bridge 12, be fixed with second linking bridge 13 on the second clamp plate support 7, coaxial coupling has compressor air inlet connecting pipe 1.3 between first compressor air inlet branch pipe 1.1 and the second compressor air inlet branch pipe 1.2, compressor air inlet connecting pipe 1.3 is fixed in first linking bridge 12, coaxial coupling has compressor air-out connecting pipe 2.3 between first compressor air-out branch pipe 2.1 and the second compressor air-out branch pipe 2.2, compressor air-out connecting pipe 2.3 is fixed in second linking bridge 13.

In the invention, the compressor air inlet pipe 1 and the compressor air outlet pipe 2 are processed in a sectional mode and assembled into a whole, thereby taking space and manufacturing process into consideration. A straight-plate type pipeline bracket 4 is arranged between the first pressure plate bracket 6 and the second pressure plate bracket 7, the pipeline bracket 4 is assembled with the compressor 3 into a whole through bolts and nuts, counter bores are respectively arranged on the first pressure plate bracket 6 and the second pressure plate bracket 7, a positioning pin 8 is used, the positioning pin 8 and the first pressure plate bracket 6 are in interference fit, and the positioning pin 8 is pressed into the first pressure plate bracket 6 during manufacturing and supplies materials along with the first pressure plate bracket 6; the positioning pin 8 and the second pressure plate bracket 7 are in clearance fit. During assembly, the positioning pin 8 on the first pressure plate support 6 is aligned with the positioning pin through hole 10 of the pipeline support 4 and the counter bore on the second pressure plate support 7 to be inserted, and meanwhile, the long bolt sequentially penetrates through the through holes on the first pressure plate support 6, the pipeline support 4 and the second pressure plate support 7 to realize assembly and positioning. The butt joint of the compression near air inlet pipe 1 and the compressor is transferred to a position with better proximity from a position with poorer proximity through the structure of the compressor air inlet and outlet pipe and the joint fixing support 5 which are arranged up and down, so that a stable joint is formed, the subsequent installation is convenient, the length of a bent pipe section generated by butt joint of the compression near air inlet and outlet pipe and the compressor 3 is reduced, and the space required by the installation of a pipeline is reduced. And finally, the compressor air inlet pipe 1 and the compressor air outlet pipe 2 which are arranged in a segmented manner are connected into a whole through the compressor air inlet connecting pipe 1.3 and the compressor air outlet connecting pipe 2.3, and the compressor air inlet pipe 1 and the compressor air outlet pipe 2 are both fixed on the pipeline bracket 4 and are arranged along the whole outline of the compressor 3, so that the installation space of the compressor air-conditioning pipeline is further reduced, and the installation operation space of a gap between the compressor pipeline and a driving belt, a gap between the compressor pipeline and an EGR pipe, a gap between the compressor pipeline and an engine structure and a butt bolt of a pressing plate bracket are ensured. The air-conditioning pipeline and the pipeline support are assembled together in an engine plant and an air-conditioning compressor, and are subsequently butt-jointed with the air-conditioning pipeline of the whole vehicle and installed in a final assembly plant for implementation, so that the assembly process is optimized, and the assembly flow is simplified.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the structure of the present invention in any way. Any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.

Claims

1. The utility model provides an arrangement structure of compressor air conditioner pipeline, including compressor (3), with compressor air-supply line (1) and compressor air-out pipe (2) that compressor (3) are connected, its characterized in that: a pipeline support (4) is fixed on the compressor (3), the compressor air inlet pipe (1) and the compressor air outlet pipe (2) are fixed on the pipeline support (4), the butt joint end of the compressor air inlet pipe (1) and the compressor (3) is fixedly connected with the compressor (3) through an interface fixing support (5), the butt joint end of the compressor air outlet pipe (2) and the compressor (3) is fixed on the interface fixing support (5), and a pipeline conversion structure which is axially fixed with the compressor air inlet pipe (1) in a butt joint mode and can enable air conditioning air in the compressor air inlet pipe (1) to be communicated with the compressor (3) along the radial direction of the compressor air inlet pipe (1) is arranged in the interface fixing support (5);

the compressor air inlet pipe (1) comprises a first compressor air inlet branch pipe (1.1) and a second compressor air inlet branch pipe (1.2) which are axially communicated, and the compressor air outlet pipe (2) comprises a first compressor air outlet branch pipe (2.1) and a second compressor air outlet branch pipe (2.2) which are axially communicated; the one end of first compressor air inlet minute pipe (1.1) with the one end of first compressor air outlet minute pipe (2.1) is fixed in respectively in interface fixed bolster (5) with in compressor (3), the other end of first compressor air inlet minute pipe (1.1) with the other end of first compressor air outlet minute pipe (2.1) all is fixed in on pipeline support (4), the one end of second compressor air inlet minute pipe (1.2) with the one end of second compressor air outlet minute pipe (2.2) all is fixed in on pipeline support (4).

2. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 1, wherein: the pipeline support (4) is a straight plate fixed on the compressor (3), and the other end of the first compressor air inlet branched pipe (1.1) and the other end of the first compressor air outlet branched pipe (2.1) are fixed on the straight plate through a first pressing plate support (6) and a second pressing plate support (7) respectively.

3. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 2, wherein: the other end of first compressor air inlet branch pipe (1.1) is fixed in first clamp plate support (6), the other end of first compressor air outlet branch pipe (2.1) is fixed in second clamp plate support (7), first clamp plate support (6) with second clamp plate support (7) arrange in the left and right sides of straight board, the top of first clamp plate support (6) straight board with through bolt and nut fixed connection between the top of second clamp plate support (7).

4. The arrangement structure of air conditioning piping for compressor according to claim 3, wherein: first clamp plate support (6) with be connected with location structure between second clamp plate support (7), it is including being fixed in locating pin (8) in first clamp plate support (6) and offering in locating pin hole (9) in second clamp plate support (7), locating pin via hole (10) have been seted up on the straight board, locating pin (8) pass locating pin via hole (10) set up in locating pin hole (9).

5. The arrangement structure of air conditioning piping for compressor according to claim 4, wherein: the straight plate comprises a first straight plate section (4.1) fixed with the first pressing plate support (6) and the second pressing plate support (7) and a second straight plate section (4.2) fixed with the compressor (3), a transition inclined plate section (4.3) is connected between the first straight plate section (4.1) and the second straight plate section (4.2), and the transition inclined plate section (4.3) is connected with the first straight plate section (4.1) and the second straight plate section (4.2) in an obtuse angle mode.

6. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 5, wherein: pipe clamp (11) are connected with between the one end of second compressor air inlet minute pipe (1.2) and the one end of second compressor air outlet minute pipe (2.2), pipe clamp (11) are fixed in through bolt and nut on first straight plate section (4.1), second compressor air inlet minute pipe (1.2) with second compressor air outlet minute pipe (2.2) is located the left and right sides of first straight plate section (4.1).

7. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 6, wherein: be fixed with first linking bridge (12) on first clamp plate support (6), be fixed with second linking bridge (13) on second clamp plate support (7), first compressor air inlet divide pipe (1.1) with coaxial coupling has compressor air inlet connecting pipe (1.3) between second compressor air inlet divide pipe (1.2), compressor air inlet connecting pipe (1.3) are fixed in first linking bridge (12), first compressor air outlet divide pipe (2.1) with coaxial coupling has compressor air outlet connecting pipe (2.3) between second compressor air outlet divide pipe (2.2), compressor air outlet connecting pipe (2.3) are fixed in second linking bridge (13).

8. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 1, wherein: the interface fixing support (5) and the butt joint of the compressor (3) are located above the compressor air outlet pipe (2) and the butt joint of the compressor (3).

9. The arrangement structure of the air conditioning pipe of the compressor as claimed in claim 8, wherein: the pipeline conversion structure is an L-shaped air channel (14) arranged in the interface fixing support (5), and two ends of the L-shaped air channel are respectively connected with the compressor (3) and the compressor air inlet pipe (1).