CN108591020B

CN108591020B - Air compressor device

Info

Publication number: CN108591020B
Application number: CN201810414395.8A
Authority: CN
Inventors: 桑树华; 孔伟
Original assignee: Suzhou Alton Electrical and Mechanical Industry Co Ltd
Current assignee: Suzhou Alton Electrical and Mechanical Industry Co Ltd
Priority date: 2017-01-06
Filing date: 2017-01-06
Publication date: 2020-05-01
Anticipated expiration: 2037-01-06
Also published as: CN106744077A; CN106744077B; CN108591020A

Abstract

The utility model provides an air compressor device, include the air compressor machine and install in the reelpipe ware of air compressor machine, the air compressor machine is equipped with the connecting rod, the button is dialled to the cam, the round pin axle, first mounting, but the movable part is located between first mounting and the button is dialled to the cam, the movable piece is connected to connecting rod one end, other end connecting pin axle, the button is dialled to the cam is equipped with cam portion and the handle of connecting cam portion, the round pin axle assembles in cam portion, but the cam drives the movable piece and moves to a second position along the connecting rod axial by a primary importance when dialling the button around round pin axle rotation, but the movable piece is located the primary importance, the reelpipe ware can be detached to the reelpipe ware, but when the movable piece is located the second place, the movable piece catches on the reelpipe ware.

Description

Air compressor device

The application is a divisional application of an invention patent application with the application number of 201710009949.1 and the application date of 2017, 1 and 6, and the name of the invention patent application is 'an air compressor device'.

[ technical field ] A method for producing a semiconductor device

The present invention relates to an air compressor, and more particularly to a locking structure of a pipe winding device of the air compressor.

[ background of the invention ]

The air compressor machine generally utilizes the motor to drive the pump head and stores external air compression in the gas holder, when pneumatic tool, for example air gun, spray gun etc. need work, then utilizes the trachea to supply pneumatic tool with the air supply in order to provide aerodynamic force with the air in the gas holder. When pneumatic tool needs remote work, general trachea length has not enough, then the air compressor machine need be equipped with the reelpipe ware, does not have the place of fixed reelpipe ware on the air compressor machine among the prior art, places the reelpipe ware at will near the air compressor machine when needing to use, leads to the reelpipe ware to occupy the place, lose easily and trip staff.

[ summary of the invention ]

The invention aims to provide an air compressor device which can conveniently lock a pipe coiling device on an air compressor.

In order to solve the technical problems, the invention adopts the following technical scheme: an air compressor device comprises an air compressor and a pipe coiling device arranged on the air compressor, wherein the air compressor is provided with a connecting rod, a cam toggle button, a pin shaft, a first fixing piece and a movable piece, the first fixing piece and the movable piece are respectively one-piece parts, the first fixing piece is fixed in position and is opposite to the movable piece in the axial direction of the connecting rod at intervals, the movable piece is positioned between the first fixing piece and the cam toggle button, one end of the connecting rod is connected with the movable piece, the other end of the connecting rod is connected with the pin shaft, the cam toggle button is provided with a cam part and a handle connected with the cam part, the pin shaft is assembled at the cam part, the cam toggle button drives the movable piece to move from a first position to a second position along the axial direction of the connecting rod through the connecting rod when rotating around the pin shaft, the distance between the movable piece and the first fixing piece is smaller than the distance between the movable piece and, the pipe coiling device can be detached from the movable piece, when the movable piece is located at the second position, the pipe coiling device is hooked by the movable piece in the direction far away from the first fixing piece, and the pipe coiling device is hooked by the first fixing piece in the direction far away from the movable piece.

For the pipe coiling device, when the air compressor needs to convey air power for a long distance, the pipe coiling device is placed on the air compressor, the movable piece is driven to the second position by the cam toggle button so that the pipe coiling device is hooked by the movable piece and the first fixed piece to lock the pipe coiling device on the air compressor, the total occupied area of the pipe coiling device is reduced, and the pipe coiling device is beneficial to keeping the working site clean and tidy and is not easy to trip; when the air compressor does not need to work remotely, the movable piece is moved to the first position from the second position, and the pipe coiling device can be detached.

Furthermore, the movable piece comprises a first base part, a first side part and a second side part, the first side part extends from one side, close to the first fixing piece, of the first base part, the second side part extends from one side, far away from the first fixing piece, of the first base part, the first base part and the second side part are combined to form a U shape, the second side part is located between the first side part and the cam part, the connecting rod is movably connected to the second side part, and when the movable piece is located at the second position, the first side part hooks the pipe coiling device in the direction close to the cam part.

Furthermore, the first side part is provided with a first concave surface which faces the second side part and is used for pressing the pipe rolling device.

Further, the air compressor machine still is equipped with second mounting, spring, and the second mounting is fixed to be located the air compressor machine and is located between second lateral part and the cam portion, and the second mounting is equipped with vertical wall portion, and the connecting rod passes wall portion, and the spring housing is located the connecting rod and is located between second lateral part and the wall portion, and when the movable part was located the second position, the spring was in the compression state under the relative counterbalance of second lateral part and wall portion.

Furthermore, the air compressor machine is still fixed and is equipped with first tubulose portion and the second tubulose portion that parallel interval set up mutually, and first mounting is fixed in first tubulose portion, and the second mounting is fixed in second tubulose portion.

Furthermore, the pipe coiling device is fixedly provided with a third tubular part and a fourth tubular part which are arranged in parallel at intervals, when the pipe coiling device is positioned at the second position, the first fixing part correspondingly hooks the third tubular part, and the movable part correspondingly hooks the fourth tubular part.

Furthermore, the connecting rod comprises a rod part and a head part used for driving the movable part to move from the first position to the second position, the head part is located at one end of the rod part, the other end of the rod part is fixed on the pin shaft, the second side part is provided with an accommodating groove and a second through hole, the accommodating groove is located on one side of the second side part facing the first side part, the rod part penetrates into the second through hole through the accommodating groove, the radial section of the head part is larger than that of the second through hole, and the head part is limited in the accommodating groove.

Furthermore, the head and the radial cross section of the limiting groove are respectively polygonal, the limiting groove inhibits the head from rotating, the rod part is perpendicular to the pin shaft, and the tail end of the rod part is in threaded connection with the pin shaft.

Furthermore, the first fixed part comprises a second base part, a third side part and a fourth side part which are respectively connected with two opposite sides of the second base part, the third side part is positioned between the movable part and the fourth side part, the third side part and the second base part are in a suspended state, and when the movable part is positioned at the second position, the third side part hooks the pipe coiling device towards the direction close to the fourth side part.

Furthermore, the movable piece and the first fixing piece are located on the top side of the air compressor, the pipe coiling device is arranged above the air compressor, and the movable piece and the first fixing piece hook the bottom of the pipe coiling device respectively.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a perspective view of an air compressor assembly of the present invention;

FIG. 2 is a perspective view of the air compressor of the present invention shown separated from the pipe winder (with the movable member in a second position);

FIG. 3 is a top view of the air compressor of the present invention (with the movable member in the first position);

FIG. 4 is a partial cross-sectional view of the present invention (with the movable member in the first position);

FIG. 5 is a partially exploded view of the present invention;

fig. 6 is a partially enlarged view of fig. 5.

[ detailed description ] embodiments

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the air compressor apparatus of the present invention is shown, wherein the air compressor 10 includes a foot support 20, a wheel assembly 21, an air storage tank 22, a motor 23, a pump head 24, a push-pull rod 25, a first bracket assembly 3, a first fixing member 4, a second fixing member 50, a connecting rod 51, a pin 52, a cam toggle 53, and a movable member 6. The push-pull rod 25 may cooperate with the wheel assembly 21 for moving the air compressor 10. The pipe rolling device 11 comprises a second bracket assembly 7, an air pipe (not shown) and a rolling pipe shaft (not shown) wound with the air pipe, wherein the second bracket assembly 7 comprises a horizontal bottom frame 70, a second left annular frame 71 and a second right annular frame 72 which are spaced and vertically arranged, and the rolling pipe shaft is positioned between the second left annular frame 71 and the second right annular frame 72; the second left annular frame 71 and the second right annular frame 72 are respectively rectangular, and a connecting rod 73 is welded therebetween. The bottom frame 70 has a rectangular shape, and the bottom frame 70 is indirectly fixed to the second left ring frame 71 and the second right ring frame 72. The first fixed member 4 and the movable member 6 may each have a U-shape.

The nominal power of the motor 23 is between 100w and 3000w, preferably between 200w and 1800 w. The motor 23 drives the pump head 24 to charge the air reservoir 22.

The pipe coiling device 11 can be mounted on the air compressor 10 to be matched with the air compressor 10 to provide remote aerodynamic force, the movable piece 6 is used for being matched with the pipe coiling device 11, when the movable piece 6 is located at a first position, the pipe coiling device 11 can be freely placed at a preset mounting position on the air compressor 10, and also can be freely separated from the movable piece 6, when the movable piece 6 moves from the first position to a second position, the movable piece 6 can be pressed against the pipe coiling device 11 placed on the air compressor 10 and locks the pipe coiling device 11, and in the embodiment, the movable piece 6 hooks the pipe coiling device 11 placed on the air compressor 10 so as to lock the pipe coiling device 11; when the movable member 6 is moved from the second position to the first position, the movable member 6 releases the locking of the tube roller 11, so that the tube roller 11 can be freely detached from the movable member 6.

The air compressor 10 is further provided with a first through hole 500, the movable member 6 and the cam toggle button 53 are located on two opposite sides of the first through hole 500, the connecting rod 51 penetrates through the first through hole 500, one end of the connecting rod 51 is connected with the movable member 6, the other end of the connecting rod 51 is connected with the pin shaft 52, the cam toggle button 53 is provided with a cam part 530 and a handle 531 connected with the cam part 530, the pin shaft 52 is assembled on the cam part 530, and the cam toggle button 53 can rotate around the pin shaft 52 and drive the movable member 6 to move between a first position and a second position through the connecting rod 51. When the cam toggle 530 rotates around the pin 52, the connecting rod 51 is driven to move axially along the connecting rod 51, and the connecting rod 51 further drives the movable member 6 to move axially along the connecting rod 51. When the cam knob 53 is in the release position (e.g., as shown in fig. 3; with the thin portion of the cam portion 530 facing the latch 55), the movable member 6 is correspondingly in the first position, and when the cam knob 53 is rotated about the pin 52 to the lock position (e.g., as shown in fig. 2; with the thick portion of the cam portion 530 facing the latch 55), the movable member 6 is correspondingly moved to the second position. When the cam toggle button 53 rotates around the pin 52 from the release position to the lock position, the relatively protruding portion of the cam portion 530, i.e., the thick portion, gradually abuts against the locking seat 55, and the pin 52 is driven to move toward the outside of the air compressor 10, thereby driving the connecting rod 51 to move outward. The axial direction of the link 51 is perpendicular to the axial direction of the pin 52. The cam portion 530 includes a first cam portion 532 and a second cam portion 533 opposed to each other, a spacing groove 534 between the first cam portion 532 and the second cam portion 533, and a pin shaft hole 535 passing through the first cam portion 532 and the second cam portion 533, and the pin shaft 52 is attached to the pin shaft hole 535. The cam knob 53 is a one-piece part.

The movable member 6 includes a first base 60, and a first side 61 and a second side 62 extending from the first base 60 and disposed opposite to each other, the first base 60, the first side 61, and the second side 62 enclose a first mounting groove 63 for mounting the pipe rolling device 11, the first side 61, the first base 60, and the second side 62 form a U shape together, the second side 62 is located between the first side 61 and the cam 530, when the movable member 6 is located at the second position, the first side 61 presses the pipe rolling device 11 in a direction close to the cam 530, the first side 61 hooks the pipe rolling device 11 in a direction close to the cam 530, and the pipe rolling device 11 is separated from the second side 62. The first side portion 61 has a first concave surface 610 for pressing the pipe rolling device 11 on a side facing the second side portion 62, and the first side portion 61 has a first hook portion 611 for stopping the pipe rolling device 11 from separating from the movable member 6. The first mounting groove 63 is located between the first fixing member 4 and the second side portion 62. The first fixed member 4 and the movable member 6 are respectively one-piece parts, and the first fixed member 4 is fixed in position and is spaced and opposite to the movable member 6 in the link axial direction.

The air compressor 10 is also provided with an elastic member 54, such as a spring. The second fixing member 50 is fixedly disposed on the air compressor 10 and located between the second side portion 62 and the cam portion 530, the second fixing member 50 is provided with a wall portion 501, the wall portion 501 is in a vertical plate shape, the first through hole 500 is disposed on the wall portion 501, the link 51 passes through the wall portion 501, the elastic member 54 is sleeved on the link 51 and located between the second side portion 62 and the wall portion 501, and when the movable member 6 is located at the second position, the elastic member 54 is in a compressed state under the opposite pressing of the second side portion 62 and the wall portion 501. The wall 501 is vertically provided and has a flat plate shape. The elastic member 54 is used to push the movable member 6 to move to the second position, so as to facilitate the return of the movable member 6 from the first position to the second position. The link 51 is connected to the second side portion 62, and further, the link 51 is movably connected to the second side portion 62, that is, the link 51 and the second side portion 62 are not welded or screwed and fixed in this embodiment.

The connecting rod 51 includes a rod portion 510 and a head portion 511 for driving the movable member 6 to move from the first position to the second position, the head portion 511 is located at one end of the rod portion 510, and the other end of the rod portion 510 is fixed to the pin 52, for example, the other end of the rod portion 510 is screwed to the screw hole 520 of the pin 52. The second side portion 62 is provided with a receiving groove 620 and a second through hole 621, the receiving groove 620 is located on one side of the second side portion 62 facing the first side portion 61, the rod portion 510 penetrates the second through hole 621 through the receiving groove 620, the radial cross section of the head portion 511 is larger than that of the second through hole 621, so that the head portion 511 is larger in size and cannot penetrate the second through hole 621, the head portion 511 is limited in the receiving groove 620, and the radial direction is relative to the axial direction of the connecting rod 51 and is perpendicular to the axial direction of the connecting rod 51.

The first side portion 61 is further provided with a first relief opening 612 through which the head portion 511 passes, and the first relief opening 612 penetrates through opposite sides of the first side portion 61 in the axial direction of the link 51 and is opposite to the accommodating groove 620 in the axial direction of the link 51. The connecting rod 51 is longer, the connecting rod 51 can pass through the first clearance hole 612 along the axial direction thereof and further pass through the receiving groove 620 and the second through hole 621, the head 511 is stopped and limited in the receiving groove 620

The clamping seat 55 is sleeved on the connecting rod 51, the second fixing member 50 is provided with a limiting groove 502 communicated with the first through hole 500, the clamping seat 55 is partially accommodated in the limiting groove 502, the limiting groove 502 is a circular hole, the cylindrical limiting portion 550 of the clamping seat 55 is accommodated in the limiting groove 502, the connecting rod 51 penetrates into the limiting groove 502 from the first through hole 500, and when the movable member 6 is located at the second position, the cam portion 530 is pressed against the clamping seat 55 towards the second fixing member 50. The clamping seat 55 further comprises a limiting projection 551, a concave guide surface 552 and a second clearance opening 553, wherein the guide surface 552 is matched with the cam part 530, the limiting projection 551 is arranged in the spacing groove 534, and the pin shaft 52 passes through the second clearance opening 553. The cam portion 530 is slidable relative to the guide surface 552 during rotation about the pin 52, and the cam surface 536 of the cam portion 530 slides on the guide surface 552 during rotation about the pin 52, so that the distance from the pin 52 to the cartridge 55 along the axial direction of the cartridge 55 is increased or decreased.

The second fixing member 50 is located between the movable member 6 and the cam portion 530, the first through hole 500 is provided in the second fixing member 50, the link 51 passes through the second fixing member 50, the air compressor 10 is further fixedly provided with the first tubular portion 300 and the second tubular portion 310 which are spaced apart, the first fixing member 4 is fixed to the first tubular portion 300, for example, the first fixing member 4 is locked to the first tubular portion 300 by the screw 56; the second fixing member 50 is fixed to the second tubular portion 310, for example, by locking the second fixing member 50 to the second tubular portion 310 by means of screws 57, the second fixing member 50 being provided with a concave arc-shaped face 503 abutting against the second tubular portion 310; when the movable member 6 is located at the second position, the first fixing member 4 and the movable member 6 fix the pipe rolling device 11.

The first frame component 3 includes a first left annular frame 30, a first right annular frame 31, and a baffle 32, which are spaced apart and vertically disposed, the first tubular portion 300 is a part of the first left annular frame 30, and the second tubular portion 310 is a part of the first right annular frame 31. In the present embodiment, the first left annular frame 30 and the first right annular frame 31 are respectively trapezoidal, and the connecting rod 33 is welded between the first left annular frame 30 and the first right annular frame 31. The first tubular portion 300 and the second tubular portion 310 are horizontally disposed and parallel.

The first fixing piece 4 is used for being matched with the pipe coiling device 11 and being in a fixed state, the first fixing piece 4 and the movable piece 6 are arranged at intervals, the pipe coiling device 11 is fixedly provided with a third tubular part 700 and a fourth tubular part 701 which are arranged at intervals, when the movable piece 6 is positioned at a second position, the first fixing piece 4 presses the third tubular part 700 towards the direction far away from the fourth tubular part 701, and the movable piece 6 presses the fourth tubular part 701 towards the direction far away from the third tubular part 700; it is also possible to design that when the movable element 6 is located at the second position, the first fixing element 4 presses the third tubular portion 700 towards the fourth tubular portion 701 and the movable element 6 presses the fourth tubular portion 701 towards the third tubular portion 700, so as to form a clamping effect. The third tubular portion 700 and the fourth tubular portion 701 are horizontally disposed and parallel, wherein when the movable element 6 is located at the second position in the present embodiment, the first fixing element 4 hooks the third tubular portion 700 in a direction away from the fourth tubular portion 701, and the movable element 6 hooks the fourth tubular portion 701 in a direction away from the third tubular portion 700. The third tubular portion 700 and the fourth tubular portion 701 are spaced left and right and are part of the bottom frame 70. The first fixing member 4 is provided with a second mounting groove 40, and when the pipe rolling device 11 is mounted to the air compressor 10, the third tubular portion 700 is correspondingly mounted to the second mounting groove 40, and the fourth tubular portion 701 is correspondingly mounted to the first mounting groove 63.

For the present embodiment, when the movable member 6 moves from the first position to the second position, the distance between the first fixed member 4 and the movable member 6 is increased, and when the movable member 6 is located at the second position, the movable member 6 and the first fixed member 4 hook the pipe coiling device 11 in opposite directions; it can also be designed as follows: when the movable member 6 moves from the first position to the second position, the space between the first fixing member 4 and the movable member 6 is reduced, and when the movable member 6 is located at the second position, the movable member 6 and the first fixing member 4 clamp and fix the pipe rolling device 11. When the movable member 6 is located at the second position, the pipe rolling device 11 is supported by the first base 60 and the second base 41, specifically, the third tubular portion 700 is supported by the second base 41, the fourth tubular portion 701 is supported by the first base 60, the first side portion 61 hooks the fourth tubular portion 701, and the third side portion 42 hooks the third tubular portion 700.

The movable member 6 is movably connected to the first bracket assembly 3, for example, the movable member 6 is movably connected to the first bracket assembly 3 through a connecting rod 51 and a second fixing member 50, etc., the first fixing member 4 is fixed to the first bracket assembly 3, when the movable member 6 is located at the second position, the first fixing member 4 presses the second bracket assembly 7 in a direction away from the movable member 6, and the movable member 6 presses the second bracket assembly 7 in a direction away from the first fixing member 4, so that the first fixing member 4 and the movable member 6 have a tendency of expanding the second bracket assembly 7, and the second bracket assembly 7 is locked by the expanding force, thereby fixing the reel 11; it can also be designed as follows: when the movable member 6 is located at the second position, the first fixing member 4 and the movable member 6 clamp and fix the second bracket assembly 7, so as to fix the pipe coiling device 11.

The first bracket component 3 is fixed on the top side of the air storage tank 22 and is framed at the periphery of the motor 23 and the pump head 24, the first fixing component 4 and the movable component 6 are arranged on the top side of the first bracket component 3, and after the pipe coiling device 11 is installed on the air compressor 10, the first bracket component 3, the motor 23 and the pump head 24 are located between the air storage tank 22 and the pipe coiling device 11. The air tank 22 is butterfly-shaped. The movable member 6 and the first fixing member 4 respectively hook the bottom of the pipe winder 11.

The first fixing member 4 includes a second base 41, and a third side 42 and a fourth side 43 respectively connected to opposite sides of the second base 41, wherein the third side 42, the second base 41 and the fourth side 43 are combined together to form a U-shape, and a second mounting groove 40 for mounting the pipe rolling device 11 is formed between the third side 42 and the fourth side 43. When the movable member 6 is located at the second position, the third side portion 42 presses the pipe rolling device 11 in a direction away from the movable member 6, and further, the third side portion 42 hooks the pipe rolling device 11 in a direction away from the movable member 6. The fourth side 43 is fixed to the first tubular part 300 and the fourth side 43 is provided with a concave arc shaped face 430 abutting against the first tubular part 300. The third side 42 is located between the movable member 6 and the fourth side 43, the third side 42 is provided with a second hook 420 for stopping the pipe rolling device 11 from separating from the first fixing member 4, and one side of the third side 42 facing the fourth side 43 is provided with a second concave surface 421 for pressing the pipe rolling device 11. The second mounting groove 40 is located between the movable member 6 and the fourth side 43. The third side portion 42 and the second base portion 41 are in a suspended state, when the movable member 6 is in the second position, the movable member 6 is in the suspended state, when the movable member 6 is in the first position, the movable member 6 and the link 51 are in a released state, and the movable member 6 can fall on the baffle 32.

When assembled, the second fixing member 50 is fixed to the second tubular portion 310; the connecting rod 51 penetrates through the second through hole 621 of the movable member 6, and sequentially penetrates through the elastic member 54, the second fixing member 50, and the clamping seat 55, wherein the head 511 is limited in the accommodating groove 620; the pin 52 is inserted into the cam part 530, and the end of the link 51 is screwed into the screw hole 520 of the pin 52. The radial cross sections of the head 511 and the limiting groove 502 are respectively polygonal, the limiting groove 502 can limit the head 511 to be hardly rotated, and the clamping seat 55, the pin shaft 52 and the cam part 530 can be rotated relative to the connecting rod 51 as a whole during screwing so that the connecting rod 51 and the pin shaft 52 are screwed.

When the pipe coiling device 11 is installed, the movable piece 6 is located at a first position, and the pipe coiling device 11 is placed at a preset installation position of the air compressor 10; the cam toggle button 53 is rotated to drive the movable member 6 to move from the first position to the second position, and the first fixing member 4 and the movable member 6 hook the second bracket assembly 7 in opposite directions, so that the pipe coiling device 11 is fixed on the air compressor 10.

While the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims

1. The utility model provides an air compressor machine device, includes air compressor machine and reelpipe ware, its characterized in that: the air compressor is provided with a connecting rod, a cam toggle button, a pin shaft, a first fixing piece and a movable piece, wherein the movable piece is positioned between the first fixing piece and the cam toggle button, the connecting rod is connected with the movable piece and the pin shaft, the cam toggle button is provided with a cam part and a handle connected with the cam part, the pin shaft is assembled on the cam part, the cam toggle button drives the movable piece to axially move from a first position to a second position along the connecting rod through the connecting rod when rotating around the pin shaft, the distance between the movable piece and the first fixing piece when the movable piece is at the first position is smaller than that between the movable piece and the first fixing piece when the movable piece is at the second position, the movable piece hooks the pipe coiling device in the direction far away from the first fixing piece, and the first fixing piece hooks the pipe coiling device arranged on the air compressor in the direction far away from the movable; the air compressor machine still includes the second mounting, and the air compressor machine top is located to the reelpipe ware, and first mounting and second mounting are located the opposite both sides at air compressor machine top, and the second mounting is located between movable piece and the cam portion, and the connecting rod runs through the second mounting.

2. The air compressor device according to claim 1, wherein: the air compressor machine still includes the motor, and the rated power of motor is between 100w to 3000w, and first fixed part and movable piece are one-piece part respectively.

3. The air compressor device according to claim 1, wherein: the movable piece comprises a first base, a first side portion and a second side portion, the first side portion extends from one side, close to the first fixing piece, of the first base, the second side portion extends from one side, far away from the first fixing piece, of the first base, the first base and the second side portion are combined to form a U shape, the second side portion is located between the first side portion and the cam portion, the connecting rod is movably connected to the second side portion, and when the movable piece is located at the second position, the first side portion hooks the pipe coiling device in the direction close to the cam portion.

4. The air compressor assembly of claim 3, wherein: the first side part is provided with a first concave surface which faces the second side part and is used for abutting against the pipe rolling device.

5. The air compressor assembly of claim 3, wherein: the air compressor is also provided with a spring, the second fixing piece is fixedly arranged on the air compressor and positioned between the second side part and the cam part, the second fixing piece is provided with a vertical wall part, the connecting rod penetrates through the wall part, the spring is sleeved on the connecting rod and positioned between the second side part and the wall part, and when the movable piece is positioned at the second position, the spring is in a compressed state under the opposite abutting pressure of the second side part and the wall part; the second fixing piece is also provided with a first through hole which is arranged on the wall part, the movable piece and the cam toggle button are positioned on two opposite sides of the first through hole, and the connecting rod penetrates through the first through hole; the air compressor also comprises a clamping seat, the clamping seat is sleeved on the connecting rod, the second fixing piece is provided with a limiting groove, the limiting groove is communicated with the first through hole, the clamping seat is partially accommodated in the limiting groove, the connecting rod penetrates into the limiting groove through the first through hole, and when the movable piece is located at the second position, the cam part is pressed against the clamping seat towards the second fixing piece; the clamping seat is provided with a concave guide rail surface which is matched with the cam part.

6. The air compressor assembly of claim 5, wherein: the air compressor machine still is fixed to be equipped with first tubulose portion and the second tubulose portion that parallel interval set up mutually, and first mounting is fixed in first tubulose portion, and the second mounting is fixed in second tubulose portion.

7. The air compressor device according to claim 6, wherein: the pipe coiling device is fixedly provided with a third tubular part and a fourth tubular part which are arranged in parallel at intervals, when the pipe coiling device is positioned at the second position, the first fixing part correspondingly hooks the third tubular part, and the movable part correspondingly hooks the fourth tubular part.

8. The air compressor assembly of claim 3, wherein: the connecting rod comprises a rod part and a head part used for driving the movable part to move from a first position to a second position, the head part is located at one end of the rod part, the other end of the rod part is fixed on the pin shaft, an accommodating groove and a second through hole are formed in the second side part, the accommodating groove is located on one side, facing the first side part, of the second side part, the rod part penetrates into the second through hole through the accommodating groove, the radial cross section of the head part is larger than that of the second through hole, and the head part is limited in the accommodating groove.

9. The air compressor assembly of claim 8, wherein: the radial cross sections of the head part and the limiting groove are respectively polygonal, the limiting groove inhibits the head part from rotating, the rod part is perpendicular to the pin shaft, and the tail end of the rod part is in threaded connection with the pin shaft.

10. The air compressor device according to claim 1, wherein: the first fixing piece comprises a second base, a third side and a fourth side, wherein the third side and the fourth side are respectively connected to two opposite sides of the second base, the third side is located between the movable piece and the fourth side, the third side and the second base are in a suspension state, and when the movable piece is located at the second position, the third side hooks the pipe coiling device in a direction close to the fourth side.

11. The air compressor device according to claim 1, wherein: the movable piece and the first fixing piece are located on the top side of the air compressor, the pipe coiling device is arranged above the air compressor, and the movable piece and the first fixing piece respectively hook the bottom of the pipe coiling device.

12. The air compressor device according to claim 1, wherein: the first fixed part is fixed in position and is opposite to the movable part at intervals in the axial direction of the connecting rod.

13. The air compressor device according to claim 1, wherein: the movable piece comprises a first hook part used for stopping the pipe coiling device from being separated from the movable piece.

14. The air compressor device according to claim 13, wherein: the movable piece comprises a first side part, the first hook part is a part of the first side part, and when the pipe coiling device is installed on the air compressor and the movable piece is located at the second position, the pipe coiling device is pressed by the first side part in the direction close to the cam part.

15. The air compressor device according to claim 1, wherein: the first fixing piece comprises a second hook part for stopping the pipe coiling device from being separated from the first fixing piece.

16. The air compressor device according to claim 15, wherein: the first fixing piece comprises a third side portion, the second hook portion is a part of the third side portion, and when the pipe coiling device is installed on the air compressor and the movable piece is located at the second position, the pipe coiling device is hooked by the third side portion in the direction far away from the movable piece.

17. The air compressor device according to claim 1, wherein: one end of the connecting rod is connected with the movable piece, the other end of the connecting rod is connected with the pin shaft, and when the movable piece is located at the first position, the pipe coiling device can be detached from the movable piece.