CN114261691B

CN114261691B - Automatic processing equipment for double-layer automobile radiator

Info

Publication number: CN114261691B
Application number: CN202111652778.7A
Authority: CN
Inventors: 蒋春乐
Original assignee: Chongqing Shangfang Auto Parts Co ltd
Current assignee: Chongqing Shangfang Auto Parts Co ltd
Priority date: 2021-12-30
Filing date: 2021-12-30
Publication date: 2023-12-15
Anticipated expiration: 2041-12-30
Also published as: CN114261691A

Abstract

The invention discloses automatic processing equipment for a double-layer automobile radiator, which comprises flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device, the feeding device comprises a conveying belt which is horizontally arranged, the conveying belt is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device is provided with a guide plate which is obliquely arranged, the blanking end of the guide plate is provided with a conveying device which is obliquely arranged, the conveying device comprises a feeding belt which is obliquely arranged, the feeding belt is provided with a belt plate, the belt plate is provided with a belt trough, the width of the belt trough is equal to the width of the flat pipe, and the depth of the belt trough is equal to the thickness of the flat pipe; the discharging end of the material conveying device is provided with a material guiding structure. The automatic feeding device can automatically complete feeding operation of the flat tube, simultaneously complete automatic spacing operation of the flat tube, and has the advantages of high automation degree, stable and smooth operation and the like.

Description

Automatic processing equipment for double-layer automobile radiator

Technical Field

The invention relates to automatic processing equipment for a double-layer automobile radiator, and belongs to the technical field of automobile radiator production equipment.

Background

The radiator for car is composed of water inlet chamber, water outlet chamber and radiator core. The coolant flows inside the radiator core and the air passes outside the radiator. The hot coolant cools down due to heat dissipation to the air, and the cold air heats up due to the absorption of the heat dissipated by the coolant. When the radiator core is produced, the flat pipes of the radiator are required to be orderly arranged, and equal distances are reserved between the adjacent flat pipes so as to facilitate the subsequent communication between the flat pipes and the water inlet chamber and between the flat pipes and the water outlet chamber, and the existing flat pipe leading-in structure has the problems of complex structure, high cost and unstable operation.

Disclosure of Invention

The invention aims to provide automatic processing equipment for double-layer automobile radiators, which can automatically complete feeding operation of flat pipes and simultaneously complete automatic spacing operation of the flat pipes and has the advantages of high automation degree, stable and smooth operation and the like.

In order to solve the technical problems, the invention adopts the following technical scheme:

the automatic processing equipment for the double-layer automobile radiator comprises flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device, the feeding device comprises a conveying belt which is horizontally arranged, the conveying belt is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device is provided with a guide plate which is obliquely arranged, the blanking end of the guide plate is provided with a conveying device which is obliquely arranged, the conveying device comprises a feeding belt which is obliquely arranged, the feeding belt is provided with a belt plate, the belt plate is provided with a belt trough, the width of the belt trough is equal to the width of the flat pipe, and the depth of the belt trough is equal to the thickness of the flat pipe; the blanking end of the material conveying device is provided with a material guiding structure, the blanking end of the material guiding structure is provided with a material feeding structure, and the blanking end of the material feeding structure is provided with an automatic distance separating device.

In the automatic processing equipment of the double-layer automobile radiator, the material guiding structure comprises material guiding frames which are obliquely arranged, the number of the material guiding frames is two, the material guiding frames are positioned on two sides of the feeding belt, the material guiding frames are provided with material guiding grooves, one end of each flat pipe is positioned in one material guiding groove of one material guiding frame, and the other end of each flat pipe is positioned in the material guiding groove of the other material guiding frame.

In the automatic processing equipment for the double-layer automobile radiator, the feeding structure comprises a support frame, wherein a flat pipe groove is vertically arranged on the support frame, and a supporting plate is arranged at the lower end of the flat pipe groove; the support frame is provided with a stop block, the stop block is positioned on one side of the flat tube groove, the stop block is arranged on the support frame through an adjusting nut, and the position of the stop block can be adjusted through the adjusting nut.

In the automatic processing equipment for the double-layer automobile radiator, the feeding structure further comprises a material taking wheel and a limiting arc plate, wherein the material taking wheel is positioned below the flat pipe groove, a deflector rod is arranged on the material taking wheel, a deflector groove is formed in the deflector rod, and the depth of the deflector groove is equal to the thickness of the flat pipe; the limiting arc plate is arranged on the supporting frame, the inner cambered surface of the limiting arc plate is positioned on the outer side of the material taking wheel, and the inner side of the limiting arc plate and the flat tube groove jointly limit the moving path of the flat tube.

In the automatic processing equipment for the double-layer automobile radiator, the automatic spacing device comprises a cylindrical spacing structure body, wherein the spacing structure body is composed of a flat pipe leading-in section and a flat pipe spacing section which are connected, and the diameter of the flat pipe leading-in section is larger than that of the flat pipe spacing section; the flat pipe guide section is provided with a first spiral guide groove, and the flat pipe spacing section is provided with a second spiral guide groove; the first guide groove comprises a first limit groove and a first guide groove, the first limit groove is communicated with the first guide groove, the first limit groove is positioned on the inner side of the first guide groove, and the first guide groove is in a V shape; the second guide groove comprises a second limit groove and a second guide groove, the second limit groove is communicated with the second guide groove, the second limit groove is positioned at the inner side of the second guide groove, and the second guide groove is in a V shape; the groove bottom of the first limit groove and the groove bottom of the second limit groove are positioned on the same cylindrical side wall, and the depth of the first guide groove is larger than that of the second guide groove.

In the automatic processing equipment of the double-layer automobile radiator, the automatic distance separating device further comprises a second driving motor, the second driving motor is in transmission connection with the distance separating structure bodies, a sliding plate for bearing the flat tube is arranged between the two distance separating structure bodies, and the sliding plate is provided with two layers.

In the automatic processing equipment for the double-layer automobile radiator, the hose feeding equipment comprises a supporting frame, wherein a feeding groove is arranged on the supporting frame, a conveyor belt is arranged at the bottom of the feeding groove, and the conveyor belt is arranged on a conveying shaft; a driving motor is arranged on a supporting frame below the conveyor belt, a driving wheel is arranged on an output shaft of the driving motor, a driven wheel is arranged on a conveying shaft, and the driving wheel is connected with the driven wheel through the conveyor belt; the middle part of the side wall at one side of the feed chute is provided with a notch, a guide block is hinged at the notch, the guide block at the hinge position is positioned at the side wall at one side of the feed chute, and the distance between the guide block at the hinge position and the side wall at the other side of the feed chute is equal to the width of the feed chute; the storage bucket has been placed to the below of breach, and the middle part and the flexible cylinder of guide block are articulated, and flexible cylinder is installed on the support frame.

In the automatic processing equipment for the double-layer automobile radiator, one end of the telescopic cylinder is hinged to the suspension frame, the suspension frame is arranged on the support frame, and one end of the guide block is hinged to the suspension frame.

In the automatic processing equipment for the double-layer automobile radiator, the discharging end of the feeding groove is provided with the closing-in section, the width of the closing-in section is smaller than that of the feeding groove, and the width of the closing-in section is gradually reduced; one end of the closing-in section with smaller width is positioned in the feeding section, and the width of the feeding section is smaller than that of the feeding groove; the top of feed section articulates there is the striker plate, and the one end of striker plate articulates on the feed section, and the other end of striker plate extends to the exit of feed section, has the baffle on the striker plate, and the baffle is located the export top of feed section, baffle downward sloping.

Compared with the prior art, the automatic feeding device can automatically complete feeding operation of the flat tube, simultaneously complete automatic spacing operation of the flat tube, and has the advantages of high automation degree, stable and smooth operation and the like.

Drawings

FIG. 1 is a schematic diagram of the structure of an embodiment of the present invention;

FIG. 2 is a schematic structural view of an embodiment of a flat tube feeding apparatus;

FIG. 3 is an enlarged view of a portion of the flat tube loading apparatus;

FIG. 4 is an enlarged view of a portion of the flat tube loading apparatus;

FIG. 5 is an enlarged view of a portion of the flat tube loading apparatus;

FIG. 6 is a schematic structural view of another view of the flat tube feeding device;

FIG. 7 is a schematic view of the structure of the split-distance structure body;

FIG. 8 is a schematic view of the structure of an embodiment of the hose loading apparatus;

FIG. 9 is a schematic view of a hose loading apparatus from another perspective;

FIG. 10 is a schematic view of the structure of the feed section portion of the hose loading apparatus

Reference numerals: 1-first limit groove, 2-first guide groove, 3-first guide groove, 4-spacing structure body, 5-second guide groove, 6-second guide groove, 7-second limit groove, 8-flat pipe guide section, 9-flat pipe spacing section, 10-guide structure, 11-feeding device, 12-guide plate, 13-feeding device, 14-conveyor belt, 15-automatic spacing device, 16-guide frame, 17-guide groove, 18-adjusting nut, 19-stopper, 20-limit arc plate, 21-poking groove, 22-poking rod, 23-slide plate, 24-support frame, 25-flat pipe groove, 26-belt plate, 27-belt groove, 28-material taking wheel, 29-notch, 30-guide block, 31-suspension, 32-charging barrel, 33-feeding groove, 35-driving motor, 36-driving wheel, 37-driving belt, 38-driven wheel, 39-baffle plate, 40-feeding section, 41-closing section, 42-telescopic cylinder

The invention is further described below with reference to the drawings and the detailed description.

Detailed Description

Example 1 of the present invention: the automatic processing equipment for the double-layer automobile radiator comprises flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device 13, the feeding device 13 comprises a conveying belt 14 which is horizontally arranged, the conveying belt 14 is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device 13 is provided with a guide plate 12 which is obliquely arranged, the blanking end of the guide plate 12 is provided with a conveying device 11 which is obliquely arranged, the conveying device 11 comprises a feeding belt which is obliquely arranged, a belt plate 26 is arranged on the feeding belt, the belt plate 26 is provided with a belt groove 27, the width of the belt groove 27 is equal to the width of a flat pipe, and the depth of the belt groove 27 is equal to the thickness of the flat pipe; the discharging end of the material conveying device 11 is provided with a material guiding structure 10, the discharging end of the material guiding structure 10 is provided with a material feeding structure, and the discharging end of the material feeding structure is provided with an automatic distance separating device 15. The guide structure 10 comprises two guide frames 16 which are obliquely arranged, the guide frames 16 are positioned on two sides of the feeding belt, the guide frames 16 are provided with guide grooves 17, one end of each flat tube is positioned in the guide groove 17 of one guide frame 16, and the other end of each flat tube is positioned in the guide groove 17 of the other guide frame 16. The automatic distance separating device 15 further comprises a second driving motor, the second driving motor is in transmission connection with the distance separating structure bodies 4, a sliding plate 23 used for bearing flat tubes is arranged between the two distance separating structure bodies 4, and the sliding plate 23 is provided with two layers.

One end of the telescopic cylinder 42 is hinged on the suspension 31, the suspension 31 is mounted on the support frame, and one end of the guide block 30 is hinged on the suspension 31. The discharge end of the feed chute 33 is provided with a closing-up section 41, the width of the closing-up section 41 is smaller than that of the feed chute 33, and the width of the closing-up section 41 is gradually reduced; one end of the closing-in section 41 with smaller width is positioned in the feeding section 40, and the width of the feeding section 40 is smaller than that of the feeding groove 33; the upper part of the feeding section 40 is hinged with a baffle plate 39, one end of the baffle plate 39 is hinged on the feeding section 40, the other end of the baffle plate 39 extends to the outlet of the feeding section 40, the baffle plate 39 is provided with a baffle plate, the baffle plate is positioned above the outlet of the feeding section 40, and the baffle plate is inclined downwards.

Example 2: the automatic processing equipment for the double-layer automobile radiator comprises flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device 13, the feeding device 13 comprises a conveying belt 14 which is horizontally arranged, the conveying belt 14 is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device 13 is provided with a guide plate 12 which is obliquely arranged, the blanking end of the guide plate 12 is provided with a conveying device 11 which is obliquely arranged, the conveying device 11 comprises a feeding belt which is obliquely arranged, a belt plate 26 is arranged on the feeding belt, the belt plate 26 is provided with a belt groove 27, the width of the belt groove 27 is equal to the width of a flat pipe, and the depth of the belt groove 27 is equal to the thickness of the flat pipe; the discharging end of the material conveying device 11 is provided with a material guiding structure 10, the discharging end of the material guiding structure 10 is provided with a material feeding structure, and the discharging end of the material feeding structure is provided with an automatic distance separating device 15. The guide structure 10 comprises two guide frames 16 which are obliquely arranged, the guide frames 16 are positioned on two sides of the feeding belt, the guide frames 16 are provided with guide grooves 17, one end of each flat tube is positioned in the guide groove 17 of one guide frame 16, and the other end of each flat tube is positioned in the guide groove 17 of the other guide frame 16. The automatic distance separating device 15 further comprises a second driving motor, the second driving motor is in transmission connection with the distance separating structure bodies 4, a sliding plate 23 used for bearing flat tubes is arranged between the two distance separating structure bodies 4, and the sliding plate 23 is provided with two layers.

The feeding structure comprises a supporting frame 24, wherein a flat pipe groove 25 is vertically arranged on the supporting frame 24, and a supporting plate is arranged at the lower end of the flat pipe groove 25; the support frame 24 is provided with the stop block 19, the stop block 19 is positioned on one side of the flat tube groove 25, the stop block 19 is arranged on the support frame 24 through the adjusting nut 18, and the position of the stop block 19 can be adjusted through the adjusting nut 18. The feeding structure further comprises a material taking wheel 28 and a limiting arc plate 20, wherein the material taking wheel 28 is positioned below the flat tube groove 25, the material taking wheel 28 is provided with a deflector rod 22, the deflector rod 22 is provided with a deflector groove 21, and the depth of the deflector groove 21 is equal to the thickness of the flat tube; the limiting arc plate 20 is installed on the supporting frame 24, the inner arc surface of the limiting arc plate 20 is located on the outer side of the material taking wheel 28, and the inner side of the limiting arc plate 20 and the flat tube groove 25 jointly limit the moving path of the flat tube.

Example 3: the automatic processing equipment for the double-layer automobile radiator comprises flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device 13, the feeding device 13 comprises a conveying belt 14 which is horizontally arranged, the conveying belt 14 is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device 13 is provided with a guide plate 12 which is obliquely arranged, the blanking end of the guide plate 12 is provided with a conveying device 11 which is obliquely arranged, the conveying device 11 comprises a feeding belt which is obliquely arranged, a belt plate 26 is arranged on the feeding belt, the belt plate 26 is provided with a belt groove 27, the width of the belt groove 27 is equal to the width of a flat pipe, and the depth of the belt groove 27 is equal to the thickness of the flat pipe; the discharging end of the material conveying device 11 is provided with a material guiding structure 10, the discharging end of the material guiding structure 10 is provided with a material feeding structure, and the discharging end of the material feeding structure is provided with an automatic distance separating device 15. The guide structure 10 comprises two guide frames 16 which are obliquely arranged, the guide frames 16 are positioned on two sides of the feeding belt, the guide frames 16 are provided with guide grooves 17, one end of each flat tube is positioned in the guide groove 17 of one guide frame 16, and the other end of each flat tube is positioned in the guide groove 17 of the other guide frame 16. The automatic distance separating device 15 further comprises a second driving motor, the second driving motor is in transmission connection with the distance separating structure bodies 4, a sliding plate 23 used for bearing flat tubes is arranged between the two distance separating structure bodies 4, and the sliding plate 23 is provided with two layers.

The automatic spacing device 15 comprises a cylindrical spacing structure body 4, wherein the spacing structure body 4 is composed of a flat pipe leading-in section 8 and a flat pipe spacing section 9 which are connected, and the diameter of the flat pipe leading-in section 8 is larger than that of the flat pipe spacing section 9; the flat pipe guide section 8 is provided with a spiral first guide chute 3, and the flat pipe spacing section 9 is provided with a spiral second guide chute 5; the first guide groove 3 comprises a first limit groove 1 and a first guide groove 2, the first limit groove 1 is communicated with the first guide groove 2, the first limit groove 1 is positioned on the inner side of the first guide groove 2, and the first guide groove 2 is in a V shape; the second guide groove 5 comprises a second limit groove 7 and a second guide groove 6, the second limit groove 7 is communicated with the second guide groove 6, the second limit groove 7 is positioned on the inner side of the second guide groove 6, and the second guide groove 6 is in a V shape; the groove bottom of the first limit groove 1 and the groove bottom of the second limit groove 7 are positioned on the same cylindrical side wall, and the depth of the first guide groove 2 is larger than that of the second guide groove 6.

The flat tube feeding equipment comprises a supporting frame, wherein a feeding chute 33 is arranged on the supporting frame, a conveyor belt is arranged at the bottom of the feeding chute 33, and the conveyor belt is arranged on a conveying shaft; a driving motor 35 is arranged on a supporting frame below the conveyor belt, a driving wheel 36 is arranged on an output shaft of the driving motor 35, a driven wheel 38 is arranged on the conveyor shaft, and the driving wheel 36 and the driven wheel 38 are connected through a conveyor belt 37; the middle part of one side wall of the feed chute 33 is provided with a notch 29, a guide block 30 is hinged at the notch 29, the guide block 30 at the hinge is positioned at the side wall of one side of the feed chute 33, and the distance between the guide block 30 at the hinge and the side wall of the other side of the feed chute 33 is equal to the width of the feed chute 33; the storage bucket 32 is placed to the below of breach 29, and the middle part and the flexible cylinder 42 of guide block 30 are articulated, and flexible cylinder 42 installs on the support frame.

Working principle of embodiment 3 of the present invention: working principle of flat pipe feeding equipment: firstly, a plurality of flat pipes are placed in a trough, a feeding device 13 at the bottom of the trough guides the flat pipes to a guide plate 12, and the flat pipes positioned on the guide plate 12 are guided to a conveying device 11 under the action of self gravity. The flat pipes are driven to move upwards by the strip plates 26 on the material conveying device 11 through the strip grooves 27, and as the strip grooves 27 are evenly spaced and have the width and the depth corresponding to the width and the thickness of the flat pipes, one strip groove 27 only carries one flat pipe and carries the flat pipe to move upwards at a constant speed. The flat pipe is conveyed into the material carrying groove 27 of the material guiding structure 10 under the driving of the material conveying device 11, and slides downwards along the material carrying groove 27 under the action of self gravity in the material carrying groove 27. If the belt trough 27 is not provided, the flat pipe can fall in a free falling form, which is disadvantageous for the subsequent process. The flat pipe falls into the guide chute 17 under the limit of the material carrying groove 27, a gap is reserved between the supporting plate at the bottom of the guide chute 17 and the stop block 19, and the flat pipe at the bottom of the guide chute 17 is driven by the poking groove 21 of the poking rod 22 to be carried to the branch office structure body 4 through the poking groove 21. The size of the gap can be adjusted through the adjusting nut 18, so that flat pipes with different specifications can be adapted, if the gap is too small, the flat pipes can not slide out, and if the gap is too large, the flat pipes can slide out at a time. After the flat pipe falls down, the two ends of the flat pipe respectively fall into the first guide chute 3, and the flat pipe can fall into the first guide chute 3 more stably due to the fact that the width of the first guide chute 2 of the first guide chute 3 is larger. The automatic distance separating structures on two sides of the conveyor belt synchronously rotate, under the interaction of the automatic distance separating structures and the conveyor belt, the flat pipes are pushed to the second guide grooves 5 by the first guide grooves 3, and the distances between two adjacent second guide grooves 5 are equal, so that the distance between the flat pipes is kept at a specified distance. After the branch office structure body 4 rotates to a specified angle, the fallen flat pipe does not interfere with the branch office structure body 4, so that the sliding plate 23 directly falls on the lower layer, and the branch office structure body 4 continuously acts on the flat pipe after rotating for a certain angle; the flat pipes in other conditions can fall on the branch office structural body 4, and the branch office structural body 4 directly acts on the flat pipes, so that two rows of flat pipes with equal intervals are formed.

Working principle of hose feeding equipment: the hose is guided downstream by the conveyor belt under the drive of the drive motor 7, the conveyor belt 9, the driving wheel 8 and the driven wheel. When the supply of the soft hose to the downstream equipment is required to be stopped, the telescopic cylinder 14 is controlled to drive the guide block 2, so that the guide block 2 stretches into the feed chute 5, and the soft hose in the feed chute 5 is guided to the charging basket 4. When it is necessary to continue to provide the hose for the radiator production equipment of the automobile, the telescopic cylinder 14 is controlled to drive the guide block 2, so that the guide block 2 is not obstructed any more, and the hose can be continuously supplied to downstream equipment. The discharge port of the feeding section 12 is located above the downstream equipment, for this reason, a baffle 11 is disposed at the discharge port of the feeding section 12, so that the path of the hose in the falling process is changed, the hose can fall between two flat pipes more accurately, then the positioned flat pipes and the hose are moved downstream by the subsequent equipment, and then the hose is fixed after a sealing plate is installed around.

Claims

1. The automatic processing equipment for the double-layer automobile radiator is characterized by comprising flat pipe feeding equipment and hose feeding equipment, wherein the flat pipe feeding equipment is positioned at the downstream of the hose feeding equipment and comprises a trough, the bottom of the trough is provided with a feeding device (13), the feeding device (13) comprises a conveying belt (14) which is horizontally arranged, the conveying belt (14) is arranged on a conveying shaft, and the conveying shaft is in transmission connection with a first driving motor; the blanking end of the feeding device (13) is provided with a guide plate (12) which is obliquely arranged, the blanking end of the guide plate (12) is provided with a conveying device (11) which is obliquely arranged, the conveying device (11) comprises a feeding belt which is obliquely arranged, a belt plate (26) is arranged on the feeding belt, the belt plate (26) is provided with a belt groove (27), the width of the belt groove (27) is equal to the width of the flat pipe, and the depth of the belt groove (27) is equal to the thickness of the flat pipe; the blanking end of the material conveying device (11) is provided with a material guiding structure (10), the blanking end of the material guiding structure (10) is provided with a material feeding structure, and the blanking end of the material feeding structure is provided with an automatic distance separating device (15);

the feeding structure comprises a supporting frame (24), wherein a flat pipe groove (25) is vertically arranged on the supporting frame (24), and a supporting plate is arranged at the lower end of the flat pipe groove (25); a stop block (19) is arranged on the support frame (24), the stop block (19) is positioned on one side of the flat pipe groove (25), the stop block (19) is arranged on the support frame (24) through an adjusting nut (18), and the position of the stop block (19) can be adjusted through the adjusting nut (18);

the feeding structure further comprises a material taking wheel (28) and a limiting arc plate (20), wherein the material taking wheel (28) is positioned below the flat tube groove (25), a deflector rod (22) is arranged on the material taking wheel (28), a deflector groove (21) is arranged on the deflector rod (22), and the depth of the deflector groove (21) is equal to the thickness of the flat tube; the limiting arc plate (20) is arranged on the supporting frame (24), the inner cambered surface of the limiting arc plate (20) is positioned at the outer side of the material taking wheel (28), and the inner side of the limiting arc plate (20) and the flat tube groove (25) jointly limit the moving path of the flat tube;

the automatic spacing device (15) comprises a cylindrical spacing structure body (4), wherein the spacing structure body (4) is composed of a flat pipe leading-in section (8) and a flat pipe spacing section (9) which are connected, and the diameter of the flat pipe leading-in section (8) is larger than that of the flat pipe spacing section (9); the flat pipe guide section (8) is provided with a first spiral guide groove (3), and the flat pipe spacing section (9) is provided with a second spiral guide groove (5); the first guide groove (3) comprises a first limit groove (1) and a first guide groove (2), the first limit groove (1) is communicated with the first guide groove (2), the first limit groove (1) is positioned on the inner side of the first guide groove (2), and the first guide groove (2) is in a V shape; the second guide groove (5) comprises a second limit groove (7) and a second guide groove (6), the second limit groove (7) is communicated with the second guide groove (6), the second limit groove (7) is positioned at the inner side of the second guide groove (6), and the second guide groove (6) is in a V shape; the groove bottom of the first limit groove (1) and the groove bottom of the second limit groove (7) are positioned on the same cylindrical side wall, and the depth of the first guide groove (2) is larger than that of the second guide groove (6);

the flat tube feeding equipment comprises a supporting frame, wherein a feeding groove (33) is arranged on the supporting frame, a conveyor belt is arranged at the bottom of the feeding groove (33), and the conveyor belt is arranged on a conveying shaft; a driving motor (35) is arranged on a supporting frame below the conveyor belt, a driving wheel (36) is arranged on an output shaft of the driving motor (35), a driven wheel (38) is arranged on the conveyor shaft, and the driving wheel (36) is connected with the driven wheel (38) through a conveyor belt (37); the middle part of one side wall of the feed chute (33) is provided with a notch (29), a guide block (30) is hinged at the notch (29), the guide block (30) at the hinge is positioned on the side wall of one side of the feed chute (33), and the distance between the guide block (30) at the hinge and the side wall of the other side of the feed chute (33) is equal to the width of the feed chute (33); the charging basket (32) is placed below the notch (29), the middle part of the guide block (30) is hinged with the telescopic cylinder (42), and the telescopic cylinder (42) is arranged on the supporting frame.

2. The automatic processing device for the double-layer automobile radiator according to claim 1, wherein the material guiding structure (10) comprises two material guiding frames (16) which are obliquely arranged, the material guiding frames (16) are arranged on two sides of a feeding belt, the material guiding frames (16) are provided with material guiding grooves (17), one end of each flat pipe is arranged in the material guiding groove (17) of one material guiding frame (16), and the other end of each flat pipe is arranged in the material guiding groove (17) of the other material guiding frame (16).

3. The automatic double-layer automobile radiator machining equipment according to claim 1, wherein the automatic distance separating device (15) further comprises a second driving motor, the second driving motor is in transmission connection with the distance separating structure bodies (4), a sliding plate (23) for bearing flat pipes is arranged between the two distance separating structure bodies (4), and the sliding plate (23) is provided with two layers.

4. The automatic double-layer automobile radiator machining device according to claim 1, wherein one end of the telescopic cylinder (42) is hinged to the suspension (31), the suspension (31) is mounted on a supporting frame, and one end of the guide block (30) is hinged to the suspension (31).

5. The automatic processing device for the double-layer automobile radiator according to claim 1, wherein the discharging end of the feeding groove (33) is provided with a closing-in section (41), the width of the closing-in section (41) is smaller than that of the feeding groove (33), and the width of the closing-in section (41) is gradually reduced; one end of the closing-in section (41) with smaller width is positioned in the feeding section (40), and the width of the feeding section (40) is smaller than that of the feeding groove (33); the upper portion of the feeding section (40) is hinged with a baffle plate (39), one end of the baffle plate (39) is hinged to the feeding section (40), the other end of the baffle plate (39) extends to the outlet of the feeding section (40), the baffle plate (39) is provided with a baffle plate, the baffle plate is located above the outlet of the feeding section (40), and the baffle plate is inclined downwards.