CN111283262A - Efficient and automatic production line for condenser - Google Patents

Abstract

The invention relates to a high-efficiency automatic production line of a condenser, which comprises an assembly table body, wherein a reversing conveying rotating shaft is erected at the upper part of the front end of the assembly table body, storage strip grooves are uniformly formed in the cylindrical surface of the reversing conveying rotating shaft, displacement screw shafts are arranged on the two sides of the reversing conveying rotating shaft on the upper end surface of the assembly table body, an anti-jumping mechanism is arranged on one side of the rear end part of each displacement screw shaft, a fin input cutting mechanism is arranged on the other side of the rear end part of each displacement screw shaft, a guide protective edge is arranged on the rear part of each displacement screw shaft on the upper end surface of the assembly table body, a tabletting mechanism is arranged between the two guide protective edges, and a. The invention can realize the automatic uniform arrangement of the flat tubes of the condenser and the automatic filling of the radiating fins, and tightly assemble the flat tubes and the radiating fins, thereby replacing the prior manual assembly mode of the condenser core, improving the assembly efficiency of the condenser core, and ensuring the stable quality of the assembled flat tubes and the radiating fins.

Description

Efficient and automatic production line for condenser

Technical Field

The invention relates to the technical field of automobile condenser assembling equipment, in particular to a high-efficiency automatic production line for condensers.

Background

The condenser is one of four necessary parts of an automobile air-conditioning system, and has the function of releasing heat of high-temperature and high-pressure superheated refrigerant steam discharged by a compressor to air outside the condenser through a metal pipe wall and fins, so that the superheated gaseous refrigerant is condensed into high-pressure liquid.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a high-efficiency automatic production line of a condenser, which can realize automatic uniform arrangement of flat tubes of the condenser and automatic filling of radiating fins, and tightly assemble the flat tubes and the radiating fins, replaces the traditional mode of manually assembling a condenser core, improves the assembling efficiency of the condenser core, and ensures that the assembled flat tubes and the radiating fins have stable quality.

The invention is realized by the following technical scheme: a high-efficiency automatic production line of a condenser comprises an assembly table body, wherein a reversing conveying rotating shaft is erected on the upper portion of the front end of the assembly table body, storage strip grooves are uniformly formed in the cylindrical surface of the reversing conveying rotating shaft, a storage plate frame is fixed right above the conveying rotating shaft, flat tubes are stacked in the storage plate frame, displacement screw shafts are arranged on two sides of the reversing conveying rotating shaft on the upper end surface of the assembly table body, a driving chain wheel is arranged at the front end portion of each displacement screw shaft, a rotary driving motor I in driving connection with the driving chain wheel is arranged on the assembly table body, a jumping prevention mechanism is arranged on one side of the rear end portion of each displacement screw shaft, a fin input cutting mechanism is arranged on the other side of the rear end portion of each displacement screw shaft, a guide guard edge is arranged on the rear portion of each assembly table body, a pressing mechanism is arranged between the two guide guard edges, and the equipment table body leans on back side both sides to set up parallel guide, sliding connection carriage on the parallel guide, the fixed press cylinder in carriage top portion, press cylinder piston rod passes the carriage top and at the fixed plate of pressing of pole tip.

Furthermore, the rear end of the assembly table body is fixed with a stop bar.

Furthermore, arc-shaped stop blocks are arranged on the surface of the front side of the reversing conveying rotating shaft close to the two ends, and one shaft end part of the reversing conveying rotating shaft and the rotary driving motor II are arranged.

Further, deposit fixed locking cylinder in frame lower extreme delivery side limit portion, the fixed locking piece of locking cylinder piston rod end.

Furthermore, the anti-bouncing mechanism comprises a lifting driving cylinder I fixed on the side end face of the assembly table body, a piston rod of the lifting driving cylinder I is connected with the fin pressing strip, and the fin pressing strip is located in a gap between the flat pipes.

Further, fin input cuts mechanism is including fixing the conveyer trough plate on gap upper portion between flat pipe, conveyer trough plate input end sets up fin input storage area, and the board inslot of conveyer trough plate sets up the fin and leads and send the gear, set up the fin conveying motor that the drive fin led and send the gear operation on the face of conveyer trough plate outside, and the conveyer trough plate is close to fixed cylinder that cuts on the outside face of output notch, cut cylinder piston rod tip for cutting the sharp sword, and cut the sharp sword and cross the conveyer trough plate.

Furthermore, the tabletting mechanism comprises a tabletting plate pressed on the surface of the flat tube, the lower surfaces of the two side ends of the tabletting plate are fixedly provided with a lifting guide rod, the lifting guide rod is movably connected with a guide sleeve in a penetrating manner, the guide sleeve is fixedly arranged on the outer end surfaces of the two sides of the assembled table body, and the lifting guide rod on one side is fixedly connected with a piston rod of the lifting driving cylinder II.

Further, jacking push mechanism is including fixing displacement propelling movement lath and the parallel guide on the assembly table body, displacement propelling movement lath and parallel guide sliding connection, and set up the displacement propelling movement cylinder of being connected with displacement propelling movement lath drive on the assembly table body, assembly table body up end both sides set up the jacking cylinder, the fixed lift ejector pad of jacking cylinder piston rod.

Furthermore, a horizontal displacement cylinder is fixed on the outer end face of the assembled table body, and a piston rod of the horizontal displacement cylinder is fixedly connected with the sliding frame.

Compared with the prior art, the invention has the beneficial effects that: the main body of the device comprises a flat tube input part structure arranged on an assembly table body, a fin input cutting mechanism and an anti-jumping mechanism of radiating fins, a tabletting mechanism, a jacking pushing mechanism and a pressing structure part on the upper surface, wherein the flat tubes are uniformly distributed and input one by the flat tube input part structure, the radiating fins are conveyed to gaps between adjacent flat tubes by the fin input cutting mechanism and are pressed on the surfaces of the radiating fins by the anti-jumping mechanism, the phenomenon that the radiating fins jump out of the gaps in the conveying process is prevented, the tabletting mechanism is pressed on the surfaces of the flat tubes to prevent scattered frames and jumping in the displacement process of the flat tubes and the radiating fins, then the jacking pushing mechanism pushes the radiating fins between the flat tubes and the flat tubes to the rear side end of the assembly table body for compressing and combining, and the pressing structure presses the upper end surface of a combined component to prevent jumping, the automatic uniform arrangement of the flat tubes of the condenser and the automatic filling of the radiating fins are realized, the flat tubes and the radiating fins are tightly pressed and assembled, the assembling mode of the condenser core body manually in the prior art is replaced, the assembling efficiency of the condenser core body is improved, and the assembled flat tubes and the assembled radiating fins are stable in quality.

Drawings

FIG. 1 is a side view of an efficient and automatic production line for condensers according to the present invention;

FIG. 2 is a top view of an efficient and automatic production line of the condenser of the present invention;

FIG. 3 is a schematic view of the locking portion of the storage panel frame of the present invention;

FIG. 4 is a schematic structural view of the anti-bounce mechanism of the present invention;

FIG. 5 is a schematic structural view of a jacking and pushing mechanism according to the present invention;

FIG. 6 is a schematic view of the mounting structure of the displacement pushing strip of the jacking pushing mechanism of the present invention;

FIG. 7 is a schematic structural view of a fin input cutting mechanism according to the present invention;

FIG. 8 is a top view of the sheeting mechanism of the present invention;

fig. 9 is a front view of the sheeting mechanism of the present invention.

Wherein: 1. assembling a table body; 2. an anti-bounce mechanism; 3. a tablet pressing mechanism; 4. a jacking pushing mechanism; 5. inputting the fins into a cutting mechanism; 6. a reversing conveying rotating shaft; 7. a rotary driving motor II; 8. a storage strip groove; 9. storing the plate frame; 10. flat tubes; 11. locking the air cylinder; 12. a circular arc-shaped stop block; 13. a displacement screw shaft; 14. driving the chain wheel; 15. a rotary driving motor I; 16. guiding and protecting edges; 17. parallel guide rails; 18. a carriage; 19. a pressing cylinder; 20. pressing the plate block; 21. a horizontal displacement cylinder; 22. a locking block; 23. stopping the position stop strip; 201. fin pressing strips; 202. a lifting driving cylinder I; 301. a pressing plate; 302. a lifting driving cylinder II; 303. a lifting guide rod; 304. a guide sleeve; 401. a displacement push cylinder; 402. parallel guide rails; 403. displacing the push slats; 404. jacking a cylinder; 405. lifting the push block; 501. conveying trough plates; 502. a fin input storage area; 503. a fin conveying motor; 504. a fin guide gear; 505. a cutting cylinder; 506. and cutting the sharp edge.

Detailed Description

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

As shown in fig. 1 and 2, the invention relates to a high-efficiency automatic production line of a condenser, which comprises an assembly table body 1, wherein a reversing conveying rotating shaft 6 is erected at the upper part of the front side end of the assembly table body 1, storage grooves 8 are uniformly arranged on the cylindrical surface of the reversing conveying rotating shaft 6, a storage plate frame 9 is fixed right above the conveying rotating shaft 6, flat tubes 10 are stacked in the storage plate frame 9, displacement screw shafts 13 are arranged on the two sides of the reversing conveying rotating shaft 6 on the upper end surface of the assembly table body 1, a driving chain wheel 14 is arranged at the front end part of the displacement screw shafts 13, a rotary driving motor i 15 in driving connection with the driving chain wheel 14 is arranged on the assembly table body 1, parallel guide rails 17 are arranged on the two sides of the back side end of the assembly table body 1, a sliding frame 18 is connected on the parallel guide rails 17 in a sliding manner, a pressing cylinder 19 is fixed at the top end part of the sliding frame, the fixed stop blend stop 23 of end of assembly table body 1 rear side, fixed horizontal displacement cylinder 21 on the end face of assembly table body 1 outside, horizontal displacement cylinder 21 piston rod and carriage 18 fixed connection, the switching-over is carried the pivot 6 front side surface and is leaned on both ends and set up convex stop block 12, and the switching-over is carried pivot 6 one end and rotary driving motor II 7.

As shown in fig. 1 and 2, a jump prevention mechanism 2 is arranged on one side of the rear end of the displacement screw shaft 13, a fin input cutting mechanism 5 is arranged on the other side of the rear end of the displacement screw shaft 13, a guide protective edge 16 is arranged on the rear portion of the displacement screw shaft 13 on the upper end surface of the assembly table body 1, a pressing mechanism 3 is arranged between the two guide protective edges 16, and a jacking pushing mechanism 4 is arranged on the lower portion of the guide protective edge 16 of the assembly table body 1.

As shown in fig. 3, the side edge part of the output port at the lower end of the storage plate frame 9 is fixedly provided with a locking cylinder 11, and a piston rod end of the locking cylinder 11 is fixedly provided with a locking block 22.

As shown in fig. 4, the anti-jumping mechanism 2 includes a lifting driving cylinder i 202 fixed on the side end face of the assembly table 1, a piston rod of the lifting driving cylinder i 202 is connected with the fin pressing strips 201, and the fin pressing strips 201 are located in the gaps between the flat tubes 10.

As shown in fig. 7, the fin input cutting mechanism 5 includes a conveying trough plate 501 fixed on the upper portion of the gap between the flat tubes 10, the input end of the conveying trough plate 501 is provided with a fin input storage area 502, a fin guiding gear 504 is arranged in the plate groove of the conveying trough plate 501, a fin conveying motor 503 for driving the fin guiding gear 504 to operate is arranged on the outer plate surface of the conveying trough plate 501, a cutting cylinder 505 is fixed on the outer plate surface of the conveying trough plate 501 close to the output slot opening, the end of the piston rod of the cutting cylinder 505 is a cutting tip 506, and the cutting tip 506 traverses the conveying trough plate 501.

As shown in fig. 8 and 9, the sheeting mechanism 3 includes a sheeting plate 301 pressed on the surface of the flat tube 10, the lower surfaces of both sides of the sheeting plate 301 are fixed with lifting guide rods 303, the lifting guide rods 303 are movably connected with guide sleeves 304 in a penetrating manner, the guide sleeves 304 are fixed on the outer end surfaces of both sides of the assembled table body 1, and the lifting guide rods 303 on one side are fixedly connected with the piston rod of the lifting driving cylinder ii 302.

As shown in fig. 5 and 6, the jacking pushing mechanism 4 includes a displacement pushing lath 403 and a parallel guide rail 402 fixed on the assembly table body 1, the displacement pushing lath 403 is slidably connected with the parallel guide rail 402, a displacement pushing cylinder 401 connected with the displacement pushing lath 403 in a driving manner is arranged on the assembly table body 1, jacking cylinders 404 are arranged on two sides of the upper end surface of the assembly table body 1, and a lifting push block 405 is fixed on a piston rod of the jacking cylinder 404.

Example 1

When the device works, a plurality of flat tubes 10 are stacked in a storage plate frame 9, a locking cylinder 11 on the end face of an output port side of the storage plate frame 9 drives a locking block 22 to leave from the surface of the flat tube 10 on the output port, so that the flat tubes 10 fall into a storage groove 8 on the surface of a reversing conveying rotating shaft 6 under the action of gravity, then the reversing conveying rotating shaft 6 is driven to rotate by a rotary driving motor II 7, the flat tubes 10 are rotationally and reversely transferred to the upper end face of an assembly table body 1, two side ends of the flat tubes 10 are just clamped into spiral grooves of a displacement spiral shaft 13, wherein the displacement spiral shaft 13 is driven to rotate by a rotary driving motor I15 through a chain wheel chain, so that the flat tubes 10 are driven to move forwards along the displacement spiral shaft 13, a fin conveying motor 503 of a fin input cutting mechanism 5 drives a fin guide gear 504 to rotate, and the rotary fin guide gear 504 guides radiating fins input into a storage area 502 into a conveying groove plate 501, the heat dissipation fins are conveyed from the notches to gaps between adjacent flat tubes 10 along a conveying groove plate 501 for filling, a lifting driving cylinder I202 of an anti-jumping mechanism 2 drives a fin pressing plate strip 201 to descend to the gaps between the flat tubes 10, so that the heat dissipation fins in conveying are limited in space to prevent jumping out of the gaps, after the heat dissipation fins are filled in the gaps, a cutting cylinder 505 drives a cutting sharp edge 506 to cut the heat dissipation fins, a lifting driving cylinder II 302 of a tabletting mechanism 3 drives a pressing plate 301 to press the upper surface of the flat tubes 10 filled with the heat dissipation fins, then a jacking cylinder 404 of a jacking pushing mechanism 4 drives a lifting pushing block 405 to lift up to abut against one side of the lower end of the flat tubes 10, and then a displacement pushing cylinder 401 drives a displacement pushing plate strip 403 to slide along a parallel guide rail 402, so that the lifting pushing block 405 pushes the flat tubes 10 and the heat dissipation fins between the gaps of the flat tubes 10 to move forwards and press against a stop blocking strip 23, the jacking pushing mechanism 4 repeats the actions to press and assemble the flat tubes 10 and the radiating fins, the horizontal displacement cylinder 21 drives the sliding frame 18 to move to the upper parts of the pressed flat tubes 10 and the radiating fins along the parallel guide rails 17, then the pressing cylinder 19 on the sliding frame 18 drives the pressing plate block 20 to move downwards and press the surfaces of the assembled flat tubes 10 and the radiating fins, automatic uniform arrangement of the flat tubes 10 of the condenser and automatic filling of the radiating fins are achieved, the flat tubes and the radiating fins are pressed and assembled tightly, the traditional manual assembling mode of the condenser core is replaced, the assembling efficiency of the condenser core is improved, and the quality of the assembled flat tubes and the assembled radiating fins is stable.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A high-efficient automatic production line of condenser comprises an assembly table body (1) and is characterized in that a reversing conveying rotating shaft (6) is erected on the upper portion of the front end of the assembly table body (1), storage strip grooves (8) are uniformly formed in the cylindrical surface of the reversing conveying rotating shaft (6), a storage plate frame (9) is fixed right above the conveying rotating shaft (6), flat tubes (10) are stacked in the storage plate frame (9), displacement screw shafts (13) are arranged on two sides of the reversing conveying rotating shaft (6) on the upper end face of the assembly table body (1), a driving chain wheel (14) is arranged at the front end portion of the displacement screw shaft (13), a rotary driving motor I (15) in driving connection with the driving chain wheel (14) is arranged on the assembly table body (1), a bounce preventing mechanism (2) is arranged on one side of the rear end portion of the displacement screw shaft (13), and a fin input cutting mechanism (5) is arranged on the other side of, the assembly table is characterized in that a guide protective edge (16) is arranged at the rear part of a displacement screw shaft (13) on the upper end face of the assembly table body (1), a tabletting mechanism (3) is arranged between the two guide protective edges (16), the assembly table body (1) is provided with a jacking pushing mechanism (4) at the lower part of the guide protective edge (16), and the assembly table body (1) is provided with parallel guide rails (17) at two sides of the rear end, a sliding connection sliding frame (18) is arranged on the parallel guide rails (17), a pressing cylinder (19) is fixed at the top end part of the sliding frame (18), and a piston rod of the pressing cylinder (19) penetrates through the top end of the sliding frame (18) and is fixed at the end.

2. The high-efficiency automatic production line for condensers according to claim 1, wherein the rear end of the assembly table body (1) is fixed with a stop bar (23).

3. The efficient and automatic production line for condensers as claimed in claim 1, wherein circular-arc-shaped stop blocks (12) are arranged at two ends of the front side surface of the reversing conveying rotating shaft (6), and one shaft end part of the reversing conveying rotating shaft (6) is connected with the rotating driving motor II (7).

4. The efficient and automatic production line of condensers as claimed in claim 1, wherein the storage plate frame (9) is provided with a fixed locking cylinder (11) at the side of the lower outlet port, and the locking cylinder (11) is provided with a fixed locking block (22) at the piston rod end.

5. The efficient and automatic production line of the condensers as claimed in claim 1, wherein the anti-jumping mechanism (2) comprises a lifting driving cylinder I (202) fixed on the side end face of the assembly table body (1), a piston rod of the lifting driving cylinder I (202) is connected with the fin pressing strips (201), and the fin pressing strips (201) are located in gaps among the flat tubes (10).

6. The efficient automatic production line of the condensers as claimed in claim 1, wherein the fin input cutting mechanism (5) comprises a conveying trough plate (501) fixed to the upper portion of a gap between flat pipes (10), the input end of the conveying trough plate (501) is provided with a fin input storage area (502), a fin guide gear (504) is arranged in a plate groove of the conveying trough plate (501), a fin conveying motor (503) for driving the fin guide gear (504) to operate is arranged on the outer side plate surface of the conveying trough plate (501), a cutting cylinder (505) is fixed to the outer side plate surface of the conveying trough plate (501) close to the output notch, the end of a piston rod of the cutting cylinder (505) is a cutting sharp edge (506), and the cutting sharp edge (506) traverses the conveying trough plate (501).

7. The efficient automatic production line of the condenser as claimed in claim 1, wherein the sheeting mechanism (3) comprises a sheeting plate (301) pressed on the surface of the flat tube (10), the lower surfaces of the two side ends of the sheeting plate (301) are fixed with lifting guide rods (303), the lifting guide rods (303) are movably connected with guide sleeves (304) in a penetrating manner, the guide sleeves (304) are fixed on the outer end surfaces of the two sides of the assembly table body (1), and the lifting guide rods (303) on one side are fixedly connected with the piston rod of the lifting driving cylinder ii (302).

8. The efficient automatic production line for condensers is characterized in that the jacking pushing mechanism (4) comprises a displacement pushing lath (403) and a parallel guide rail (402) which are fixed on the assembly table body (1), the displacement pushing lath (403) is in sliding connection with the parallel guide rail (402), a displacement pushing cylinder (401) in driving connection with the displacement pushing lath (403) is arranged on the assembly table body (1), jacking cylinders (404) are arranged on two sides of the upper end face of the assembly table body (1), and a lifting push block (405) is fixed on a piston rod of each jacking cylinder (404).

9. The efficient and automatic production line for condensers as recited in claim 1, wherein a horizontal displacement cylinder (21) is fixed on an outer end surface of the assembly table body (1), and a piston rod of the horizontal displacement cylinder (21) is fixedly connected with the sliding frame (18).

Images