CN114833668A

CN114833668A - Hydrogen energy automobile cooling pipeline processing device

Info

Publication number: CN114833668A
Application number: CN202210441494.1A
Authority: CN
Inventors: 王建坡; 郑子壮; 周为平
Original assignee: Shanghai Zunma Auto Pipe Co ltd
Current assignee: Shanghai Zunma Auto Pipe Co ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-08-02

Abstract

The invention discloses a hydrogen energy automobile cooling pipeline processing device, which comprises a machine body, wherein a lifting port is formed above the machine body, fixed-length conveying assemblies are symmetrically arranged at two ends of the lifting port on the machine body, polishing assemblies are arranged at one end of the machine body, a bending assembly is arranged at the other end of the machine body, a cutting assembly and an end part polishing assembly are arranged below the lifting port in the machine body, supporting blocks are symmetrically arranged on the machine body and between the fixed-length conveying assemblies and the bending assemblies, limiting telescopic rods are symmetrically arranged on the supporting blocks, limiting blocks are arranged at the extending ends of the two limiting telescopic rods, a limiting groove is formed in one side of each limiting block, the positions with uneven and unsmooth surfaces of cooling pipes can be polished through the polishing assemblies, and the influence of external raised particles or raised blocks on the cooling pipeline in the subsequent bending process is avoided, leading to the cooling tube being unqualified during the bending process.

Description

Hydrogen energy automobile cooling pipeline processing device

Technical Field

The invention relates to the technical field of machining of automobile cooling pipes, in particular to a machining device for a hydrogen energy automobile cooling pipeline.

Background

The invention discloses a refrigerator refrigerating chamber cooling pipe bending clamp which is disclosed as CN108188224B, and comprises two bases, wherein supporting rods are arranged at the upper ends of the two bases, device cavities are arranged in the middles of the two supporting rods, threaded rods are arranged in the device cavities, the two ends of each threaded rod are fixedly connected to the inner wall of each device cavity, sleeves are sleeved on the threaded rods, movable blocks are sleeved on the sleeves and movably connected with the sleeves, limiting discs are fixedly connected to the two ends of each sleeve, elastic devices are sleeved on the parts, located between the movable blocks and the limiting discs, of the sleeves, worm wheels are fixedly connected to the middles of the threaded rods, worms penetrate through the side walls of the supporting rods, and the worms are rotatably connected with the side walls of the supporting rods. The bending device has the advantages of reasonable structural design, simplicity in operation, wide application range and high bending efficiency, and the cooling pipe is not easy to break.

However, in the actual production process, in order to meet the requirements of production efficiency and production yield, automatic production needs to be realized, and particles or bumps appear on the surface of the pipeline, so that indentations are easily generated on the cooling pipe in the bending process, and the yield of products is greatly influenced.

Disclosure of Invention

The invention aims to provide a hydrogen energy automobile cooling pipeline processing device to solve the problems in the background.

The purpose of the invention can be realized by the following technical scheme:

a hydrogen energy automobile cooling pipeline processing device comprises a machine body, wherein a lifting port is formed above the machine body, fixed-length conveying assemblies are symmetrically arranged at two ends of the lifting port on the machine body, a polishing assembly is arranged at one end of the machine body, a bending assembly is arranged at the other end of the machine body, a cutting assembly and an end polishing assembly are arranged below the lifting port in the machine body, supporting blocks are symmetrically arranged on the machine body and between the fixed-length conveying assemblies and the bending assemblies, limiting telescopic rods are symmetrically arranged on the supporting blocks, limiting blocks are arranged at extending ends of the two limiting telescopic rods, and one side of each limiting block is provided with a limiting groove;

the polishing assembly comprises a polishing seat fixedly arranged on the machine body, a polishing rotary drum is rotatably arranged in the polishing seat, a polishing brush strip is arranged on the inner side of the polishing rotary drum, a transmission bevel gear is arranged on the polishing rotary drum, a polishing motor is arranged at the bottom of the polishing seat, a driving bevel gear is fixedly arranged on the output end of the polishing motor, and the driving bevel gear is meshed with the transmission bevel gear.

As a further scheme of the invention: the bending assembly comprises a bending motor fixedly arranged at the end of the machine body, a bending rotary table is fixedly arranged at the output end of the bending motor, a bending groove is formed in the side face of the bending rotary table, a bending block is arranged on one side of the bending rotary table, and a clamping groove is formed in the bending block.

As a further scheme of the invention: the top of bending the piece is located one side symmetry in joint groove and is provided with chucking seat, it is provided with the chucking pole to rotate on the chucking seat, the side symmetry of bending the piece is provided with the supporting seat, it is provided with the chucking cylinder to rotate on the supporting seat, two the chucking cylinder rotates with the one end of two chucking poles respectively and is connected.

As a further scheme of the invention: the utility model discloses a polishing machine, including the tip subassembly of polishing, the tip is polished the subassembly and is fixed including fixing the seat of polishing that sets up in bottom of the body, the fixed slide rail that is provided with on the seat of polishing, it is provided with the sliding seat of polishing to slide on the slide rail, the fixed telescopic link of polishing that is located the one end of slide rail on the seat of polishing, the telescopic link that stretches out and the sliding seat fixed connection of polishing, it turns to the motor to polish to fixedly be provided with on the sliding seat of polishing, it is provided with the lift cylinder of polishing on the output that turns to the motor to polish, the lift cylinder that polishes is served and is fixed the polishing motor that is provided with, the fixed mill of polishing on the output of polishing motor.

As a further scheme of the invention: the fixed length conveying assembly comprises a conveying support symmetrically arranged on the machine body, a conveying line is arranged on the conveying support, a plurality of fixed length clamping blocks are arranged on the conveying line at equal intervals, and a clamping groove is formed in one side of each fixed length clamping block.

As a further scheme of the invention: the cutting assembly comprises a cutting lifting cylinder fixedly arranged at the bottom of the machine body, a cutting motor is fixedly arranged at the extending end of the cutting lifting cylinder, and a grinding wheel is fixedly arranged at the output end of the cutting motor.

As a further scheme of the invention: one end of the polishing seat is provided with a pipe inlet, and the other end of the polishing seat is provided with a pipe outlet.

As a further scheme of the invention: one side of the polishing disc is provided with a polishing groove, and a polishing brush is arranged in the polishing groove.

The invention has the beneficial effects that:

(1) according to the invention, the cooling pipe is clamped and fixed by the limiting block, the front end part of the cooling pipe is conveyed into the clamping groove, then the cooling pipe is fixed under the action of the clamping cylinder and the clamping rod, then the bending turntable can be driven by the bending motor to rotate, the bending turntable can be used for bending the cooling pipe under the limiting and fixing of the limiting block, the bending qualification rate of the cooling pipe is improved through the bending of the bending turntable, the continuous bending effect can be achieved, and the production efficiency is improved;

(2) according to the invention, the polishing motor is arranged on the polishing lifting cylinder, then the polishing lifting cylinder is arranged on the polishing steering motor, so that the polishing motor can realize steering adjustment, and then the polishing telescopic rod moves in a matching manner.

(3) According to the invention, the fixed-length conveying assemblies are symmetrically arranged at two ends of the lifting port, so that the cooling pipes which are cut off and not cut off can be respectively conveyed without mutual influence, meanwhile, the fixed-length conveying of the cooling pipes can be realized, and the supply requirement of automatic bending is realized.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic top view of the overall structure of the present invention;

FIG. 2 is a schematic side view of the overall structure of the present invention;

FIG. 3 is a schematic view of a burnish assembly of the present invention;

FIG. 4 is a schematic cross-sectional view of a polishing drum according to the present invention;

FIG. 5 is a schematic view of a cut-off assembly according to the present invention;

FIG. 6 is a schematic diagram of the end grinding assembly of the present invention;

FIG. 7 is a schematic cross-sectional view of the polishing disc of the present invention;

FIG. 8 is a schematic view of a connecting structure of a limiting telescopic rod and a supporting block in the invention;

FIG. 9 is a schematic view of a bending assembly of the present invention;

fig. 10 is a side view of the fixed length block of the present invention.

In the figure: 1. a body; 10. a lifting port; 2. a polishing assembly; 21. polishing the base; 22. polishing the drum; 23. a drive bevel gear; 230. an inlet pipe orifice; 231. an outlet pipe orifice; 232. polishing the brush strip; 24. a drive bevel gear; 25. polishing the motor; 3. a fixed-length conveying component; 31. a delivery stent; 32. a conveying line; 33. a fixed-length clamping block; 330. a clamping groove; 4. a chopping assembly; 41. cutting off the lifting cylinder; 42. cutting off the motor; 43. a grinding wheel; 5. an end grinding assembly; 50. a slide rail; 51. polishing the base; 52. polishing the telescopic rod; 53. polishing the sliding seat; 54. polishing the steering motor; 55. polishing the lifting cylinder; 56. polishing the motor; 57. grinding disc; 570. grinding the groove; 571. polishing a brush; 6. bending the assembly; 61. bending the motor; 62. bending the turntable; 620. a turning groove; 63. bending the block; 630. a clamping groove; 631. a clamping seat; 632. a clamping rod; 64. a supporting seat; 65. clamping the air cylinder; 71. a support block; 72. limiting the telescopic rod; 73. a limiting block; 730. a limiting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 2 and 8, the invention relates to a hydrogen energy automobile cooling pipeline processing device, which comprises a machine body 1, wherein a lifting port 10 is formed above the machine body 1, fixed-length conveying assemblies 3 are symmetrically arranged at two ends of the lifting port 10 on the machine body 1, a polishing assembly 2 is arranged at one end of the machine body 1, a bending assembly 6 is arranged at the other end of the machine body 1, a cutting assembly 4 and an end polishing assembly 5 are arranged below the lifting port 10 in the machine body 1, supporting blocks 71 are symmetrically arranged on the machine body 1 and between the fixed-length conveying assemblies 3 and the bending assembly 6, limiting telescopic rods 72 are symmetrically arranged on the supporting blocks 71, limiting blocks 73 are arranged at the extending ends of the two limiting telescopic rods 72, a limiting groove 730 is formed at one side of each limiting block 73, and the polishing assembly 2 can polish the positions with uneven and unsmooth surfaces of cooling pipes, the problem that the cooling pipe is unqualified in the bending process due to the fact that influence is generated on the cooling pipeline by external protruding particles or protruding blocks in the subsequent bending process is avoided.

Referring to fig. 3 and 4, with respect to the structural design of the polishing assembly 2, the polishing assembly 2 includes a polishing base 21 fixedly disposed on the machine body 1, a polishing drum 22 is rotatably disposed inside the polishing base 21, a polishing brush bar 232 is disposed inside the polishing drum 22, a transmission bevel gear 23 is disposed on the polishing drum 22, a polishing motor 25 is disposed at the bottom of the polishing base 21, a drive bevel gear 24 is fixedly disposed at an output end of the polishing motor 25, the drive bevel gear 24 is in meshing connection with the transmission bevel gear 23, an inlet pipe opening 230 is disposed at one end of the polishing base 21, an outlet pipe opening 231 is disposed at the other end of the polishing base 21, when a cooling pipe is machined, the cooling pipe is inserted from one end of the inlet pipe opening 230, and then the polishing motor 25 drives the polishing drum 22 to rotate, the polishing drum 22 can polish particles or bumps on the surface of the cooling pipe through the polishing brush bar 232 disposed inside the polishing drum 22, the method can effectively avoid the situation that surface impurities or convex blocks of the cooling pipe generate indentation or scratch on the cooling pipe in the subsequent bending process, and avoid the situation that unqualified products are generated in the bending process of the cooling pipe.

Referring to fig. 1 and 9 for the structural design of the bending assembly 6, the bending assembly 6 includes a bending motor 61 fixedly disposed at an end of the machine body 1, a bending turntable 62 is fixedly disposed at an output end of the bending motor 61, a bending groove 620 is disposed at a side surface of the bending turntable 62, a bending block 63 is disposed at one side of the bending turntable 62, a clamping groove 630 is disposed on the bending block 63, clamping seats 631 are symmetrically disposed at one side of the clamping groove 630 above the bending block 63, clamping rods 632 are rotatably disposed on the clamping seats 631, supporting seats 64 are symmetrically disposed at the side surface of the bending block 63, clamping cylinders 65 are rotatably disposed on the supporting seats 64, the two clamping cylinders 65 are respectively rotatably connected with one end of the two clamping rods 632, and a front end of the cooling pipe is conveyed into the clamping groove 630 under the clamping fixation of the limiting block 73, then fix the cooling tube through chucking cylinder 65 and chucking pole 632's effect, then, alright rotate with motor 61 drives the carousel 62 that bends through bending, under the spacing fixed of stopper 73, the carousel 62 that bends alright bend the work of bending with the cooling tube, through bending of the carousel 62 that bends, improved the qualification rate that the cooling tube was bent to can reach the effect of bending in succession, improve production efficiency.

Referring to fig. 6 and 7 for the structural design of the end polishing assembly 5, the end polishing assembly 5 includes a polishing seat 51 fixedly disposed at the bottom of the machine body 1, a slide rail 50 is fixedly disposed on the polishing seat 51, a polishing slide seat 53 is slidably disposed on the slide rail 50, a polishing telescopic rod 52 is fixedly disposed at one end of the polishing seat 51 located at the slide rail 50, an extending end of the polishing telescopic rod 52 is fixedly connected with the polishing slide seat 53, a polishing steering motor 54 is fixedly disposed on the polishing slide seat 53, a polishing lifting cylinder 55 is disposed at an output end of the polishing steering motor 54, a polishing motor 56 is fixedly disposed at an extending end of the polishing lifting cylinder 55, a polishing disc 57 is fixedly disposed at an output end of the polishing motor 56, a polishing groove 570 is disposed at one side of the polishing disc 57, a polishing brush 571 is disposed in the polishing groove 570, through setting up grinding motor 56 on the lift cylinder 55 of polishing, then will polish lift cylinder 55 and set up on the motor 54 that turns to of polishing again, make grinding motor 56 can realize turning to the regulation, the removal of the telescopic link 52 of polishing is deuterogamied, after the cooling tube is cuting, because emery wheel 43's effect, the terminal surface of cooling tube produces the burr easily, under the lift regulation of the lift cylinder 55 of polishing earlier, make grinding dish 57 align with the cooling tube, then under the promotion of telescopic link 52 of polishing, make the groove 570 cover of polishing of grinding dish 57 one side establish the tip in the cooling tube, alright polish with the terminal surface of cuting to the cooling tube, remove the burr, the rotatory grinding that sets up and can adjust grinding motor 56 turns to motor 54 and can realize the polishing of the terminal surface of cuting of two cooling tubes in front and back, high efficiency.

Referring to fig. 1 and 5 for the structural design of the cutting assembly 4, the cutting assembly 4 includes a cutting lifting cylinder 41 fixedly disposed at the bottom of the machine body 1, a cutting motor 42 is fixedly disposed at an extending end of the cutting lifting cylinder 41, a grinding wheel 43 is fixedly disposed at an output end of the cutting motor 42, and after the cooling pipe is conveyed to a certain length under the action of the fixed-length conveying assembly 3, the cutting lifting cylinder 41 is lifted, and the cutting motor 42 is simultaneously started, so that the cooling pipe can be cut through the grinding wheel 43.

Referring to fig. 1 and 10 about fixed length conveying subassembly 3's structural design, fixed length conveying subassembly 3 sets up the transfer gantry 31 on organism 1 including the symmetry, be provided with transfer chain 32 on transfer gantry 31, equidistant a plurality of fixed length grip blocks 33 that are provided with on transfer chain 32, centre gripping groove 330 has been seted up to one side of fixed length grip block 33, and the both ends symmetry that is located lift mouth 10 sets up fixed length conveying subassembly 3, can carry respectively to cutting the cooling tube of accomplishing and not cutting, and each other does not influence, can realize the transport of cooling tube fixed length simultaneously, realizes the supply demand of automatic bending.

The working principle of the invention is as follows:

when the cooling pipe is processed, the cooling pipe is inserted from one end of the pipe inlet 230, then the polishing motor 25 drives the polishing drum 22 to rotate, the polishing drum 22 polishes particles or bumps on the surface of the cooling pipe through the polishing brush bar 232 arranged in the polishing drum, after polishing is completed, the fixed-length conveying assembly 3 clamps the cooling pipe and continues to convey forwards, when conveying reaches a preset length, the cutting lifting cylinder 41 is lifted, the cutting motor 42 is started to cut the cooling pipe through the grinding wheel 43, after cutting is completed, the fixed-length conveying assembly 3 at the rear end clamps the cut cooling pipe and continues to move forwards, then the lifting cylinder 55 is polished to enable the polishing disc 57 to be aligned with the cooling pipe, then under the pushing of the polishing telescopic rod 52, the polishing groove 570 at one side of the polishing disc 57 is sleeved at the end of the cooling pipe to polish the cut end face of the cooling pipe, removing burrs, and after polishing is finished, adjusting a polishing motor 56 to adjust 180 degrees under the action of a polishing steering motor 54 to polish the rear cooling pipe;

simultaneously the condenser tube of anterior segment under fixed length conveying subassembly 3's transport, the joint is in joint groove 630, then the fixed cooling tube of two stopper 73 centre grippings to, chucking cylinder 65 stretches out to fix the cooling tube through chucking pole 632, and at this moment, the carousel 62 alright in order to bend the work to the cooling tube of bending.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation and a specific orientation configuration and operation, and thus, should not be construed as limiting the present invention. Furthermore, "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims

1. A hydrogen energy automobile cooling pipeline processing device comprises a machine body (1) and is characterized in that a lifting opening (10) is formed above the machine body (1), fixed-length conveying assemblies (3) are symmetrically arranged at two ends of the lifting opening (10) on the machine body (1), a polishing assembly (2) is arranged at one end of the machine body (1), a bending assembly (6) is arranged at the other end of the machine body (1), a cutting assembly (4) and an end polishing assembly (5) are arranged below the lifting opening (10) in the machine body (1), supporting blocks (71) are symmetrically arranged on the machine body (1) and between the fixed-length conveying assemblies (3) and the bending assembly (6), limiting telescopic rods (72) are symmetrically arranged on the supporting blocks (71), and limiting blocks (73) are arranged at extending ends of the two limiting telescopic rods (72), a limiting groove (730) is formed in one side of the limiting block (73);

polishing subassembly (2) including fixed polishing seat (21) that sets up on organism (1), the inside rotation of polishing seat (21) is provided with polishes rotary drum (22), the inboard of polishing rotary drum (22) is provided with polishes brush strip (232), it is provided with transmission bevel gear (23) on rotary drum (22) to polish, the bottom of polishing seat (21) is provided with polishes motor (25), it is provided with drive bevel gear (24) to polish on the output of motor (25) fixedly, drive bevel gear (24) and transmission bevel gear (23) meshing connection.

2. The processing device for the hydrogen energy automobile cooling pipeline according to claim 1, wherein the bending assembly (6) comprises a bending motor (61) fixedly arranged at the end of the engine body (1), a bending turntable (62) is fixedly arranged at the output end of the bending motor (61), a bending groove (620) is formed in the side surface of the bending turntable (62), a bending block (63) is arranged on one side of the bending turntable (62), and a clamping groove (630) is formed in the bending block (63).

3. The processing device for the hydrogen energy automobile cooling pipeline according to claim 2, wherein clamping seats (631) are symmetrically arranged on one side of the clamping groove (630) above the bending block (63), clamping rods (632) are rotatably arranged on the clamping seats (631), supporting seats (64) are symmetrically arranged on the side surfaces of the bending block (63), clamping cylinders (65) are rotatably arranged on the supporting seats (64), and the two clamping cylinders (65) are respectively rotatably connected with one ends of the two clamping rods (632).

4. The processing device of the cooling pipeline of the hydrogen energy automobile according to claim 1, the end part polishing component (5) comprises a polishing seat (51) fixedly arranged at the bottom of the machine body (1), a sliding rail (50) is fixedly arranged on the polishing seat (51), a polishing sliding seat (53) is arranged on the sliding rail (50) in a sliding manner, a polishing telescopic rod (52) is fixedly arranged at one end of the polishing seat (51) positioned on the slide rail (50), the extending end of the polishing telescopic rod (52) is fixedly connected with the polishing sliding seat (53), a polishing steering motor (54) is fixedly arranged on the polishing sliding seat (53), a grinding lifting cylinder (55) is arranged at the output end of the grinding steering motor (54), a polishing motor (56) is fixedly arranged on the extending end of the polishing lifting cylinder (55), and a polishing disc (57) is fixedly arranged at the output end of the polishing motor (56).

5. The processing device of the hydrogen energy automobile cooling pipeline according to claim 1, wherein the fixed-length conveying assembly (3) comprises conveying supports (31) symmetrically arranged on the engine body (1), a conveying line (32) is arranged on the conveying supports (31), a plurality of fixed-length clamping blocks (33) are arranged on the conveying line (32) at equal intervals, and a clamping groove (330) is formed in one side of each fixed-length clamping block (33).

6. The processing device of the hydrogen energy automobile cooling pipeline according to claim 1, wherein the cutoff assembly (4) comprises a cutoff lifting cylinder (41) fixedly arranged at the bottom of the machine body (1), a cutoff motor (42) is fixedly arranged at the extending end of the cutoff lifting cylinder (41), and a grinding wheel (43) is fixedly arranged at the output end of the cutoff motor (42).

7. The processing device of the cooling pipeline of the hydrogen-powered automobile according to claim 1, wherein one end of the polishing seat (21) is provided with an inlet pipe orifice (230), and the other end of the polishing seat (21) is provided with an outlet pipe orifice (231).

8. The processing device of the hydrogen energy automobile cooling pipeline according to claim 4, wherein a polishing groove (570) is formed in one side of the polishing disc (57), and a polishing brush (571) is arranged in the polishing groove (570).