CN215701358U - Equipment of reinforcement type cooling tube - Google Patents

Abstract

The utility model relates to the technical field of mechanical equipment, a equipment of reinforcement type cooling tube is related to, the equipment of reinforcement type cooling tube is including fixing the subaerial frame assembly that just is provided with longitudinal rail, the longitudinal rail of frame assembly on be equipped with first crossbeam and second crossbeam, install the tube bank assembly on the front end of frame assembly, be provided with propelling movement and lifting air traffic control subassembly on the first crossbeam of the frame assembly of the middle rear end portion of tube bank assembly, one side of propelling movement and lifting air traffic control subassembly is connected with turns over the pipe subassembly the top left end of first crossbeam is fixed with gusset installation subassembly install the removal subassembly on the second crossbeam of frame assembly the below of removal subassembly is connected with pushes away and dials the pipe subassembly, the utility model has the characteristics of simple structure, efficient, with low costs.

Description

Equipment of reinforcement type cooling tube

Technical Field

The utility model relates to the technical field of mechanical equipment, concretely relates to simple structure, efficient and with low costs equipment of reinforcement type cooling tube.

Background

With the development and progress of society, the labor cost is continuously increased, the pressure of product competition is large, the labor productivity is necessarily improved, the cost is reduced, and the social competition is effectively participated. At present, with the improvement of energy saving and consumption reduction requirements, higher requirements are put forward on the design and technology of a radiator, and the radiator with higher efficiency, high strength and long service life is needed. The radiating pipe with the reinforcing sheet can solve the problems that the radiating pipe is easy to damage due to pressurization caused by insufficient strength of the original pipe type, short in service life, high in repair rate and the like, and is applied to the industry of automobile radiators. However, most of the existing reinforced radiating pipes are operated manually, reinforcing plates are arranged in intercooler radiating pipes by means of auxiliary tools such as a single compactor, when workers operate the process, the reinforcing plates are firstly placed on a die, the intercooler radiating pipes are inserted, and then a switch is pressed to complete the process. Therefore, how to design an assembling device for a reinforced radiating pipe with simple structure, high efficiency and low cost is a difficult problem to be solved urgently in the technical field.

Disclosure of Invention

The utility model aims to overcome the defects and deficiencies in the prior art, and provides an equipment of reinforcement type cooling tube with simple structure, high efficiency and low cost.

The purpose of the utility model is realized as follows:

the utility model discloses an assembly device of reinforced radiating tubes, which comprises a radiating tube body and four reinforcing plates arranged at the orifices of the inner cavities at the two ends of the radiating tube body in an expansion joint manner; the equipment of reinforcement type cooling tube is including fixing the subaerial frame assembly that just is provided with longitudinal rail, the longitudinal rail of frame assembly on be equipped with first crossbeam and the second crossbeam that can remove, install the tube bank assembly of placing the radiating body on the front end of frame assembly be provided with the propelling movement and the lifting air traffic control subassembly with the radiating body on the first crossbeam of the frame assembly of the middle rear end portion of tube bank assembly, one side of propelling movement and lifting air traffic control subassembly is connected with the pipe turnover subassembly with the radiating body rotation degree the top left end of first crossbeam is fixed with reinforcing plate installation component install the removal subassembly that drives tilting mechanism on the second crossbeam of frame assembly the below of removal subassembly is connected with the pipe pushing component of putting in storage with the material propelling movement.

Preferably, the tube bank assembly comprises a connecting frame and a feeding side plate component, the feeding side plate component is divided into a left feeding side plate component and a right feeding side plate component, the left feeding side plate component and the right feeding side plate component are respectively fixed on the connecting frame to form an I-shaped structure, a group of conveying cylinder components for pushing the radiating tube body are respectively installed on the inner sides of the left feeding side plate component and the right feeding side plate component, a conveying fixing component is arranged above each conveying cylinder component, and an arc-shaped guide groove for enabling the radiating tube body to advance is formed in the front end of each conveying fixing component.

Preferably, the above pushing and lifting hollow pipe assembly comprises a support assembly, a pushing air cylinder assembly, a pushing supporting assembly and a lifting air cylinder assembly, the support assembly is of a lower frame structure formed by a cross rod and two vertical rods, the pushing supporting assembly capable of pushing the heat dissipation pipe body is further installed at the joint of the cross rod and the two vertical rods, the pushing air cylinder assembly is installed on the cross rod of the support assembly, and the lifting air cylinder assembly is installed on the two vertical rods of the support assembly respectively in the left and right directions of the two components.

Preferably, the above-mentioned tilting tube component comprises a supporting plate component, a moving cylinder component, a rotating cylinder component, a telescopic cylinder component, an opening and closing cylinder component, a guide rail and a support component, the guide rails (28) are arranged on the left and the right, a movable air cylinder component is arranged below the supporting plate component, the left and right guide rails are fixedly connected with the support component through the supporting plate component, the guide sleeves are connected with the guide rails in a sliding way in the axial direction, an air cylinder connecting assembly is arranged above the supporting plate assembly and is provided with a rotary air cylinder assembly, the rotary cylinder component is connected with the telescopic cylinder component, the piston rod end of the telescopic cylinder component is provided with a clamping platform connecting component, the clamping table connecting assembly is connected with the opening and closing air cylinder assembly, an upper pushing block and a lower pushing block are arranged at the upper end and the lower end of the opening and closing air cylinder assembly, and the upper pushing block and the lower pushing block are connected with a clamping block assembly which is difficult to clamp materials.

Preferably, the moving assembly comprises a guide sleeve, a supporting plate assembly, a moving cylinder assembly, a moving support assembly, a moving cylinder fixing assembly and a moving push plate assembly, the moving support assembly is mounted on a longitudinal guide rail of the rack assembly, the moving cylinder assembly is fixed on the moving support assembly through the moving cylinder fixing assembly, a piston rod end of the moving cylinder assembly is connected through the moving push plate assembly, the moving push plate assembly is fixed on the transverse supporting plate assembly, and the end face of the transverse supporting plate is provided with the guide sleeve.

Preferably, the pushing and poking pipe assembly comprises a pushing and poking rod assembly, a poking rod air cylinder connecting assembly, a pushing and poking air cylinder assembly and a pushing and poking fixed support assembly, the pushing and poking rod assembly is of an upper frame structure, the pushing and poking air cylinder assembly is connected with the pushing and poking rod assembly through the poking rod air cylinder connecting assembly, and the pushing and poking air cylinder assembly is fixed on the rack assembly through the pushing and poking fixed support assembly.

Preferably, the reinforcing plate mounting assembly comprises a positioning assembly, a cylinder support assembly, a lower die assembly, an upper die assembly, a cylinder fixing plate and an expansion cylinder assembly, the cylinder support assembly is fixed between a first cross beam and a second cross beam of the frame assembly, the left end and the right end of the cylinder support assembly are respectively provided with one positioning assembly, the left positioning assembly and the right positioning assembly are used for fixing the lower die assembly, the upper portion of the lower die assembly is in butt joint with the upper die assembly, the upper die assembly is provided with a die connecting piece, the die connecting piece is connected with the cylinder fixing plate, and the expansion cylinder assembly is mounted at the top of the cylinder fixing plate.

Compared with the prior art, the utility model has the following characteristics and progress:

the utility model discloses an equipment of reinforcement type cooling tube, be equipped with first crossbeam and the second crossbeam that can move on this frame assembly's longitudinal rail, install the pipe storehouse assembly of placing the heat dissipation body on the front end of frame assembly, be provided with the propelling movement and the lifting air traffic control subassembly of heat dissipation body on the first crossbeam of the frame assembly of the middle rear end portion of pipe storehouse assembly, one side of propelling movement and lifting air traffic control subassembly is connected with the pipe turnover subassembly that rotates the heat dissipation body 180 degrees, be fixed with reinforcing plate installation component at the upper left end of first crossbeam, install the removal subassembly that drives tilting mechanism on the second crossbeam of frame assembly, be connected with the push-and-pull pipe subassembly of putting the material propelling movement in storage below the removal subassembly, simple structure, the workman's operation adopts automatic assembly production, has changed the drawback that originally adopted manual operation, has made this equipment realize in the work of processing reinforcement type cooling tube with material automatic transport and automatic operation, carry out automatic machine to the heat dissipation body of automobile cooler cooling tube and with the reinforcement piece and carry out, the location, the assembly and expand the compaction and shift to next process, and the location is accurate, but 3 machines of one person operation, greatly reduced staff's intensity of labour, the defective percentage is low, safety and reliability, the labor efficiency is improved, production cost is reduced, simple, repeated, the long-term unchangeable posture like single process has been avoided appearing, easy stranded, tired bad work has thoroughly been changed, and energy-concerving and environment-protective, the purpose of stable quality is reached, can extensively use widely.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view showing the structure of a reinforced type radiating pipe a.

Fig. 3 is a schematic diagram of the reinforcing sheet B.

Fig. 4 is a schematic diagram of the structure of the tube bank assembly 1.

Fig. 5 is a schematic diagram of the structure of the pushing and lifting empty pipe assembly 2.

Fig. 6 is a schematic diagram of the structure of the pipe overturning component 3.

Fig. 7 is a schematic diagram of the structure of the moving assembly 4.

Fig. 8 is a schematic diagram of the construction of the plunging tube assembly 5.

Fig. 9 is a schematic view of the structure of the reinforcing patch assembly 6.

FIG. 10 is a schematic diagram of a process of the present invention.

Part name and sequence number in the figure:

a heat radiation pipe body A and a reinforcing sheet B;

the pipe warehouse assembly 1, a pushing and lifting empty pipe assembly 2, a pipe overturning assembly 3, a moving assembly 4, a pushing and pulling pipe assembly 5, a reinforcing sheet mounting assembly 6, a rack assembly 7, a connecting frame 8, an arc-shaped guide groove 9, a conveying fixing assembly 10, a feeding side plate assembly 11, a conveying air cylinder assembly 12, a support assembly 13, a pushing air cylinder assembly 14, a pushing support assembly 15, a lifting air cylinder assembly 16, a guide sleeve 17, a support plate assembly 18, a moving air cylinder assembly 19, a rotating air cylinder assembly 20, an air cylinder connecting assembly 21, a telescopic air cylinder assembly 22, a clamping platform connecting assembly 23, an upper push block 24, a clamping block assembly 25, an opening and closing air cylinder assembly 26, a lower push block 27, a guide rail 28, a support assembly 29, a guide sleeve 17, a support plate assembly 18, a moving support assembly 30, a moving air cylinder fixing assembly 31, a moving push plate assembly 32, a pushing rod assembly 33, a driving rod air cylinder connecting assembly 34, a pushing and pulling assembly 35, The device comprises a push-pull fixed support assembly 36, a positioning assembly 37, a cylinder support assembly 38, a lower die assembly 39, an upper die assembly 40, a die connecting piece 41, a cylinder fixing plate 42 and an expansion cylinder assembly 43.

Detailed Description

The structure of the present invention will be described below with reference to the accompanying drawings and embodiments thereof.

The utility model discloses an equipment of reinforcement type cooling tube realizes through following scheme:

example 1

Referring to fig. 1-3, in the assembling apparatus for the reinforced radiating pipe of the present invention, the radiating pipe a includes a radiating pipe body and four reinforcing plates B installed at the orifices of the inner cavity at the two ends of the radiating pipe body in an expanding manner; the assembling apparatus of the reinforced radiating pipe comprises a frame assembly 7 fixed on the ground and provided with a longitudinal guide rail, a first beam and a second beam which can move are arranged on a longitudinal guide rail of the rack assembly 7, a tube bank assembly 1 for placing a heat radiation tube body is arranged at the front end of the rack assembly 7, a pushing and lifting hollow pipe component 2 for pushing and lifting the heat dissipation pipe body is arranged on a first cross beam of a rack assembly 7 at the middle rear end part of the pipe warehouse assembly 1, one side of the pushing and lifting hollow pipe component 2 is connected with a pipe turning component 3 which rotates the radiating pipe body by 180 degrees, a reinforcing sheet mounting component 6 is fixed at the left end above the first cross beam, a moving component 4 for driving the turnover mechanism is mounted on the second cross beam of the rack assembly 7, and a pushing and pulling pipe component 5 for pushing and putting materials into a warehouse is connected below the moving component 4.

Referring to fig. 4, the tube bank assembly 1 includes a connecting frame 8 and a feeding side plate assembly 11, the feeding side plate assembly 11 is divided into a left feeding side plate assembly and a right feeding side plate assembly, which are respectively fixed on the connecting frame 8 to form an i-shaped structure, a group of conveying cylinder assemblies 12 for pushing the heat dissipation tube body are respectively installed on the inner sides of the left feeding side plate assembly and the right feeding side plate assembly 11, a conveying fixing assembly 10 is arranged above each conveying cylinder assembly 12, and an arc-shaped guide groove 9 for advancing the heat dissipation tube body is arranged at the front end of the conveying fixing assembly 10.

Referring to fig. 5, the pushing and lifting hollow pipe assembly 2 includes a support assembly 13, a pushing cylinder assembly 14, a pushing support assembly 15 and a lifting cylinder assembly 16, the support assembly 13 is of a lower frame structure formed by a cross rod and two vertical rods, the pushing support assembly 15 capable of pushing a heat dissipation pipe body is further installed at the joint of the cross rod and the two vertical rods, the pushing cylinder assembly 14 is installed on the cross rod of the support assembly 13, and the lifting cylinder assembly 16 is installed on the two vertical rods of the support assembly 13 for two components.

Referring to fig. 6, the tilting tube assembly 3 includes a support plate assembly 18, a moving cylinder assembly 19, a rotating cylinder assembly 20, a telescopic cylinder assembly 22, an opening and closing cylinder assembly 26, a guide rail 28 and a support assembly 29, the guide rail (28) is a left guide rail and a right guide rail, the moving cylinder assembly 19 is installed below the support plate assembly 18, the left guide rail and the right guide rail 28 are fixedly connected through the support plate assembly 18 and the support assembly 29, a guide sleeve 17 is slidably connected in the axial direction of each guide rail 28, a cylinder connecting assembly 21 is arranged above the support plate assembly 18, the rotating cylinder assembly 20 is installed on the cylinder connecting assembly 21, the rotating cylinder assembly 20 is connected with the telescopic cylinder assembly 22, a clamping platform connecting assembly 23 is installed at a piston rod end of the telescopic cylinder assembly 22, the clamping platform connecting assembly 23 is connected with the opening and closing cylinder assembly 26, an upper push block 24 and a lower push block 27 are arranged at upper and lower ends of the opening and closing cylinder assembly 26, the upper push block 24 and the lower push block 27 are connected with a clamping block assembly 25 which is difficult to clamp materials.

Referring to fig. 7, the moving component 4 includes a guide sleeve 17, a supporting plate component 18, a moving cylinder component 19, a moving support component 30, a moving cylinder fixing component 31 and a moving push plate component 32, the moving support component 30 is mounted on a longitudinal guide rail of the frame assembly 7, the moving cylinder component 19 is fixed on the moving support component 30 through the moving cylinder fixing component 31, the piston rod ends of the moving cylinder component 19 are connected through the moving push plate component 32, the moving push plate component 32 is fixed on the transverse supporting plate component 18, and the guide sleeve 17 is arranged on the end surface of the transverse supporting plate 18.

Referring to fig. 8, the pushing and pulling pipe assembly 5 includes a pushing and pulling rod assembly 33, a pulling rod cylinder connecting assembly 34, a pushing and pulling cylinder assembly 35, and a pushing and pulling fixed support assembly 36, where the pushing and pulling rod assembly 33 is of an upper frame structure, the pushing and pulling cylinder assembly 35 is connected to the pushing and pulling rod assembly 33 through the pulling rod cylinder connecting assembly 34, and the pushing and pulling cylinder assembly 35 is fixed to the frame assembly 7 through the pushing and pulling fixed support assembly 36.

Referring to fig. 9, the reinforcing plate mounting assembly 6 includes a positioning assembly 37, a cylinder support assembly 38, a lower die assembly 39, an upper die assembly 40, a cylinder fixing plate 42 and an expansion cylinder assembly 43, the cylinder support assembly 38 is fixed between a first cross beam and a second cross beam of the frame assembly 7, the left and right ends of the cylinder support assembly 38 are respectively provided with one positioning assembly 37, the left and right positioning assemblies 37 are fixed with the lower die assembly 39, the upper portion of the lower die assembly 39 is in butt joint with the upper die assembly 40, the upper die assembly 40 is provided with a die connecting member 41, the die connecting member 41 is connected with the cylinder fixing plate 42, and the expansion cylinder assembly 43 is mounted at the top of the cylinder fixing plate 42.

The assembly equipment of the reinforced radiating pipe of the utility model has the following work procedures:

referring to fig. 10, the method for manufacturing the assembling apparatus for the reinforced radiating pipe includes the following specific steps:

1) feeding a reinforcing sheet: the feeding device of the reinforcing sheet conveys the reinforcing sheets B into the material guide rail independently and orderly along the conveying direction;

2) conveying the reinforcing sheet: a first reinforcing sheet B is transferred from the guide rail into the lower mold of the lower mold assembly 39 of the reinforcing sheet mounting assembly 6 by the reinforcing sheet transfer means;

3) feeding the heat radiation pipe body: placing the radiating pipe body into a feeding side plate component 11 of a pipe warehouse assembly 1, and starting a conveying air cylinder component 12 to convey the radiating pipe body to an arc-shaped guide groove 9 in order;

4) conveying the heat radiation pipe body: opening the lifting cylinder assembly 16 for pushing and lifting the hollow pipe assembly 2 to enable the radiating pipe body to enter from the pushing supporting assembly 15, and starting the pushing cylinder assembly 14 to convey the radiating pipe body forwards;

5) pushing and pulling the heat radiation pipe body:

(1) starting a pushing cylinder assembly 35 of the pushing tube assembly 5 to push the heat dissipation tube body into the tube overturning assembly 3;

(2) starting the moving cylinder assembly 32 of the pipe turnover assembly 3, clamping the heat-radiating pipe body by the upper push block 24 and the lower push block 27 through the clamping platform connecting assembly 23 of the pipe turnover assembly 3, opening the rotating cylinder assembly 20 to rotate the heat-radiating pipe body by 90 degrees, and sending the heat-radiating pipe body into an assembly station of a die of the reinforcing sheet mounting assembly 6 by the piston rod end of the moving cylinder assembly 19;

6) assembling and expanding the radiating pipe:

(1) opening the expanding cylinder assembly 43 of the reinforcing sheet mounting assembly 6 to drive the upper die assembly 40 to move downwards, closing the upper die assembly 40 and the lower die assembly 39, and expanding the reinforcing sheet B at the end part of the pipe orifice of the radiating pipe body to obtain a material I;

(2) opening a rotary air cylinder assembly 20 to rotate the material I obtained in the step (1) by 90 degrees, rotating the rotary air cylinder assembly 20 to rotate the material I by 180 degrees, repeating the process of the step 2), conveying a second reinforcing plate B into a lower die of a lower die assembly 39 of a reinforcing plate mounting assembly 6 from a guide rail through a reinforcing plate conveying device, opening an expansion air cylinder assembly 43 of the reinforcing plate mounting assembly 6 to drive an upper die assembly 40 to move downwards, closing the upper die assembly 40 and the lower die assembly 39, and expanding and connecting the second reinforcing plate B to the end part of a pipe orifice of the material I to obtain a material II;

(3) turning the material II, repeating the process in the step (1), and expanding and connecting the third reinforcing sheet B to the end part of the pipe orifice at the other end head of the material II to obtain a material III;

(4) repeating the process of the step (2), and expanding and connecting the fourth reinforcing sheet B to the end part of the pipe orifice at the other end of the material III to obtain a material IV finished product of the radiating pipe A with the reinforcing sheet;

7) and (4) checking: inspecting a material IV of the radiating pipe A with the reinforcing sheet;

8) and (5) switching to the next procedure.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an equipment of reinforcement type cooling tube which characterized in that: the radiating pipe (A) comprises a radiating pipe body and four reinforcing plates (B) which are arranged at the orifices of the inner cavities at the two ends of the radiating pipe body in an expanded connection manner; the assembling equipment of the reinforced radiating pipe comprises a machine frame assembly (7) which is fixed on the ground and is provided with a longitudinal guide rail, a first beam and a second beam which can move are arranged on a longitudinal guide rail of the frame assembly (7), the front end of the frame assembly (7) is provided with a tube bank assembly (1) for placing a radiating tube body, a pushing and lifting hollow pipe component (2) for pushing and lifting the heat dissipation pipe body is arranged on a first beam of a rack assembly (7) at the rear end part in the middle of the pipe warehouse assembly (1), one side of the pushing and lifting hollow pipe component (2) is connected with a pipe turning component (3) which rotates the radiating pipe body by 180 degrees, a reinforcing sheet mounting component (6) is fixed at the left end above the first beam, a moving component (4) for driving the turnover mechanism is mounted on the second beam of the rack assembly (7), a pushing and poking pipe assembly (5) for pushing and putting the materials into a warehouse is connected below the moving assembly (4).

2. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: the pipe warehouse assembly (1) comprises a connecting frame (8) and a feeding side plate assembly (11), wherein the feeding side plate assembly (11) is divided into a left part and a right part which are respectively fixed on the connecting frame (8) to form an I-shaped structure, a group of conveying air cylinder assemblies (12) for pushing the radiating pipe bodies are respectively arranged on the inner sides of the left feeding side plate assembly and the right feeding side plate assembly (11), a conveying fixing assembly (10) is arranged above each conveying air cylinder assembly (12), and an arc-shaped guide groove (9) for enabling the radiating pipe bodies to advance is arranged at the front end of each conveying fixing assembly (10).

3. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: propelling movement and lifting air cylinder subassembly (2) include bracket component (13), propelling movement cylinder component (14), propelling movement support subassembly (15) and lift cylinder component (16), bracket component (13) become lower frame structure by a horizontal pole and two montants, horizontal pole and two montant junctions still install propelling movement support subassembly (15) that can the propelling movement heat dissipation body, install on the horizontal pole of bracket component (13) propelling movement cylinder component (14), install respectively on two montants of bracket component (13) about lift cylinder component (16) for two components.

4. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: the turnover pipe assembly (3) comprises a supporting plate assembly (18), a moving cylinder assembly (19), a rotating cylinder assembly (20), a telescopic cylinder assembly (22), an opening and closing cylinder assembly (26), guide rails (28) and a support assembly (29), wherein the guide rails (28) are arranged on the left and right sides, the moving cylinder assembly (19) is arranged below the supporting plate assembly (18), the left and right guide rails (28) are fixedly connected with the support assembly (29) through the supporting plate assembly (18), a guide sleeve (17) is slidably connected to each guide rail (28) in the axial direction, a cylinder connecting assembly (21) is arranged above the supporting plate assembly (18), the rotating cylinder assembly (20) is arranged on the cylinder connecting assembly (21), the rotating cylinder assembly (20) is connected with the telescopic cylinder assembly (22), and a clamping platform connecting assembly (23) is arranged at the piston rod end of the telescopic cylinder assembly (22), the clamping table connecting assembly (23) is connected with an opening and closing cylinder assembly (26), an upper pushing block (24) and a lower pushing block (27) are arranged at the upper end and the lower end of the opening and closing cylinder assembly (26), and the upper pushing block (24) and the lower pushing block (27) are connected with a clamping block assembly (25) which is difficult to clamp materials.

5. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: the moving assembly (4) comprises a guide sleeve (17), a support plate assembly (18), a moving cylinder assembly (19), a moving support assembly (30), a moving cylinder fixing assembly (31) and a moving push plate assembly (32), the moving support assembly (30) is installed on a longitudinal guide rail of the rack assembly (7), the moving cylinder assembly (19) is fixed on the moving support assembly (30) through the moving cylinder fixing assembly (31), a piston rod end of the moving cylinder assembly (19) is connected through the moving push plate assembly (32), the moving push plate assembly (32) is fixed on the transverse support plate assembly (18), and the guide sleeve (17) is arranged on the end face of the transverse support plate (18).

6. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: the pushing and poking pipe assembly (5) comprises a pushing and poking rod assembly (33), a poking rod air cylinder connecting assembly (34), a pushing and poking air cylinder assembly (35) and a pushing and poking fixed support assembly (36), the pushing and poking rod assembly (33) is of an upper frame structure, the pushing and poking air cylinder assembly (35) is connected with the pushing and poking rod assembly (33) through the poking rod air cylinder connecting assembly (34), and the pushing and poking air cylinder assembly (35) is fixed on the rack assembly (7) through the pushing and poking fixed support assembly (36).

7. The apparatus for assembling the reinforced heat radiating pipe as recited in claim 1, wherein: the reinforcing sheet mounting component (6) comprises a positioning component (37), a cylinder support component (38), a lower die component (39), an upper die component (40), a cylinder fixing plate (42) and an expansion pressing cylinder component (43), the cylinder support component (38) is fixed between a first cross beam and a second cross beam of the rack assembly (7), the left end and the right end of the cylinder support component (38) are respectively provided with one positioning component (37), the left end and the right end of the cylinder support component (38) are respectively fixed with the lower die component (39), the upper portion of the lower die component (39) is in butt joint with the upper die component (40), the upper die component (40) is provided with a die connecting piece (41), the die connecting piece (41) is connected with the cylinder fixing plate (42), and the expansion pressing cylinder component (43) is mounted at the top of the cylinder fixing plate (42).

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