A pipe-laying device for a radiator pipe-laying machine

By employing a dual-set tube-laying mechanism on the radiator tube-laying machine, and utilizing a combination of upper translation, lower translation, and lifting mechanisms, the staggered operation of the two sets of tube-laying comb seats is achieved, solving the problem of low tube-laying efficiency in the existing technology and significantly improving the tube-laying efficiency of the radiator.

CN224333316UActive Publication Date: 2026-06-09XIN RUI MASCH & EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIN RUI MASCH & EQUIP CO LTD
Filing Date
2025-04-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing radiator piping machines are single-layer piping machines, which have low piping efficiency.

Method used

The system employs a dual-group tube-laying mechanism, which combines upper and lower translation and lifting mechanisms to achieve staggered operation of the two groups of tube-laying comb seats, thereby improving tube-laying efficiency.

Benefits of technology

The staggered tube-laying comb seat significantly improves the tube-laying efficiency of the radiator.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a radiator pipe laying machine's pipe laying device, it includes frame and pipe laying mechanism, and the pipe laying mechanism has two groups, and each group pipe laying mechanism includes frame board, pipe laying comb tooth seat, translation mechanism and elevating system, be equipped with upper translation slide rail, lower translation slide rail and longitudinal slide rail on the frame board, the translation mechanism includes upper translation mechanism and lower translation mechanism, and the upper translation mechanism includes the upper translation drive assembly and upper translation connection frame that are linked, the lower translation mechanism includes the lower translation drive assembly and lower translation connection assembly that are linked, the elevating system has two groups, and the longitudinal slide rail is correspondingly established, and the elevating system includes elevating drive part and horizontal short slide rail, and the horizontal short slide rail is linked with elevating drive part and longitudinal slide rail. One group pipe laying comb tooth seat of the utility model pipe laying device's process of operation, another group pipe laying comb tooth seat can staggered operation, and the butt joint flat pipe and the radiating band, and in this way, can greatly improve the pipe laying efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of radiator production equipment technology, specifically to a pipe laying device for a radiator pipe laying machine. Background Technology

[0002] Radiators are commonly used in automotive cooling systems. Radiators are typically square-shaped and consist of several parts, including a water chamber (inlet / outlet chamber), a radiator core (composed of heat dissipation strips and heat pipes arranged alternately), a main board, and side panels. During assembly, the radiator core needs to be arranged first, which involves arranging the heat dissipation strips and heat pipes alternately.

[0003] Existing radiator pipe laying machines are single-layer pipe laying machines, meaning that the radiator pipe laying machine only has one set of pipe laying comb seats. After the heat dissipation tape and heat dissipation pipe fill the pipe laying comb seat, the heat dissipation tape and heat dissipation pipe are removed as a whole, and the pipe laying comb seat will then carry out the next round of heat dissipation tape and heat dissipation pipe laying. As a result, the pipe laying efficiency is low. Utility Model Content

[0004] The purpose of this utility model is to overcome the shortcomings of the prior art and provide a tube laying device for a radiator tube laying machine with high tube laying efficiency.

[0005] To achieve the above objectives, the following technical solution is adopted:

[0006] The pipe laying device includes a frame and a pipe laying mechanism mounted on the frame. The pipe laying mechanism consists of two sets, which are arranged at intervals and opposite to each other.

[0007] Each pipe laying mechanism includes a frame plate, a pipe laying comb seat, a translation mechanism, and a lifting mechanism;

[0008] The frame plate is provided with an upper translation slide rail and a lower translation slide rail arranged horizontally at intervals and parallel to each other, and the two ends of the upper translation slide rail and the lower translation slide rail are provided with longitudinal slide rails;

[0009] The translation mechanism includes an upper translation mechanism and a lower translation mechanism. The upper translation mechanism includes a connected upper translation drive assembly and an upper translation connecting frame. The upper translation drive assembly drives the tube comb holder to translate on the upper translation slide rail through the upper translation connecting frame.

[0010] The lower translation mechanism includes a connected lower translation drive component and a lower translation connection component; the lower translation drive component drives the tube comb holder to translate on the lower translation slide rail through the lower translation connection component;

[0011] The lifting mechanism has two sets, which are arranged corresponding to the longitudinal slide rail; the lifting mechanism includes a lifting drive component and a transverse short slide rail, and the transverse short slide rail is connected to the lifting drive component and the longitudinal slide rail.

[0012] Preferably, the back of the transverse short slide rail is provided with a first slider, and the transverse short slide rail is connected to the longitudinal slide rail through the first slider.

[0013] Preferably, the back of the comb tooth holder is provided with a second slider, which is adapted to the upper translation slide rail, the lower translation slide rail and the transverse short slide rail.

[0014] Preferably, each tube-laying mechanism has two tube-laying comb seats.

[0015] Preferably, the lifting drive component is a cylinder, which is located below the transverse short slide rail, and the piston rod of the cylinder is connected to the lower end of the transverse short slide rail.

[0016] Preferably, both the upper translation drive assembly and the lower translation drive assembly include a motor, a reducer, a drive wheel, a driven wheel, and a transmission belt. The drive wheel is connected to the motor through the reducer, and the transmission belt is connected to the drive wheel and the driven wheel. The direction of the transmission belt is parallel to the upper translation slide rail.

[0017] Preferably, the upper translation connecting frame is L-shaped, including a horizontally connected connecting plate and a vertically connected connecting block. The front end of the connecting plate has a notch, and the upper back end of the comb tooth seat has a first locking block that engages with the notch. The connecting block is connected to the transmission belt of the upper translation drive assembly.

[0018] The back of the frame plate is provided with a first transverse drive slide rail, and the connecting block is provided with a third slider that is adapted to the first transverse drive slide rail.

[0019] Preferably, the frame plate is further provided with a second transverse drive slide rail, and the lower translation connection assembly includes a fourth slider and a second locking block. The fourth slider is connected to the second transverse drive slide rail, and the second locking block is connected to the fourth slider. The second locking block is connected to the transmission belt of the lower translation drive assembly. The upper end of the second locking block is a protrusion, and the bottom of the comb tooth seat is provided with a slot that matches the protrusion.

[0020] The beneficial effects of this utility model are:

[0021] 1. During the operation of one set of pipe-laying comb seats in the pipe-laying device of this utility model, the other set of pipe-laying comb seats can operate alternately to receive flat pipes and heat dissipation strips, thereby greatly improving pipe-laying efficiency.

[0022] 2. The reasonable layout of the upper sliding rail, lower sliding rail, longitudinal rail, and transverse short rail ensures a smooth and efficient operation of the tube comb seat. Attached Figure Description

[0023] Figure 1This is a schematic diagram illustrating the application of this utility model;

[0024] Figure 2 This is a schematic diagram of the pipe laying mechanism of this utility model;

[0025] Figure 3 for Figure 2 A magnified schematic diagram of the structure at point A;

[0026] Figure 4 for Figure 2 A magnified schematic diagram of the structure at point B;

[0027] Figure 5 for Figure 2 The front view;

[0028] Figure 6 This is a schematic diagram of the rear structure of the pipe laying mechanism;

[0029] Figure 7 for Figure 6 A magnified schematic diagram of the structure at point C;

[0030] Figure 8 A schematic diagram of the structure for concealing the comb tooth holder.

[0031] Explanation of symbols in the attached drawings:

[0032] Frame 1, upper translation slide rail 11, lower translation slide rail 12, longitudinal slide rail 13, first transverse drive slide rail 14, second transverse drive slide rail 15, tube comb seat 2, first locking block 21, slot 22, motor 31, reducer 32, drive wheel 33, driven wheel 34, transmission belt 35, upper translation connecting frame 4, connecting plate 41, notch 411, connecting block 42, third slider 421, lower translation connecting assembly 5, fourth slider 51, second locking block 52, cylinder 6, transverse short slide rail 7, first slider 71, motor 81, drive wheel 82, driven wheel 83, transmission belt 84, heat dissipation belt feeding mechanism 9. Detailed Implementation

[0033] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in 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 present utility model and are not intended to limit the present utility model. Example

[0034] refer to Figure 1-8 The radiator piping machine includes a frame and piping mechanisms mounted on the frame. There are two sets of piping mechanisms, which are arranged at intervals and opposite to each other.

[0035] Each pipe laying mechanism includes a frame plate 1, a pipe laying comb seat 2, a translation mechanism, and a lifting mechanism;

[0036] The frame plate 1 is provided with an upper translation slide rail 11 and a lower translation slide rail 12 arranged horizontally at intervals and parallel to each other. Both ends of the upper translation slide rail 11 and the lower translation slide rail 12 are provided with longitudinal slide rails 13.

[0037] The translation mechanism includes an upper translation mechanism and a lower translation mechanism. The upper translation mechanism includes an upper translation drive assembly and an upper translation connecting frame 4 connected together. The upper translation drive assembly drives the tube comb seat 2 to translate on the upper translation slide rail 11 through the upper translation connecting frame 4.

[0038] Specifically, the upper translation drive assembly includes a motor 31, a reducer 32, a drive wheel 33, a driven wheel 34, and a transmission belt 35. The drive wheel 33 is connected to the motor 31 through the reducer 32, and the transmission belt 35 is connected to the drive wheel 33 and the driven wheel 34. The running direction of the transmission belt 35 is parallel to the upper translation slide rail 11.

[0039] The upper translation connecting frame 4 is L-shaped, including a horizontally connected connecting plate 41 and a vertically connected connecting block 42. The front end of the connecting plate 41 has a notch 411, and the upper back of the tube comb seat 2 has a first locking block 21 that engages with the notch 411. The connecting block 42 is connected to the transmission belt 35 of the upper translation drive assembly. The back of the frame plate 1 is provided with a first transverse drive slide rail 14, and the connecting block 42 is provided with a third slider 421 that is adapted to the first transverse drive slide rail 14.

[0040] The lower translation mechanism includes a connected lower translation drive component and a lower translation connection component 5; the lower translation drive component drives the tube comb seat 2 to translate on the lower translation slide rail 12 through the lower translation connection component 5.

[0041] Specifically, the lower translation drive assembly includes a motor 81, a reducer, a drive wheel 82, a driven wheel 83, and a transmission belt 84. The drive wheel 82 is connected to the motor 81 through the reducer, and the transmission belt 84 is connected to the drive wheel 82 and the driven wheel 83. The running direction of the transmission belt 82 is parallel to the upper translation slide rail 11.

[0042] The frame plate 1 is also provided with a second transverse drive slide rail 15. The lower translation connection component 5 includes a fourth slider 51 and a second locking block 52. The fourth slider 51 is connected to the second transverse drive slide rail 15, and the second locking block 52 is connected to the fourth slider 51. The second locking block 52 is connected to the transmission belt 35 of the lower translation drive component. The upper end of the second locking block 52 is a protrusion. The bottom of the tube comb seat 2 is provided with a slot 22 that matches the protrusion.

[0043] There are two sets of lifting mechanisms, which are set in correspondence with the longitudinal slide rail 13. The lifting mechanism includes a lifting drive and a transverse short slide rail 7. The transverse short slide rail 7 is connected to the lifting drive. A first slider 71 is provided on the back of the transverse short slide rail 7. The transverse short slide rail 7 is connected to the longitudinal slide rail 13 through the first slider 71.

[0044] The lifting drive component is a cylinder 6, which is located below the transverse short slide rail 7. The piston rod of the cylinder 6 is connected to the lower end of the transverse short slide rail 7.

[0045] Each tube-laying mechanism has two tube-laying comb seats 2.

[0046] The back of the comb tooth holder 2 is provided with a second slider, which is compatible with the upper translation slide rail 11, the lower translation slide rail 12 and the transverse short slide rail 7.

[0047] In use, this tube-laying device is applied to a radiator tube-laying machine. One set of tube-laying comb seats 2 is located on a short transverse slide rail 7 near the flat tube feed point. At this time, the short transverse slide rail 7 is flush with the upper translation slide rail 11. The tube-laying comb seat 2 is translated by the upper translation mechanism. At the same time, the flat tube enters from the flat tube feed point and falls onto the tube-laying comb seat 2. When the tube-laying comb seat 2 is full of flat tubes, the feeding stops. The tube-laying comb seat 2 is translated along the upper translation slide rail 11 under the action of the upper translation mechanism. During the translation process, the heat dissipation tape is fed from the heat dissipation tape feeding mechanism 9 on the side of the tube-laying comb seat 2, filling the tube-laying comb seat 2.

[0048] The tube-laying comb seat 2 continues to move horizontally, and then the laid flat tube and heat dissipation strip are manually removed using a clamp. The tube-laying comb seat 2 then continues to move horizontally, reaching the longitudinal slide rail 13 at the end. At this point, the tube-laying comb seat 2 is located on the short transverse slide rail 7 at the end. The cylinder 6 then lowers the tube-laying comb seat 2 until it is flush with the lower translation slide rail 12. Under the action of the lower translation mechanism, the tube-laying comb seat 2 moves along the lower translation slide rail 12 to the longitudinal slide rail 13 near the flat tube feed point. At this point, the tube-laying comb seat 2 is located on the lowered short transverse slide rail 7 (the short transverse slide rail 7 near the flat tube feed point is lowered to be flush with the lower translation slide rail 12). Under the lifting action of the cylinder 6, the tube-laying comb seat 2 rises until the short transverse slide rail 7 aligns with the upper translation slide rail 11, continuing to receive the flat tube.

[0049] The above describes the operation process of a set of tube-laying comb seats 2. During the operation of one set of tube-laying comb seats 2, another set of tube-laying comb seats 2 can operate alternately to receive flat tubes and heat dissipation strips, thereby greatly improving tube-laying efficiency.

[0050] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the scope of protection of this utility model. Therefore, the scope of protection of this utility model should be determined by the scope of the claims.

Claims

1. A pipe-laying device for a radiator pipe-laying machine, characterized in that: The pipe laying device includes a frame and a pipe laying mechanism mounted on the frame. The pipe laying mechanism consists of two sets, which are arranged at intervals and opposite to each other. Each pipe laying mechanism includes a frame plate, a pipe laying comb seat, a translation mechanism, and a lifting mechanism; The frame plate is provided with an upper translation slide rail and a lower translation slide rail arranged horizontally at intervals and parallel to each other, and the two ends of the upper translation slide rail and the lower translation slide rail are provided with longitudinal slide rails; The translation mechanism includes an upper translation mechanism and a lower translation mechanism. The upper translation mechanism includes a connected upper translation drive assembly and an upper translation connecting frame. The upper translation drive assembly drives the tube comb holder to translate on the upper translation slide rail through the upper translation connecting frame. The lower translation mechanism includes a connected lower translation drive component and a lower translation connection component; the lower translation drive component drives the tube comb holder to translate on the lower translation slide rail through the lower translation connection component; The lifting mechanism has two sets, which are arranged corresponding to the longitudinal slide rail; the lifting mechanism includes a lifting drive component and a transverse short slide rail, and the transverse short slide rail is connected to the lifting drive component and the longitudinal slide rail.

2. The tube-laying device of the radiator tube-laying machine according to claim 1, characterized in that: The back of the transverse short slide rail is provided with a first slider, and the transverse short slide rail is connected to the longitudinal slide rail through the first slider.

3. The pipe-laying device of the radiator pipe-laying machine as described in claim 1, characterized in that: The back of the comb tooth holder is provided with a second slider, which is compatible with the upper translation slide rail, the lower translation slide rail and the transverse short slide rail.

4. The pipe-laying device of the radiator pipe-laying machine as described in claim 1, characterized in that: Each tube-laying mechanism has two tube-laying comb seats.

5. The pipe-laying device of the radiator pipe-laying machine as described in claim 1, characterized in that: The lifting drive component is a cylinder, which is located below the transverse short slide rail, and the piston rod of the cylinder is connected to the lower end of the transverse short slide rail.

6. The pipe-laying device of the radiator pipe-laying machine as described in claim 1, characterized in that: Both the upper translation drive assembly and the lower translation drive assembly include a motor, a reducer, a drive wheel, a driven wheel, and a transmission belt. The drive wheel is connected to the motor through the reducer, and the transmission belt is connected to the drive wheel and the driven wheel. The direction of the transmission belt is parallel to the upper translation slide rail.

7. The pipe-laying device of the radiator pipe-laying machine as described in claim 6, characterized in that: The upper translation connecting frame is L-shaped, including a horizontally connected connecting plate and a vertically connected connecting block. The front end of the connecting plate has a notch, and the upper back of the comb tooth seat has a first locking block that engages with the notch. The connecting block is connected to the transmission belt of the upper translation drive assembly. The back of the frame plate is provided with a first transverse drive slide rail, and the connecting block is provided with a third slider that is adapted to the first transverse drive slide rail.

8. The pipe-laying device of the radiator pipe-laying machine as described in claim 6, characterized in that: The frame plate is also provided with a second transverse drive slide rail. The lower translation connection component includes a fourth slider and a second locking block. The fourth slider is connected to the second transverse drive slide rail, and the second locking block is connected to the fourth slider. The second locking block is connected to the transmission belt of the lower translation drive component. The upper end of the second locking block is a protrusion, and the bottom of the comb tooth seat is provided with a slot that matches the protrusion.