CN220977092U - Heat exchange tube solid solution device - Google Patents
Heat exchange tube solid solution device Download PDFInfo
- Publication number
- CN220977092U CN220977092U CN202322686404.8U CN202322686404U CN220977092U CN 220977092 U CN220977092 U CN 220977092U CN 202322686404 U CN202322686404 U CN 202322686404U CN 220977092 U CN220977092 U CN 220977092U
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- CN
- China
- Prior art keywords
- fixedly connected
- frame
- cooling tank
- heat exchange
- solid solution
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Links
- 239000006104 solid solution Substances 0.000 title claims abstract description 15
- 238000001816 cooling Methods 0.000 claims abstract description 74
- 239000000498 cooling water Substances 0.000 claims description 5
- 230000017525 heat dissipation Effects 0.000 claims description 4
- 230000000149 penetrating effect Effects 0.000 claims 1
- 238000010438 heat treatment Methods 0.000 description 7
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 6
- 239000000243 solution Substances 0.000 description 5
- 230000000694 effects Effects 0.000 description 3
- 238000007605 air drying Methods 0.000 description 2
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 238000005260 corrosion Methods 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 239000003345 natural gas Substances 0.000 description 1
- 230000008092 positive effect Effects 0.000 description 1
- 230000005855 radiation Effects 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
Landscapes
- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model provides a heat exchange tube solid solution device, relates to the technical field of heat exchange tube processing auxiliary devices, and aims to solve the problems that a device for placing high-temperature tubes in a cooling tank in the existing solid solution device is complex in structure, difficult to operate and control by workers and high in safety risk.
Description
Technical Field
The utility model relates to the technical field of auxiliary devices for machining heat exchange pipes, in particular to a solid solution device for heat exchange pipes.
Background
In the pipe fitting processing process, the corrosion resistance of the pipe fitting can be greatly improved by carrying out solution treatment on the stainless steel pipe fitting, in the solution treatment process, a trolley or a box type circuit and a natural gas furnace are generally used for heating the pipe fitting and are matched with a cooling tank for use, when the pipe fitting to be subjected to heat treatment is treated, the pipe fitting to be subjected to heat treatment is placed into a heating furnace for heating and preserving heat, after the solution temperature and the preserving heat time are reached, the heated pipe fitting is placed into the cooling tank for cooling treatment and then is dried, and the device for placing the high-temperature pipe fitting in the cooling tank in the existing solution device has the problems of complex structure, difficult operation control of staff and high safety risk, so the solution device for the heat exchange pipe is designed for solving the technical problems, and is particularly important.
Disclosure of utility model
The utility model aims to solve the problems that in the prior art, a device for placing a high-temperature pipe fitting in a cooling tank is complex in structure, difficult to operate and control by a worker and high in safety risk in the existing solid solution device, and provides a heat exchange pipe solid solution device.
In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a heat exchange tube solid solution device, includes the base, fixedly connected with cooling tank on the base, swing joint has the frame in the cooling tank, the frame can slide and set up in the cooling tank, fixedly connected with multiunit support in the frame, install the pipe fitting on the support, adjacent leave working distance between the pipe fitting, the right-hand member fixed connection pulley of frame, fixedly connected with slide rail on the inner wall of cooling tank, the pulley slidable sets up on the slide rail.
Preferably, the left end fixedly connected with connecting block of frame, the connecting block with slidable setting between the cooling pond, wear to be equipped with the lead screw in the connecting block, the lead screw with threaded connection between the connecting block, the left side fixedly connected with forced air cooling structure of cooling pond, the last fixedly connected with backup pad of forced air cooling structure, fixedly connected with motor in the backup pad, the motor with the lead screw is linked together.
Preferably, the left end fixedly connected with interface of cooling pond, interface position department is through pipeline intercommunication cooling pond, interface position supply is low temperature cooling water.
Preferably, the air cooling structure comprises a rectangular plate, the rectangular plate is fixedly connected to the cooling pool, a turbofan is fixedly connected to the rectangular plate, a power supply is fixedly connected to the bottom of the rectangular plate, and the power supply is connected with the turbofan through a cable.
Preferably, through holes are uniformly distributed at the bottom of the frame, and heat dissipation holes are uniformly distributed on the side wall of the frame.
Compared with the prior art, the utility model has the advantages and positive effects that,
1. In the utility model, in use, the frame for fixing the pipe fitting can slide up and down in the cooling tank by sliding the frame in the cooling tank, the connecting block at the left end of the frame is driven by the driving of the screw rod and the motor to drive the frame to slide in the cooling tank, the pulley at the right end of the frame slides in the sliding rail to realize the sliding guide of the frame in the cooling tank, when the pipe fitting moves up in the cooling tank, the turbofan reaches the position, and the turbofan blows out the moisture on the key surface of the frame in time so as to achieve the effect of air-drying the pipe fitting.
2. In the utility model, in use, the external low-temperature cooling water is connected at the interface position and used for cooling the pipe fitting inside the frame, and the water on the surface of the pipe fitting in the frame is dried through the structural design of the turbofan.
Drawings
FIG. 1 is an overall view of a heat exchange tube solutionizing apparatus of the present utility model;
Legend description: 1. a base; 2. a cooling pool; 201. an interface; 202. a pipeline; 3. a frame; 301. a bracket; 302. a pipe fitting; 303. a through hole; 304. a heat radiation hole; 4. a pulley; 401. a slide rail; 5. a connecting block; 501. a screw rod; 502. a support plate; 503. a motor; 6. an air cooling structure; 601. a rectangular plate; 602. a turbo fan; 603. a power supply; 604. a cable.
Detailed Description
In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.
The utility model provides a heat exchange tube solid solution device, which comprises a base 1, wherein a cooling tank 2 is fixedly connected to the base 1, a frame 3 is movably connected to the cooling tank 2, the frame 3 can be slidably arranged in the cooling tank 2, a plurality of groups of brackets 301 are fixedly connected to the frame 3, pipe fittings 302 are arranged on the brackets 301, working distances are reserved between adjacent pipe fittings 302, the right end of the frame 3 is fixedly connected with a pulley 4, a sliding rail 401 is fixedly connected to the inner wall of the cooling tank 2, the pulley 4 can be slidably arranged on the sliding rail 401, the left end of the frame 3 is fixedly connected with a connecting block 5, a screw rod 501 is slidably arranged between the connecting block 5 and the cooling tank 2, a screw rod 501 is penetrated in the connecting block 5, the screw rod 501 is in threaded connection with the connecting block 5, the left side of the cooling tank 2 is fixedly connected with an air cooling structure 6, a supporting plate 502 is fixedly connected to the air cooling structure 6, the motor 503 is communicated with the right end of the frame 3, the bottom of the frame 3 is fixedly connected with a sliding rail 401, the left side wall 303 is uniformly distributed with a through holes 303 of the frame 3, and the water is conveniently distributed on the side wall of the frame 3 through the cooling structure, and the side wall of the cooling structure is convenient to enter the cooling structure 3 through the cooling structure, and the cooling structure is convenient to be designed;
When the heat exchange tube solid solution device is in actual use, firstly, the tube 302 put into the cooling tank 2 by the frame 3 is the tube 302 heated at high temperature, the cooling tank 2 contains a large amount of low-temperature water for cooling before the frame 3 enters the cooling tank 2, at the moment, the motor 503 starts to work to drive the screw rod 501 to start rotating, the screw rod 501 rotates to drive the connecting block 5 to slide up and down on the screw rod 501 due to the threaded connection between the connecting block 5 and the screw rod 501, meanwhile, the pulley 4 at the right end of the frame 3 slides in the corresponding sliding rail 401 to drive the frame 3 to slide up and down on the screw rod 501 until the tube 302 in the frame 3 enters the cooling tank 2 completely, after a period of cooling, the motor 503 is driven again to drive the screw rod 501 to rotate reversely, the connecting block 5 and the screw rod 501 rotate mutually to drive the cooled tube 302 to move up in the frame 3, when the frame 3 is operated to the right side of the turbofan 602, the power supply 603 is matched with the cable 604 to start supplying power to the turbofan 602, the blown wind is continuously blown to the right side of the turbofan 602, the blown wind is supplied to the pipe fitting 302 in the frame 3 through the position of the heat dissipation hole 304, moisture on the pipe fitting 302 is taken away, the cooling work after heating the heat exchange pipe is completed, the frame 3 for fixing the pipe fitting 302 can slide up and down in the cooling tank 2 through sliding the frame 3 in the cooling tank 2, the connecting block 5 at the left end of the frame 3 is matched with the driving of the screw rod 501 and the motor 503 to drive the sliding motion of the frame 3 in the cooling tank 2, the pulley 4 at the right end of the frame 3 slides in the sliding rail 401 to realize sliding guiding of the frame 3 in the cooling tank 2, when the pipe fitting 302 moves up in the cooling tank 2, the position of the turbofan 602 is reached, the turbofan 602 blows out the wind in time to take away the moisture on the key surface in the frame 3 so as to achieve the effect of air-drying the pipe fitting 302.
Example 1
As shown in fig. 1, the left end of the cooling tank 2 is fixedly connected with an interface 201, the position of the interface 201 is communicated with the cooling tank 2 through a pipeline 202, low-temperature cooling water is supplied to the position of the interface 201, the air cooling structure 6 comprises a rectangular plate 601, the rectangular plate 601 is fixedly connected with the cooling tank 2, a turbine fan 602 is fixedly connected with the rectangular plate 601, the bottom of the rectangular plate 601 is fixedly connected with a power supply 603, the power supply 603 is connected with the turbine fan 602 through a cable 604,
The effect achieved by the whole embodiment 1 is that in use, the external low-temperature cooling water is connected at the position of the interface 201 and used for cooling the pipe fitting 302 inside the frame 3, and the water on the surface of the pipe fitting 302 in the frame 3 is dried through the structural design of the turbofan 602.
Working principle: the frame is placed in the cooling tank and is heated at high temperature, the cooling tank contains a large amount of low-temperature water for cooling before the frame enters the cooling tank, at the moment, the motor starts to work to drive the screw rod to start rotating, the screw rod rotates to drive the connecting block to slide up and down on the screw rod due to threaded connection between the connecting block and the screw rod, meanwhile, the pulley at the right end of the frame slides in the corresponding sliding rail to drive the frame to slide up and down on the screw rod, until all the pipe fittings in the frame enter the cooling tank and are cooled for a period of time, the motor is driven again to drive the screw rod to reversely rotate, the connecting block and the screw rod rotate mutually to drive the cooled pipe fittings to ascend in the frame, when the frame runs to the right side of the turbofan, the power supply cable starts to supply power to the turbofan continuously, the blown wind supplies wind to the pipe fittings in the frame through the positions of the heat dissipation holes, and the water on the pipe fittings is taken away, and the cooling work after the heating of the heat exchange pipe is completed.
Claims (5)
1. The utility model provides a heat exchange tube solid solution device, includes base (1), fixedly connected with cooling tank (2) on base (1), a serial communication port, swing joint has frame (3) in cooling tank (2), frame (3) slidable sets up in cooling tank (2), fixedly connected with multiunit support (301) in frame (3), install pipe fitting (302) on support (301), adjacent leave working distance between pipe fitting (302), right-hand member fixed connection pulley (4) of frame (3), fixedly connected with slide rail (401) on the inner wall of cooling tank (2), pulley (4) slidable set up on slide rail (401).
2. The heat exchange tube solid solution device according to claim 1, wherein a connecting block (5) is fixedly connected to the left end of the frame (3), the connecting block (5) is slidably arranged between the cooling tank (2), a screw rod (501) is arranged in the connecting block (5) in a penetrating manner, the screw rod (501) is in threaded connection with the connecting block (5), an air cooling structure (6) is fixedly connected to the left side of the cooling tank (2), a supporting plate (502) is fixedly connected to the air cooling structure (6), a motor (503) is fixedly connected to the supporting plate (502), and the motor (503) is communicated with the screw rod (501).
3. The heat exchange tube solid solution device according to claim 1, wherein an interface (201) is fixedly connected to the left end of the cooling tank (2), the position of the interface (201) is communicated with the cooling tank (2) through a pipeline (202), and low-temperature cooling water is supplied to the position of the interface (201).
4. The heat exchange tube solid solution device according to claim 2, wherein the air cooling structure (6) comprises a rectangular plate (601), the rectangular plate (601) is fixedly connected to the cooling tank (2), a turbofan (602) is fixedly connected to the rectangular plate (601), a power supply (603) is fixedly connected to the bottom of the rectangular plate (601), and the power supply (603) is connected with the turbofan (602) through a cable (604).
5. The heat exchange tube solid solution device according to claim 1, wherein through holes (303) are uniformly distributed at the bottom of the frame (3), and heat dissipation holes (304) are uniformly distributed on the side wall of the frame (3).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322686404.8U CN220977092U (en) | 2023-10-08 | 2023-10-08 | Heat exchange tube solid solution device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322686404.8U CN220977092U (en) | 2023-10-08 | 2023-10-08 | Heat exchange tube solid solution device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220977092U true CN220977092U (en) | 2024-05-17 |
Family
ID=91037901
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322686404.8U Active CN220977092U (en) | 2023-10-08 | 2023-10-08 | Heat exchange tube solid solution device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220977092U (en) |
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2023
- 2023-10-08 CN CN202322686404.8U patent/CN220977092U/en active Active
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