CN114123659A - Flexible water-cooling heat dissipation device and use method - Google Patents

Abstract

The utility model provides a flexible water-cooling heat abstractor and application method, contain a plurality of left side cooling tubes and a plurality of right side cooling tubes that correspond, the lower extreme of left side cooling tube and right side cooling tube is respectively through the flexible butt joint of silicon rubber tube, the upper end of left side cooling tube and right side cooling tube is through the flexible dislocation order butt joint of silicon rubber tube, make left side cooling tube and right side cooling tube connect into a continuous cold water route, communicate water inlet and cold water pipeline with right side cooling tube upper end, communicate delivery port and the drain line of left side cooling tube upper end, make left side cooling tube and right side cooling tube form the mobile cold water heat dissipation layer that covers the radiated object.

Description

Flexible water-cooling heat dissipation device and use method

Technical Field

The application relates to the field of external heat dissipation of special motors, in particular to a flexible water-cooling heat dissipation device and a using method thereof.

Background

When high-temperature air heating equipment such as an autoclave works, a stirring fan is needed to ensure the circulation flow of internal hot air. The motor of the stirring fan bears self heating and high heat of the equipment for a long time, and fault alarm is frequently generated. Under the condition that the external environment temperature is higher in summer and the like, the frequency of alarm halt of the stirring fan motor is obviously increased. The patent is under the condition that does not change and treats heat-radiating equipment self structure, through designing a flexible water-cooling open-close type motor heat abstractor that can conveniently dismantle, install in stirring fan motor outside, reliably increases stirring fan motor's radiating efficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a flexible water-cooling heat dissipation device and a use method thereof, which are used for external heat dissipation of a motor special for stirring of high-temperature air heating equipment.

The utility model provides a flexible water-cooling heat abstractor, a serial communication port, contain cooling tube and silicone rubber tube, the cooling tube contain a plurality of left sides cooling tube and a plurality of right side cooling tube that correspond, the lower extreme of left side cooling tube and right side cooling tube is respectively through the flexible butt joint of silicone rubber tube, the flexible dislocation order butt joint of silicone rubber tube is passed through to the upper end of left side cooling tube and right side cooling tube, make left side cooling tube and right side cooling tube connect into a continuous cold water route, the upper end of first right side cooling tube forms the water inlet of continuous cold water route, the upper end of last left side cooling tube forms the delivery port of continuous cold water route.

The middle parts of the left radiating pipe and the right radiating pipe are matched with the surface shape of a radiated object, and the middle parts of the left radiating pipe and the right radiating pipe are wrapped by the surface of the radiated object to form a water-cooling radiating layer.

The both ends of left side cooling tube and right side cooling tube are the hook-shaped structure of symmetry respectively, and the hook-shaped front end is the level form, makes things convenient for the butt joint of silicon rubber pipe, and the hooked rear end is one section vertical straight tube, and the location between convenient left side cooling tube and the right side cooling tube is fixed.

The straight pipe parts at the two ends of the left radiating pipe and the right radiating pipe are respectively locked into an integral structure through a strip annular hoop.

The long-strip annular hoop comprises two parallel clamping rods and a lock seat, one end heads of the two clamping rods are hinged to the lock seat respectively, the other end heads of the two clamping rods are provided with transverse through holes, and bolts and nuts are connected with the other end heads of the two clamping rods through the through holes.

The use method of the flexible water-cooling heat dissipation device is characterized by comprising the following steps: 1) two ends of the left radiating pipe and the right radiating pipe are connected in series through a silicone rubber pipe to form a continuous cold water passage; 2) the left radiating pipes are arranged and coated on the left side of the object to be radiated, and the right radiating pipes are arranged and coated on the right side of the object to be radiated; 3) the left radiating pipe and the right radiating pipe are fixed into an integral structure at vertical straight pipes at two ends of the radiating pipe through strip-shaped annular hoops respectively; 4) the water inlet at the upper end of the right radiating pipe is communicated with the cold water pipeline, the water outlet at the upper end of the left radiating pipe is communicated with the water drainage pipeline, and the left radiating pipe and the right radiating pipe form a flowing cold water radiating layer for coating a radiated object.

The beneficial effect of this application lies in: 1) the heat dissipation device adopts a plurality of heat dissipation pipes and silicone rubber pipes to form flexible external water-cooling heat dissipation, and does not change the heat dissipation structure of the original motor; 2) the device is of a flexible structure, and can be disassembled and then installed for motors with narrow field space or special structures; 3) compared with a totally-enclosed radiator, the device has wider requirement on the water quality of cooling water and is more convenient for cleaning water scale; 4) the heat dissipation efficiency of the heat dissipation device can be adjusted as required by using the booster pump.

The invention is described in further detail below with reference to the accompanying drawings of embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a flexible water-cooling heat dissipation device.

Fig. 2 is a schematic diagram showing the flexible staggered connection of the upper ends of the left radiating pipe and the right radiating pipe.

Fig. 3 is a schematic view illustrating the flexible connection of the lower ends of the left radiating pipe and the right radiating pipe.

Fig. 4 is an exploded view of the flexible water-cooling heat dissipation device.

Fig. 5 is an exploded view of the elongated annular band.

Fig. 6 is a schematic view of a method for using the flexible water-cooling heat dissipation device.

The numbering in the figures illustrates: 1 left side cooling tube, 2 right side cooling tubes, 3 silicon rubber tube, 4 clamps, 5 water inlets, 6 water outlets, 7 booster pumps, 8 clamping bars, 9 lock seats, 10 pin shafts, 11 bolts, 12 cold water cooling layers and 13 motors.

Detailed Description

Referring to the drawings, the flexible water-cooling heat dissipation device of the embodiment is used for dissipating heat of a special motor 13, and the main structure of the heat dissipation device comprises a plurality of left heat dissipation pipes 1 and a plurality of corresponding right heat dissipation pipes 2 and a plurality of silicone rubber pipes 3 for butting two ends of the heat dissipation pipes, wherein the lower ends of the left heat dissipation pipes 1 and the right heat dissipation pipes 2 are flexibly butted through the silicone rubber pipes 3 respectively, as shown in fig. 3, the upper ends of the left heat dissipation pipes 1 and the right heat dissipation pipes 2 are butted in a flexible staggered sequence through the silicone rubber pipes 3, as shown in fig. 2, the left heat dissipation pipes 1 and the right heat dissipation pipes 2 are connected into a continuous cold water passage through connection of the silicone rubber pipes 3, the upper end of the first right heat dissipation pipe forms a water inlet 5 of the continuous cold water passage, and the upper end of the last left heat dissipation pipe forms a water outlet 6 of the continuous cold water passage.

In order to improve the heat dissipation efficiency, the middle parts of the left heat dissipation pipe 1 and the right heat dissipation pipe 2 are matched with the surface shape of the motor 13 of the object to be dissipated, the middle parts are C-shaped and can be tightly attached to the shell of the motor 13, after the left heat dissipation pipe 1 and the right heat dissipation pipe 2 are butted, the middle parts form a cylinder matched with the shell of the motor 13 to wrap the motor, and when cold water flows through the heat dissipation pipes, a water cooling heat dissipation layer 12 is formed on the surface of the motor 13.

For the convenience of installation, the two ends of the left radiating pipe 1 and the right radiating pipe 2 in the embodiment are respectively of symmetrical hook-shaped structures, the front ends of the hook-shaped structures are horizontal, the silicon rubber pipes 3 are convenient to butt, the rear ends of the hook-shaped structures are vertical straight pipes, and the left radiating pipe and the right radiating pipe are convenient to fix.

As shown in the figure, the straight pipe portions at both ends of the left radiating pipe 1 and the right radiating pipe 2 are locked into an integral structure by a long annular clamp 4. The rectangular annular clamp in the embodiment contains two parallel clamping bars 8 and a lock seat 9, one end heads of the two clamping bars 8 are hinged to the lock seat 9 through pin shafts 10 respectively, the other end heads of the two clamping bars 8 are provided with transverse through holes, and a bolt 11 and a nut are connected with the other end heads of the two clamping bars 8 through the through holes.

According to the method for carrying out water-cooling on the motor by using the flexible water-cooling heat dissipation device, firstly, two ends of a left heat dissipation pipe 1 and a right heat dissipation pipe 2 are connected in series through a silicone rubber pipe 3 to form a continuous cold water passage; the left radiating pipe 1 is arranged and coated on the left side of a radiating object motor 13, and the right radiating pipe 2 is arranged and coated on the right side of the radiating object motor; the left radiating pipe 1 and the right radiating pipe 2 are fixed into an integral structure at vertical straight pipes at two ends of the radiating pipe through a strip-shaped annular hoop 4; a water inlet 5 at the upper end of the right radiating pipe is communicated with a cold water pipeline, a booster pump 7 can be arranged at the water inlet 5 to accelerate the supply speed and flow rate of cold water, a water outlet 6 at the upper end of the left radiating pipe is communicated with a water drainage pipeline, and the left radiating pipe 1 and the right radiating pipe 2 form a flowing cold water radiating layer 12 for coating a motor 3 of a radiated object.

The radiating pipe in the implementation can use copper pipe or other pipe materials with good radiating performance.

The heat dissipation device is a flexible structure assembled and installed by copper pipes, is convenient to disassemble and assemble, and does not change the internal and external structures of an original motor or an object to be dissipated. The heat dissipation device adopts copper pipe water cooling, has high heat dissipation efficiency, relatively wide requirement on the water quality of circulating water, and can be detached singly for common faults of the heat dissipation device, thereby being convenient for maintenance.

Claims (6)

1. The utility model provides a flexible water-cooling heat abstractor, a serial communication port, contain cooling tube and silicone rubber tube, the cooling tube contain a plurality of left sides cooling tube and a plurality of right side cooling tube that correspond, the lower extreme of left side cooling tube and right side cooling tube is respectively through the flexible butt joint of silicone rubber tube, the flexible dislocation order butt joint of silicone rubber tube is passed through to the upper end of left side cooling tube and right side cooling tube, make left side cooling tube and right side cooling tube connect into a continuous cold water route, the upper end of first right side cooling tube forms the water inlet of continuous cold water route, the upper end of last left side cooling tube forms the delivery port of continuous cold water route.

2. The flexible water-cooled heat dissipating device as claimed in claim 1, wherein the middle portions of the left and right radiating pipes are matched with the surface shape of the object to be heat dissipated, and the middle portions of the left and right radiating pipes are wrapped by the surface of the object to be heat dissipated to form the water-cooled heat dissipating layer.

3. The flexible water-cooled heat dissipating device as claimed in claim 1, wherein the left radiating pipe and the right radiating pipe have symmetrical hook-shaped structures at both ends thereof, the front ends of the hook-shaped structures are horizontal to facilitate the butt joint of the silicone rubber pipes, and the rear ends of the hook-shaped structures are vertical straight pipes to facilitate the fixing of the left radiating pipe and the right radiating pipe.

4. The flexible water-cooled heat dissipating device as claimed in claim 1, wherein the straight pipe portions of the left and right radiating pipes are fastened to each other by means of an elongated annular band.

5. The flexible water-cooled heat sink device as claimed in claim 1, wherein the elongated annular band comprises two parallel clamping rods and a lock seat, one end of each clamping rod is hinged to the lock seat, the other end of each clamping rod is provided with a transverse through hole, and a bolt and a nut are used to connect the other ends of the clamping rods through the through holes.

6. The use method of the flexible water-cooled heat sink according to claim 1, 2, 3, 4 or 5, comprising the following steps: 1) two ends of the left radiating pipe and the right radiating pipe are connected in series through a silicone rubber pipe to form a continuous cold water passage; 2) the left radiating pipes are arranged and coated on the left side of the object to be radiated, and the right radiating pipes are arranged and coated on the right side of the object to be radiated; 3) the left radiating pipe and the right radiating pipe are fixed into an integral structure at vertical straight pipes at two ends of the radiating pipe through strip-shaped annular hoops respectively; 4) the water inlet at the upper end of the right radiating pipe is communicated with the cold water pipeline, the water outlet at the upper end of the left radiating pipe is communicated with the water drainage pipeline, and the left radiating pipe and the right radiating pipe form a flowing cold water radiating layer for coating a radiated object.

Images