CN111504115B

CN111504115B - Vertical water-cooling heat dissipation device

Info

Publication number: CN111504115B
Application number: CN202010606849.9A
Authority: CN
Inventors: 王东兴
Original assignee: Pilot Industrial Technology Research Institute Shandong Co ltd
Current assignee: Sichuan Bachs Technology Co ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-12-01
Anticipated expiration: 2040-06-30
Also published as: CN111504115A

Abstract

The invention discloses a vertical water-cooling heat dissipation device, which relates to the technical field of heat exchangers and comprises a first box body, wherein a first pipe group is arranged in the first box body, a spraying assembly is arranged at the top of the first box body, a water collecting tank is arranged at the bottom of the first box body, a plurality of vertically arranged first air-cooling tanks are arranged between the first box body and the water collecting tank, a second air-cooling tank is arranged between the first air-cooling tank and the water collecting tank, a second pipe group is arranged in the second air-cooling tank, and the first pipe group is connected with the second pipe group through a first connecting pipe. The invention solves the technical problem of low heat exchange efficiency of the cooling heat exchanger in the prior art, realizes two-stage cooling of liquid, improves the heat exchange efficiency, avoids the damage to the properties of liquid materials caused by quenching of the liquid and avoids the generation of scale.

Description

Vertical water-cooling heat dissipation device

Technical Field

The invention relates to the technical field of heat exchangers, in particular to a vertical water-cooling heat dissipation device.

Background

Cooling heat exchange equipment used in the industries of petroleum, chemical engineering, electronics, casting, food, central air conditioning and the like mostly adopts the form of an open cooling tower and a shell-and-tube heat exchanger, and the evaporation capacity of cooling water caused by convective mass transfer is large; the evaporation increases the salinity of the circulating cooling water, and in order to stabilize the water quality, a part of water with higher salinity must be drained; wind blowing also causes water loss. Therefore, a source of make-up water is required. Meanwhile, as the cooling water is directly contacted with the ambient air, the cooling water is very easy to pollute the environment and breed microorganisms such as algae, and the water quality of the process water is deteriorated.

The air cooler is used by users in areas with deficient water resources, although the equipment can save a large amount of water resources, the initial investment is large, the operation power consumption is high, the environmental influence is large, the cooling effect is greatly reduced in summer, and the normal operation of the process flow is influenced.

Disclosure of Invention

Aiming at the defects, the invention aims to provide a vertical water-cooling heat dissipation device and aims to solve the technical problem that the heat exchange efficiency of a cooling heat exchange device in the prior art is low.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a vertical water-cooling heat abstractor, includes first box, is equipped with first nest of tubes in the first box, and spray assembly is installed at first box top, and the bottom of first box is equipped with the header tank, installs the first forced air cooling case of a plurality of vertical arrangement between first box and the header tank, installs the second forced air cooling case between first forced air cooling case and the header tank, is equipped with the second nest of tubes in the second forced air cooling case, and first nest of tubes passes through first connecting pipe with the second nest of tubes and is connected.

Wherein, first forced air cooling case includes the second box, and first barrel has been cup jointed to the second box with the interval, and first barrel sets up along the length direction of second box, and first barrel inner wall rigid coupling has the first fin of a plurality of, and the first fin of a plurality of is the circumference and arranges the setting, and a port of first barrel is equipped with first fan, and another port of first barrel is equipped with the dust screen.

The second air cooling box comprises a third box body, a second barrel is sleeved in the third box body at intervals, and the second pipe group is located between the outer wall of the second barrel and the inner wall of the third box body.

Wherein, the inner wall of the second cylinder is fixedly connected with a plurality of second radiating fins, and one port of the second cylinder is provided with a second fan.

Wherein, first nest of tubes includes the wave venturi tube that a plurality of level set up, and a plurality of wave venturi tube is arranged along vertical direction interval, and the outside of first box is equipped with the second connecting pipe, and the homonymy mouth of pipe of a plurality of wave venturi tube is connected on same second connecting pipe, and the second connecting pipe is located first box outside, is equipped with the valve on the pipeline section of the second connecting pipe between two adjacent wave venturi tubes.

Wherein, first box top is equipped with the fourth box, and the spray assembly drenches the pipe including the main shower that is located the fourth box, and the main shower is drenched the union coupling and is supplied water the source, and the vertical rigid coupling in bottom of main shower has a plurality of spray branch pipe, and spray branch pipe extends to first nest of tubes in, is equipped with a plurality of apopore on the spray branch pipe.

Wherein, be equipped with the defroster that is located first nest of tubes top in the fourth box, the defroster is located the below of main shower.

Wherein, horizontal installation has a plurality of branch pipe that induced drafts that is located between main shower and the defroster in the fourth box, and a plurality of branch pipe that induced drafts arranges along the length direction interval of fourth box and sets up, and the bottom of branch pipe that induced drafts is equipped with a plurality of inlet scoop, and the fourth box is equipped with the person in charge that induced drafts outward, and the branch connection that induced drafts is responsible for on induced drafts the person in.

The fifth box body is fixedly connected to the upper portion of the fourth box body, a plurality of supporting pipes are fixedly connected to the inner portion of the fifth box body, the supporting pipes are arranged at intervals along the length direction of the fifth box body, and pipe holes of the supporting pipes penetrate through the outer wall of the fifth box body.

The fourth box body is connected in the first box body in an inserted mode, and a linear driving mechanism used for driving the fourth box body to vertically reciprocate is mounted on the first box body.

After the technical scheme is adopted, the invention has the beneficial effects that:

the vertical water-cooling heat dissipation device comprises a first box body, wherein a first pipe group is arranged in the first box body, a spraying assembly is arranged at the top of the first box body, a water collecting tank is arranged at the bottom of the first box body, a plurality of vertically arranged first air-cooling tanks are arranged between the first box body and the water collecting tank, a second air-cooling tank is arranged between the first air-cooling tanks and the water collecting tank, a second pipe group is arranged in the second air-cooling tank, and the first pipe group and the second pipe group are connected through a first connecting pipe. Spray the continuous downward spray cold water of subassembly, cold water lasts and carries out the heat exchange with the liquid of first nest of tubes, water after the heat exchange becomes high-temperature water, high-temperature water continues the downstream and enters into and realizes multistage forced air cooling in the first forced air cooling case, make high-temperature water become well warm water, well warm water gets into the liquid realization heat exchange in second forced air cooling case and the second nest of tubes, flow into the header tank at last and concentrate the discharge, because liquid is via the entry of second nest of tubes, liquid and the well warm water through the heat exchange carry out preliminary heat exchange promptly, liquid after the preliminary cooling reachs with the cold water heat exchange in the first nest of tubes, realize complete heat exchange, the cooling process of liquid divide into two segmentations and goes on, one section is preliminary cooling, the other end is for the complete cooling, avoid the liquid quench to cause destruction to liquid material nature, avoid the production.

Because first forced air cooling case includes the second box, has cup jointed first barrel in the second box with the interval, and first barrel sets up along the length direction of second box, and first barrel inner wall rigid coupling has the first fin of a plurality of, and the first fin of a plurality of is the circumference and arranges the setting, and a port of first barrel is equipped with first fan, and another port of first barrel is equipped with the dust screen.

Because the second air cooling box comprises a third box body, a second barrel is sleeved in the third box body at intervals, and the second pipe group is positioned between the outer wall of the second barrel and the inner wall of the third box body.

Because second barrel inner wall rigid coupling has a plurality of second fin, and a port of second barrel is equipped with the second fan, through the convulsions that the second fan lasts to continuously take out the steam in the second barrel, first barrel inner wall rigid coupling has a plurality of second fin, and the second fin has improved the area of contact of mobile air and second barrel, has improved further the effect of having improved the preliminary cooling to liquid.

Because the first nest of tubes includes the wave venturi tube that a plurality of level set up, a plurality of wave venturi tube is along vertical direction interval arrangement, the outside of first box is equipped with the second connecting pipe, the homonymy mouth of pipe of a plurality of wave venturi tube is connected on same second connecting pipe, the second connecting pipe is located first box outside, be equipped with the valve on the pipeline section of the second connecting pipe between two adjacent wave venturi tubes, the switching through the valve can realize the multiple flow mode of liquid in the wave venturi tube, thereby satisfy the installation, the needs of liquid velocity of flow regulation and control.

Because first box top is equipped with the fourth box, the spray assembly drenches the pipe including the main shower that is located the fourth box, and the main shower is drenched the union coupling and is supplied water source, and the vertical rigid coupling in bottom of main shower has a plurality of spray branch pipe, and spray branch pipe extends to first nest of tubes in, is equipped with a plurality of apopore on the spray branch pipe. The cold water that the water supply source provided shunts to each spray branch pipe after entering main shower, then sprays the cooling tube through the apopore on to the homogeneity that sprays has been improved, makes the complete cooling efficiency of liquid higher.

Because horizontal installation has a plurality of branch pipe that induced drafts that is located between main shower and the defroster in the fourth box, a plurality of branch pipe that induced drafts arranges along the length direction interval of fourth box and sets up, and the bottom of branch pipe that induced drafts is equipped with a plurality of inlet scoop, and the fourth box is equipped with the person in charge that induced drafts outward, and the branch pipe connection that induced drafts is responsible for on induced drafts the person in. The branch air draft tube is used for accelerating the flow of air and timely extracting the heated air, so that the water vapor can be rapidly condensed.

Because the fifth box body is fixedly connected above the fourth box body, the fifth box body is internally and fixedly connected with a plurality of supporting tubes, the supporting tubes are arranged at intervals along the length direction of the fifth box body, and the tube holes of the supporting tubes penetrate through the outer wall of the fifth box body. The top of the fourth box body is closed in a clearance mode through the support pipes, so that water vapor which is not condensed can be condensed on the support pipes, and the heat dissipation performance of the support pipes can be improved through the communication of pipe holes of the support pipes.

Because the fourth box body is connected in the first box body in an inserted mode, a linear driving mechanism used for driving the fourth box body to vertically reciprocate is mounted on the first box body. Thereby go up and down to drive the lift of spraying branch pipe through sharp actuating mechanism drive fourth box for spraying branch pipe sprays more evenly in first nest of tubes, further improves the radiating efficiency.

In conclusion, the invention solves the technical problem of low heat exchange efficiency of the cooling heat exchange device in the prior art, realizes two-stage temperature reduction of liquid, improves the heat exchange efficiency, avoids the damage to the properties of liquid materials caused by liquid quenching, and avoids the generation of scale.

Drawings

FIG. 1 is a front view of a vertical water-cooled heat sink of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken in the direction B-B of FIG. 2;

FIG. 4 is a longitudinal cross-sectional view of FIG. 1;

fig. 5 is a schematic view of the structure of the second tube group in fig. 4;

in the figure, a first box 1, a first pipe group 10, a corrugated pipe 100, a second connecting pipe 101, a valve 102, a first connecting pipe 11, an electronic thermometer 110, a linear driving mechanism 12, a third radiating fin 13, a fourth box 2, a spray component 20, a main spray pipe 200, a spray branch pipe 201, a demister 21, a suction branch pipe 22, a suction main pipe 23, a fifth box 24, a support pipe 240, a first air cooling box 3, a second box 30, a first cylinder 31, a first radiating fin 32, a first fan 33, a dust screen 34, a second air cooling box 4, a second pipe group 40, a third box 41, a second cylinder 42, a second radiating fin 43, a second fan 44, a water collecting box 5 and a support 50.

Detailed Description

The invention is further elucidated with reference to the drawing.

The directions referred to in the specification all refer to the directions of the vertical water-cooling heat dissipation device in normal operation, and the directions of the vertical water-cooling heat dissipation device in storage and transportation are not limited, and only represent relative position relations, but not absolute position relations.

As shown in the figures 1 and 2, respectively, fig. 3, fig. 4 and fig. 5 collectively show, the vertical water-cooling heat dissipation device includes a first box 1, the bottom of the first box 1 is butted with a first air-cooling box 3, the first air-cooling box 3 is provided with a plurality of first air-cooling boxes 3, the plurality of first air-cooling boxes 3 are vertically butted in sequence, the bottom of the first air-cooling box 3 located at the lowest position is butted with a second air-cooling box 4, the bottom of the second air-cooling box 4 is butted with a water collecting box 5, a support 50 is installed on the water collecting box 5, a first pipe group 10 is arranged in the first box 1, a liquid supply source is connected to a liquid inlet end of the first pipe group 10, a liquid outlet end of the second pipe group 40 is connected with a liquid storage device, a spray assembly 20 is installed at the top of the first box 1, a second pipe group 40 is arranged in the second air-cooling box 4, the first pipe group 10 is connected with the second pipe group 40 through a first connecting pipe 11, the first connecting pipe 11 is.

When the multi-stage air cooling water pump is used, a liquid supply source continuously conveys liquid under the action of a pump body, the liquid firstly passes through the second pipe group 40, then passes through the first pipe group 10 and finally flows into the liquid storage device, in the process, the spraying component 20 continuously sprays cold water downwards, the cold water continuously exchanges heat with the liquid of the first pipe group 10, the water after heat exchange is changed into high-temperature water, the high-temperature water continuously flows downwards and enters the first air cooling box 3 to realize multi-stage air cooling, the high-temperature water is changed into medium-temperature water, the medium-temperature water enters the second air cooling box 4 to realize heat exchange with the liquid in the second pipe group 40, and finally flows into the water collecting box 5 to be intensively discharged, as the liquid enters through the second pipe group 40, namely the high-temperature liquid and the medium-temperature water after heat exchange primarily, the liquid after primary cooling reaches the first pipe group 10 to exchange heat with the cold water, and, the cooling process of liquid is divided into two segmentation and is gone on, and one section is for preliminary cooling, and the other end is for cooling down completely, avoids the liquid quench to cause destruction to liquid material nature, avoids the production of incrustation scale.

Preferably, the first air-cooling box 3 includes a second box 30, the first cylinder 31 is sleeved in the second box 30 at intervals, the first cylinder 31 is arranged along the length direction of the second box 30, the inner cavity of the first cylinder 31 penetrates through two opposite sides of the second box 30, the gap between the length side of the second box 30 and the first cylinder 31 is 15-30 cm, water flows through the first air-cooling box 3 through the gap, a first fan 33 is arranged at one port of the first cylinder 31, the first fan 33 continuously draws air, so as to continuously draw out hot air in the first cylinder 31, a dust screen 34 is arranged at the other port of the first cylinder 31, the dust screen 34 can greatly reduce the entrance of dust, a plurality of first cooling fins 32 are fixedly connected to the inner wall of the first cylinder 31, the plurality of first cooling fins 32 are arranged in a circumferential arrangement, the first cooling fins 32 increase the contact area between the flowing air and the first cylinder 31, the heat dissipation efficiency is improved.

Preferably, the second air-cooling box 4 includes a third box 41, the second cylinder 42 is sleeved in the third box 41 at intervals, the second tube group 40 is located between the outer wall of the second cylinder 42 and the inner wall of the third box 41, and when the medium temperature water passes through the gap between the outer wall of the second cylinder 42 and the inner wall of the third box 41, the continuous heat exchange with the second tube group 40 occurs, so as to realize the preliminary cooling of the liquid.

Further, second barrel 42 inner wall rigid coupling has a plurality of second fin 43, and a port of second barrel 42 is equipped with second fan 44, through the convulsions that second fan 44 lasts to continuously take out the steam in the second barrel 42, second fin 43 has improved the area of contact of mobile air with second barrel 42, has improved further the effect of having improved the preliminary cooling to liquid.

Preferably, the first pipe group 10 includes the wave-shaped pipe 100 that a plurality of level set up, wave-shaped pipe 100 has increased the stroke that the liquid flows, a plurality of wave-shaped pipe 100 is arranged along vertical direction interval, make whole first pipe group 10 be three-dimensional, the area of contact of cold water with first pipe group 10 when having improved to spray, the outside of first box 1 is equipped with two second connecting pipes 101, two second connecting pipes 101 are connected with the both sides mouth of pipe of wave-shaped pipe 100 side by side respectively, be equipped with valve 102 on the pipeline section of second connecting pipe 101 between two adjacent wave-shaped pipes 100, the both ends of connecting pipe are equipped with valve 102 equally, can realize the multiple flow mode of liquid in wave-shaped pipe 100 through the switching of valve 102, thereby satisfy the installation, the needs of liquid velocity of flow regulation and control.

Further, 1 top of first box is equipped with fourth box 2, spray assembly 20 is including the main shower pipe 200 that is located fourth box 2, main shower pipe 200 connects the water supply, the vertical rigid coupling in bottom of main shower pipe has a plurality of spray branch 201, spray branch 201 extends to in the first nest of tubes 10, be equipped with a plurality of apopore on spray branch 201, the cold water that the water supply provided flows in each spray branch 201 after entering main shower pipe 200, then spray on the cooling tube through the apopore, thereby the homogeneity that sprays has been improved, make the complete cooling efficiency of liquid higher.

Furthermore, a demister 21 located above the first pipe group 10 is arranged in the fourth box body 2, the demister 21 is located below the main spray pipe, and the demister 21 can effectively condense and return generated steam to the first box body 1, so that water conservation is realized.

Furthermore, a plurality of branch pipes 22 that induced draft that are located between main shower 200 and the defroster 21 are installed to the horizontal installation in the fourth box 2, a plurality of branch pipes 22 that induced draft set up along the length direction interval arrangement of fourth box 2, branch pipe 22's bottom of induced draft is equipped with a plurality of inlet scoop, fourth box 2 is equipped with the person in charge 23 that induced draft outward, branch pipe 22 that induced draft connects on the person in charge 23 that induced draft, branch pipe 22 that induced draft is used for the flow of air with higher speed, in time take out the air that becomes hot, make steam can rapid condensation.

Further, a fifth box 24 is fixedly connected to the upper portion of the fourth box 2, a plurality of support tubes 240 are fixedly connected to the interior of the fifth box 24, the plurality of support tubes 240 are arranged at intervals along the length direction of the fifth box 24, tube holes of the support tubes 240 penetrate through the outer wall of the fifth box 24, and the plurality of support tubes 240 form a gap-type seal on the top portion of the fourth box 2, so that water vapor which is not condensed can be condensed on the support tubes 240, and the heat dissipation performance of the support tubes 240 can be improved due to the connectivity of the tube holes of the support tubes 240.

Furthermore, the fourth box body 2 is inserted and connected in the first box body 1, the first box body 1 is provided with a linear driving mechanism 12 for driving the fourth box body 2 to vertically reciprocate, and the linear driving mechanism 12 drives the fourth box body 2 to lift so as to drive the spraying branch pipe 201 to lift, so that the spraying branch pipe 201 sprays more uniformly in the first pipe group 10, and the heat dissipation efficiency is further improved.

Wherein, the outer walls of the first box 1, the second box 30, the third box 41 and the fourth box 2 are all provided with third radiating fins 13, so that the heat exchange efficiency between each box and the outside air is improved.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims

1. A vertical water-cooling heat dissipation device comprises a first box body, wherein a first pipe group is arranged in the first box body, a spraying assembly is installed at the top of the first box body, a water collecting tank is arranged at the bottom of the first box body, and the vertical water-cooling heat dissipation device is characterized in that a plurality of vertically-arranged first air-cooling tanks are installed between the first box body and the water collecting tank, a second air-cooling tank is installed between the first air-cooling tank and the water collecting tank, a second pipe group is arranged in the second air-cooling tank, the first pipe group is connected with the second pipe group through a first connecting pipe, the first pipe group comprises a plurality of horizontally-arranged wavy pipes, the wavy pipes are arranged at intervals along the vertical direction, a second connecting pipe is arranged outside the first box body, pipe orifices at the same side of the wavy pipes are connected to the same second connecting pipe, the second connecting pipe is positioned outside the first box body, adjacent two between the wave venturi tube be equipped with the valve on the pipeline section of second connecting pipe, first box top is equipped with the fourth box, the spray assembly is including being located main shower in the fourth box, main shower connection water supply, the vertical rigid coupling in bottom of main shower has a plurality of spray branch pipe, spray branch pipe extends to in the first nest of tubes, be equipped with a plurality of apopore on the spray branch pipe.

2. The vertical water-cooling heat dissipation device according to claim 1, wherein the first air-cooling box comprises a second box body, a first cylinder body is sleeved in the second box body at intervals, the first cylinder body is arranged along the length direction of the second box body, a plurality of first cooling fins are fixedly connected to the inner wall of the first cylinder body, the plurality of first cooling fins are arranged in a circumferential manner, a first fan is arranged at one port of the first cylinder body, and a dust screen is arranged at the other port of the first cylinder body.

3. The vertical water-cooling heat dissipation device of claim 1, wherein the second air-cooling box comprises a third box body, a second cylinder is sleeved in the third box body at intervals, and the second pipe group is located between the outer wall of the second cylinder and the inner wall of the third box body.

4. The vertical water-cooling heat dissipation device as defined in claim 3, wherein a plurality of second heat dissipation fins are fixed to an inner wall of the second cylinder, and a second fan is disposed at an end of the second cylinder.

5. The vertical water-cooled heat sink according to claim 1, wherein a demister is disposed in the fourth tank above the first pipe group, and the demister is disposed below the main spray pipe.

6. The vertical water-cooled heat sink according to claim 5, wherein a plurality of branch air draft pipes are horizontally installed in the fourth box body between the main spray pipe and the demister, the plurality of branch air draft pipes are arranged at intervals along the length direction of the fourth box body, a plurality of air suction ports are formed in the bottom of the branch air draft pipes, a main air draft pipe is arranged outside the fourth box body, and the branch air draft pipes are connected to the main air draft pipe.

7. The vertical water-cooling heat dissipation device as recited in claim 6, wherein a fifth box is fixedly connected above the fourth box, a plurality of support pipes are fixedly connected in the fifth box, the support pipes are arranged at intervals along the length direction of the fifth box, and pipe holes of the support pipes penetrate through the outer wall of the fifth box.

8. The vertical water-cooling heat dissipation device as recited in claim 7, wherein the fourth box is connected to the first box in an inserting manner, and a linear driving mechanism for driving the fourth box to reciprocate vertically is installed on the first box.