CN219265043U - Energy-saving variable flow cooling circulating water structure - Google Patents

Abstract

The utility model discloses an energy-saving variable flow cooling circulating water structure, which belongs to the technical field of cooling and comprises a cooling box body, wherein a first cooling device is arranged in the cooling box body and consists of a flat radiating pipe, an upper water dividing structure, a lower water dividing structure, a water inlet pipeline and a water outlet pipeline, the upper water dividing structure and the lower water dividing structure are respectively arranged at two ends of the flat radiating pipe, the water inlet pipeline is arranged at the outer end of the upper water dividing structure, the water outlet pipeline is arranged at the outer end of the lower water dividing structure, a second cooling device is arranged on the cooling box body and consists of a water distribution pipeline, a water supply pipeline and a spray nozzle, and when water for cooling circulation flows through the first cooling device, the water can fully contact cooling and heat absorbing water sprayed out by the second cooling device, and can quickly cool circulating water.

Description

Energy-saving variable flow cooling circulating water structure

Technical Field

The utility model relates to the technical field of cooling, in particular to an energy-saving variable flow cooling circulating water structure.

Background

In order to prevent the furnace temperature from being too high, the furnace body needs to be continuously cooled, the traditional cooling treatment on the furnace body is generally carried out by cooling control through circulating cooling water, the circulating cooling water is not contacted with external air, and the cooling circulating water used by the furnace body is ensured to contain no impurities.

The prior art patent number CN202021819817.9 discloses a magnesium alloy smelting intermediate frequency furnace cooling circulating water system device, which is characterized in that through the combined use of a heat absorption box, a spray heat dissipation box, an inner box, a first spiral heat dissipation pipe and a second spiral heat dissipation pipe, water for cooling circulation can be fully contacted with external cooling and heat absorption water, the circulating water is not mixed with the external cooling water, the cleanliness of the circulating water is maintained, the circulating water can be rapidly cooled, the absorbed heat can be collected and stored through the cooling water, and the consumption of energy sources is reduced, but the structure is complex, the use cost of a user can be increased, and meanwhile, the consumption of resources can be increased, so that an energy-saving variable flow cooling circulating water structure is needed.

Disclosure of Invention

The utility model mainly aims to provide an energy-saving variable flow cooling circulating water structure which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides an energy-saving variable flow cooling circulating water structure, includes the cooling box, install cooling device No. one in the cooling box, cooling device is by flat cooling tube, go up water diversion structure, lower beam water structure, inlet channel and outlet pipe way group, go up water diversion structure and lower beam water structure and install respectively at flat cooling tube's both ends, inlet channel installs the outer end at last water diversion structure, outlet pipe installs the outer end at lower beam water structure, install cooling device No. two on the cooling box, cooling device No. two comprises water distribution pipeline, water supply pipeline and shower nozzle, water supply pipeline has four and symmetry to install on water distribution pipeline, shower nozzle has a plurality of and symmetry to install on water distribution pipeline.

Preferably, the front end of the cooling box body is symmetrically provided with two mounting through grooves, the two mounting through grooves are symmetrically arranged up and down, and the two mounting through grooves are communicated with the front end of the cooling box body and the inner wall of the cooling box body.

Preferably, the upper end of the cooling box body is symmetrically provided with a plurality of nozzle jacks, and the nozzle jacks penetrate the upper end of the cooling box body and the inner wall of the cooling box body.

Preferably, a cooling water outflow pipe is installed at the rear end of the cooling box body, and the cooling water outflow pipe is fixedly installed at the rear end of the cooling box body in a welding mode.

Preferably, the upper water diversion structure on the first cooling device is located above the lower water diversion structure, the water inlet pipeline is fixedly installed in the installation through groove at the upper side, the water outlet pipeline is fixedly installed in the installation through groove at the lower side, the upper water diversion structure, the lower water diversion structure and the flat radiating pipe are all located in the cooling box body, and the flat radiating pipe, the upper water diversion structure, the lower water diversion structure, the water inlet pipeline and the water outlet pipeline are fixedly installed together.

Preferably, the water distribution pipeline on the second cooling device is positioned at the upper end of the cooling box body, the spray nozzle is downwards inserted into a nozzle jack formed at the upper end of the cooling box body, the water distribution pipeline is connected with external water supply equipment, and the water distribution pipeline is fixedly connected with the spray nozzle and the water distribution pipeline.

Compared with the prior art, the utility model has the following beneficial effects:

through setting up cooling device and No. two cooling device for cooling cycle's water when flowing through cooling device, can fully with No. two cooling device spun cooling heat absorption water fully contact, can be quick cool down to circulating water, this structure is comparatively simple simultaneously, also can reduce user's use cost, reduces the consumption of resource.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the cooling box of the present utility model;

FIG. 3 is a schematic diagram of a first cooling device according to the present utility model;

fig. 4 is a schematic structural diagram of a cooling device No. two according to the present utility model.

In the figure: 1. cooling the box body; 2. a first cooling device; 3. a second cooling device; 4. installing a through groove; 5. a nozzle jack; 6. a cooling water outflow pipe; 7. an upper water dividing structure; 8. a water draining structure; 9. a water inlet pipe; 10. a water outlet pipe; 11. a flat radiating pipe; 12. a water distribution pipeline; 13. a water supply pipe; 14. and (5) spraying a spray nozzle.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the energy-saving variable flow cooling circulating water structure comprises a cooling box body 1, two mounting through grooves 4 are symmetrically formed in the front end of the cooling box body 1, the two mounting through grooves 4 are symmetrically formed in the upper and lower directions, the front end of the cooling box body 1 is communicated with the inner wall of the cooling box body through the two mounting through grooves 4, a plurality of spray nozzle jacks 5 are symmetrically formed in the upper end of the cooling box body 1, the upper end of the cooling box body 1 is communicated with the inner wall of the cooling box body through the spray nozzle jacks 5, a cooling water outflow pipe 6 is arranged at the rear end of the cooling box body 1, the cooling water outflow pipe 6 is fixedly arranged at the rear end of the cooling box body 1 in a welding mode, the cooling box body 1 can be used for mounting a first cooling device 2 and a second cooling device 3, and cooling water can be conveniently recovered.

Referring to fig. 1, 2, 3 and 4, a first cooling device 2 is installed in the cooling box 1, the first cooling device 2 is composed of a flat radiating pipe 11, an upper water diversion structure 7, a lower water diversion structure 8, a water inlet pipe 9 and a water outlet pipe 10, the upper water diversion structure 7 and the lower water diversion structure 8 are respectively installed at two ends of the flat radiating pipe 11, the water inlet pipe 9 is installed at the outer end of the upper water diversion structure 7, the water outlet pipe 10 is installed at the outer end of the lower water diversion structure 8, the upper water diversion structure 7 on the first cooling device 2 is located above the lower water diversion structure 8, the water inlet pipe 9 is fixedly installed in an upper installation through groove 4, the water outlet pipe 10 is fixedly installed in a lower installation through groove 4, the upper water diversion structure 7, the lower water diversion structure 8 and the flat radiating pipe 11 are all located in the cooling box 1, the flat radiating pipe 11, the upper water diversion structure 7, the lower water diversion structure 8, the water inlet pipe 9 and the water outlet pipe 10 are fixedly installed together, the cooling box body 1 is provided with a second cooling device 3, the second cooling device 3 consists of four water distribution pipelines 12, water distribution pipelines 13 and spray nozzles 14, the four water distribution pipelines 13 are symmetrically arranged on the water distribution pipelines 12, the spray nozzles 14 are symmetrically arranged on the water distribution pipelines 12, the water distribution pipelines 12 on the second cooling device 3 are positioned at the upper end of the cooling box body 1, the spray nozzles 14 are downwards inserted into nozzle jacks 5 arranged at the upper end of the cooling box body 1, the water distribution pipelines 13 are connected with external water supply equipment, the water distribution pipelines 12 are fixedly connected with the spray nozzles 14 and the water distribution pipelines 13, the first cooling device 2 and the second cooling device 3 are arranged, when water for cooling circulation flows through the first cooling device 2, the water can fully contact with cooling and heat absorbing water sprayed by the second cooling device 3, the circulating water can be cooled down fast, and meanwhile, the structure is simpler, so that the use cost of a user can be reduced, and the consumption of resources is reduced.

In addition, the utility model is an energy-saving variable flow cooling circulating water structure, when the energy-saving variable flow cooling circulating water structure is used, circulating water for cooling a furnace body flows into the first cooling device 2 after absorbing heat of the furnace body, at the moment, the circulating water enters the flat radiating pipe 11 through the water inlet pipe 9, then the circulating water flows in the flat radiating pipe 11, and the circulating water can be fully contacted with the flat radiating pipe 11 because the flat radiating pipe 11 is in a wider flat shape, so that the heat in the circulating water can be more quickly and effectively transferred to the flat radiating pipe 11, meanwhile, external water supply equipment can send cooling and heat absorbing water into the water distribution pipeline 12 through the water supply pipeline 13, and the rear spray nozzle 14 can spray the cooling and heat absorbing water onto the flat radiating pipe 11, so that the cooling and heat absorbing water can take away the heat on the flat radiating pipe 11, then the cooling and heat absorbing water can flow out of the cooling and heat absorbing water outflow pipe 6, and finally the circulating water for cooling and cooling the furnace body can flow out of the water outflow pipe 10, so that the circulating water is cooled and cooled.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments, or that equivalents may be substituted for part of the technical features thereof. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. Energy-saving variable flow cooling circulating water structure, including cooling box (1), its characterized in that: the cooling box body (1) is internally provided with a first cooling device (2), the first cooling device (2) consists of a flat radiating pipe (11), an upper water distributing structure (7), a lower water distributing structure (8), a water inlet pipeline (9) and a water outlet pipeline (10), the upper water distributing structure (7) and the lower water distributing structure (8) are respectively arranged at two ends of the flat radiating pipe (11), the water inlet pipeline (9) is arranged at the outer end of the upper water distributing structure (7), the water outlet pipeline (10) is arranged at the outer end of the lower water distributing structure (8), the second cooling device (3) is arranged on the cooling box body (1), the second cooling device (3) consists of a water distributing pipeline (12), a water delivering pipeline (13) and spray nozzles (14), and the water delivering pipeline (13) is provided with four water distributing pipelines (12) and symmetrically arranged on the water distributing pipeline (12), and the spray nozzles (14) are symmetrically arranged on the water distributing pipeline (12).

2. The energy-efficient variable flow cooling circulating water structure according to claim 1, characterized in that: two installation through grooves (4) are symmetrically formed in the front end of the cooling box body (1), the two installation through grooves (4) are formed in an up-down symmetrical mode, and the two installation through grooves (4) are communicated with the front end of the cooling box body (1) and the inner wall of the cooling box body.

3. The energy-efficient variable flow cooling circulating water structure according to claim 2, characterized in that: the upper end of the cooling box body (1) is symmetrically provided with a plurality of spray nozzle jacks (5), and the spray nozzle jacks (5) are communicated with the upper end of the cooling box body (1) and the inner wall of the cooling box body.

4. The energy-efficient variable flow cooling circulating water structure according to claim 3, characterized in that: the cooling box body (1) is characterized in that a cooling water outflow pipe (6) is arranged at the rear end of the cooling box body (1), and the cooling water outflow pipe (6) is fixedly arranged at the rear end of the cooling box body (1) in a welding mode.

5. The energy efficient variable flow cooling circulating water structure according to claim 4, characterized in that: the upper water diversion structure (7) on the first cooling device (2) is located above the lower water diversion structure (8), the water inlet pipeline (9) is fixedly installed in the installation through groove (4) at the upper side, the water outlet pipeline (10) is fixedly installed in the installation through groove (4) at the lower side, the upper water diversion structure (7), the lower water diversion structure (8) and the flat radiating pipes (11) are all located in the cooling box body (1), and the flat radiating pipes (11), the upper water diversion structure (7), the lower water diversion structure (8), the water inlet pipeline (9) and the water outlet pipeline (10) are fixedly installed together.

6. The energy efficient variable flow cooling circulating water structure according to claim 5, characterized in that: the water distribution pipeline (12) on the second cooling device (3) is positioned at the upper end of the cooling box body (1), the spray nozzle (14) is downwards inserted into a nozzle jack (5) formed in the upper end of the cooling box body (1), the water distribution pipeline (13) is connected with external water supply equipment, and the water distribution pipeline (12) is fixedly connected with the spray nozzle (14) and the water distribution pipeline (13).

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