CN210464127U - Cooling water circulation equipment for electrode foil production - Google Patents

Abstract

The utility model provides a cooling water circulating equipment of electrode foil production, including the refrigerator that leads to pipe connects gradually, the cooling pump, heat exchanger and cooling tower, the water pipe includes first water pipe, the second water pipe, third water pipe and fourth water pipe, be equipped with coolant tank in the refrigerator, coolant water in the coolant tank flows into the cooling pump through first water pipe, the cooling pump passes through second water pipe inflow heat exchanger with the coolant water, be equipped with the heat transfer pipeline in the heat exchanger, the inside coolant water of heat transfer pipeline carries out heat exchange rather than outside fluid, with the temperature that reduces the coolant water, then pass through the leading-in cooling tower of third water pipe with the coolant water after the cooling, at last coolant water gets into the coolant tank in the refrigerator through the fourth water pipe in following the cooling tower, with the continuation circulation. The utility model discloses be used for the production facility heating with the cooling hot water that the refrigeration plant compressor produced, reduced the temperature of cooling water, reduce cooling tower cooling fan frequency of use, reduced the energy consumption and the water consumption of equipment.

Description

Cooling water circulation equipment for electrode foil production

Technical Field

The utility model belongs to electrode foil production field, in particular to cooling water circulation equipment of electrode foil production.

Background

In the production process of the electrode foil, a part of production flow needs to be heated and kept at a constant temperature, and the other part of the production flow generates a large amount of heat and needs to be cooled by cooling water. The refrigerator produces a large amount of heat from the compressor while producing cooling water, and it is necessary to use the refrigerator after cooling by air cooling with self-circulating cooling water. Because the cooling water temperature for heat dissipation is too high, the working pressure of the cooling tower is high, and because the water temperature is high, the water evaporation capacity is large, thereby wasting heat and water resources. Meanwhile, the cooling water is high in temperature, so that the circulating system is easy to scale and breed bacterial microorganisms, the service cycle is shortened, the service life is prolonged, and the production waste is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model discloses cooling water circulating equipment of electrode foil production, include the refrigerator that connects gradually through water pipe, the cooling pump, heat exchanger and cooling tower, the water pipe includes first water pipe, the second water pipe, third water pipe and fourth water pipe, be equipped with coolant tank in the refrigerator, coolant water in the coolant tank flows into the cooling pump through first water pipe, the cooling pump passes through second water pipe inflow heat exchanger with the coolant water, be equipped with the heat transfer pipeline in the heat exchanger, the inside coolant water of heat transfer pipeline carries out heat exchange rather than outside fluid, with the temperature that reduces the coolant water, then pass through the leading-in cooling tower of third water pipe with the coolant water after will cooling, at last coolant water gets into the coolant tank in the refrigerator through the fourth water pipe in the cooling tower, with the continuation circulation.

Further: the heat exchange tubes inside the heat exchanger are in a spiral coil shape.

Further: the inlet of the heat exchange pipe in the heat exchanger is higher than the outlet.

Further: temperature display devices are installed at the inlet and the outlet of a heat exchange pipeline inside the heat exchanger, and a thermal sensing probe is arranged on the temperature display devices and extends into the cooling circulation pipeline.

Further: the heat exchanger is externally provided with a heat preservation layer.

Further: the first water pipe, the second water pipe, the third water pipe and the fourth water pipe are all heat preservation pipes.

Further: the heat exchange pipeline inside the heat exchanger is a graphene heat exchange pipeline.

Has the advantages that: the utility model discloses be used for the production facility heating with the cooling hot water that the refrigeration plant compressor produced, reduced the temperature of cooling water, reduce cooling tower cooling fan frequency of use, reduced the energy consumption and the water consumption of equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the working process of the present invention;

description of the drawings: 1-a refrigerator, 2-a cooling pump, 3-a heat exchanger, 4-a cooling tower, 5-a first water pipe, 6-a cooling water tank, 7-a heat insulation layer, 8-a temperature display device, 9-a heat sensing probe, 10-a second water pipe, 11-a third water pipe, 12-a fourth water pipe and 13-a heat exchange pipeline.

Detailed Description

The present invention will be further clarified by the following description in conjunction with the accompanying drawings, which are to be understood as illustrative only and not as limiting the scope of the invention, and modifications of the various equivalent forms of the invention by those skilled in the art after reading the present invention are within the scope defined by the appended claims.

The cooling water circulation device for electrode foil production of the utility model, as shown in figure 1, comprises a refrigerator 1, a cooling pump 2, a heat exchanger 3 and a cooling tower 4 which are connected in sequence by water pipes, wherein the water pipes comprise a first water pipe 5, a second water pipe 10, a third water pipe 11 and a fourth water pipe 12, a cooling water tank 6 is arranged in the refrigerator 1, cooling water in the cooling water tank 6 flows into the cooling pump 2 through the first water pipe 5, the cooling water flows into the heat exchanger 3 through the second water pipe 10 by the cooling pump 2, a metal heat exchange pipeline 13 is arranged in the heat exchanger 3, the cooling water in the heat exchange pipeline 13 exchanges heat with fluid outside the cooling water to reduce the temperature of the cooling water, the cooled cooling water is then introduced into the cooling tower 4 through the third water pipe 11, and finally, the cooling water enters the cooling water tank 6 in the refrigerator 1 from the inside of the cooling tower 4 through the fourth water pipe 12 to continue the circulation.

The inside heat exchange tube 13 of heat exchanger 3 is the spiral winding shape, guarantees abundant heat exchange process, and the inside heat exchange tube 13 entrance of heat exchanger 3 is higher than the exit, because hot water can upwards flow under the effect of thermal kinetic energy, and such setting can form that lower extreme cooling water temperature is lower, and the higher heating power gradient of upper end cooling water temperature can guarantee that the cooling water carries out the heat exchange in heat exchanger 3 fully, reaches better heat exchange effect.

Temperature display device 8 is all installed to heat transfer pipeline 13 entrance and the exit of heat exchanger 3 inside, is equipped with thermal-sensitive probe 9 on the temperature display device 8, and inside this thermal-sensitive probe 9 stretched into cooling circulation pipeline, the real-time accurate temperature of the inside cooling water in survey heat transfer pipeline 13 entrance and exit that can be more accurate. The heat exchanger 3 is externally provided with the heat preservation layer 7, so that heat loss caused by heat exchange between the heat exchanger 3 and the outside can be effectively reduced, the utilization of heat is more targeted, and the utilization rate of heat energy is improved.

First water pipe 5, second water pipe 10, third water pipe 11 and fourth water pipe 12 are the insulating tube, can further prevent the heat loss.

The inside heat transfer pipeline 13 of heat exchanger 3 is graphite alkene heat transfer pipeline, and graphite alkene is novel superior material, and heat-conduction efficiency is high, is difficult for the scale deposit and breeds bacterial microorganism.

As shown in fig. 2, the heat exchanger 3 uses the heat of the cooling water for the production line heating and constant temperature, the temperature of the used cooling water is reduced, and the cooling water cooled again by the cooling tower 4 can be used for cooling the compressor of the refrigerator 1. The improvement uses the heat dissipated by the cooling tower 4 in production and processing, and reduces the water temperature of cooling water, so that the use frequency of a cooling fan of the cooling tower 4 is reduced, and the energy consumption is reduced. The reduction of cooling water temperature makes the volume of volatilizing greatly reduced, has reduced the water consumption, and low-temperature water is difficult for scale deposit and breed bacterial microorganism simultaneously, has improved the life of refrigerator 1.

Claims (7)

1. A cooling water circulation equipment for electrode foil production is characterized in that: including refrigerator (1), cooling pump (2), heat exchanger (3) and cooling tower (4) that lead to pipe and connect gradually, the water pipe includes first water pipe (5), second water pipe (10), third water pipe (11) and fourth water pipe (12), be equipped with coolant tank (6) in refrigerator (1), coolant water in coolant tank (6) flows into cooling pump (2) through first water pipe (5), and coolant pump (2) pass through coolant water second water pipe (10) flow into heat exchanger (3), be equipped with heat transfer pipeline (13) in heat exchanger (3), the inside coolant water of heat transfer pipeline (13) carries out heat exchange rather than outside fluid to reduce the temperature of coolant water, then pass through the coolant water after the cooling in the leading-in cooling tower (4) of third water pipe (11), last coolant water passes through from cooling tower (4) in the coolant tank (12) gets into in fourth water pipe (1), (1) 6) To continue the cycle.

2. The cooling water circulation apparatus for electrode foil production according to claim 1, wherein: the heat exchange pipeline (13) in the heat exchanger (3) is in a spiral winding shape.

3. The cooling water circulation apparatus for electrode foil production according to claim 1 or 2, wherein: the inlet of the heat exchange pipeline (13) in the heat exchanger (3) is higher than the outlet.

4. The cooling water circulation apparatus for electrode foil production according to claim 1, wherein: temperature display devices (8) are installed at the inlet and the outlet of a heat exchange pipeline (13) inside the heat exchanger (3), a heat sensing probe (9) is arranged on the temperature display devices (8), and the heat sensing probe (9) extends into the cooling circulation pipeline.

5. The cooling water circulation apparatus for electrode foil production according to claim 1, wherein: and a heat insulation layer (7) is arranged outside the heat exchanger (3).

6. The cooling water circulation apparatus for electrode foil production according to claim 1, wherein: the first water pipe (5), the second water pipe (10), the third water pipe (11) and the fourth water pipe (12) are all heat preservation pipes.

7. The cooling water circulation apparatus for electrode foil production according to claim 1, wherein: and the heat exchange pipeline (13) in the heat exchanger (3) is a graphene heat exchange pipeline.

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