CN214371205U - Binary energy-saving industrial refrigerating device - Google Patents

Abstract

The utility model relates to a technical field of industry refrigeration auxiliary device, especially relate to binary energy-saving industrial refrigeration device, divide industry freezing water tank or pond into two relatively independent units in high temperature region and low temperature district with the baffle, the refrigerator gets into water from the high temperature district, get back to the low temperature district after the refrigerator cools off, the process water gets into water from the low temperature district, get back to the high temperature district after user's side intensifies, just so formed the high low temperature difference, the temperature of refrigerator group's intaking is higher than the process water supply temperature, according to the difference of refrigerator group's import and export difference of temperature and process water return temperature, generally can form the difference of about 3~5 degrees, thereby raise the evaporation temperature of refrigerator group, reduce energy consumption; the device comprises a container, wherein a partition plate is longitudinally arranged in the container and divides the container into a low-temperature area and a high-temperature area, the low-temperature area is communicated with a refrigerator water return opening and a process water intake opening, the high-temperature area is communicated with the refrigerator water intake opening, the process water return opening, a water replenishing opening and an overflow opening, and a liquid level balance hole is formed in the partition plate.

Description

Binary energy-saving industrial refrigerating device

Technical Field

The utility model relates to a technical field of industry refrigeration auxiliary device especially relates to binary energy-saving industrial refrigeration device.

Background

A freezing water tank (water tank) matched with a traditional industrial refrigerating system is an independent water tank (water tank) or a guide plate is additionally arranged in the water tank (water tank), the functions are limited to cold accumulation, buffering and mixed flow, a refrigerating unit and process water taking and returning are all completed in the same region, so that the water temperature of the refrigerating unit is the same as or slightly different from the temperature of supplied process water, and the refrigerating efficiency of the refrigerating unit is influenced.

Disclosure of Invention

For solving the technical problem, the utility model provides a binary energy-saving industry refrigerating plant, separate industry freezing water tank or pond for the baffle two relatively independent units in high temperature region and low temperature district, the refrigerator is followed the high temperature district water intaking, get back to the low temperature district after the refrigerator cooling, the process water gets back to the high temperature region after the user side intensifies from the low temperature district water intaking, just so formed the high low temperature difference, the refrigerator unit temperature of intaking is higher than the process water supply temperature, it is different to import and export the difference in temperature and process water return temperature according to the refrigerator unit, generally can form the difference in temperature about 3~5 degrees, thereby raise the refrigerator unit evaporating temperature, energy consumption is reduced.

The utility model discloses an energy-saving industrial refrigeration device of binary, comprising a container, the inside baffle that vertically is provided with of container, low temperature district and high temperature zone are split into with the container to the baffle, and low temperature zone intercommunication has refrigerator return water mouth and technology intake, and the high temperature zone intercommunication has refrigerator intake, technology return water mouth, moisturizing mouth and overflow mouth to be provided with the liquid level balance hole on the baffle.

The utility model discloses a binary energy-saving industrial refrigeration device, the container is industry freezing water tank, and low temperature region and high temperature zone all communicate there is the maintenance hole.

The utility model discloses a binary energy-saving industrial refrigeration device, the container is industrial freezing pond.

The utility model discloses a binary energy-saving industrial refrigeration device, high temperature zone intercommunication have the drain.

Compared with the prior art, the beneficial effects of the utility model are that: the water of the refrigerating unit enters the low-temperature area of the container from a water intake of a refrigerating machine in the high-temperature area of the container after being cooled by the refrigerating machine through a water return port of the refrigerating machine, the process water is taken from a water intake of the process in the low-temperature area and is heated by a user side and then flows back to the high-temperature area through the water return port, when the water level of the container is lower than the water supplement port, the container starts to overflow and drain water, the container is divided into the low-temperature area and the high-temperature area by a partition plate, the liquid level balance of the low-temperature area and the high-temperature area is realized through a liquid level balance hole, when the process water is temporarily stopped, the communication effect of the low-temperature area and the high-temperature area is realized, and the purposes of energy conservation and emission reduction are realized by raising the evaporation temperature of the refrigerating unit through the technical scheme.

Drawings

FIG. 1 is a schematic structural diagram of the present invention in an industrial freezing water tank according to the embodiment;

FIG. 2 is a right side sectional view of the present invention;

FIG. 3 is a front sectional view of the present invention;

in the drawings, the reference numbers: 1. a water intake of the refrigerator; 2. a refrigerator water return port; 3. a process water intake; 4. a process water return port; 5. a water replenishing port; 6. an overflow port; 7. a sewage draining outlet; 8. a repair hole; 9. a partition plate; 10. a liquid level balancing hole; 11. a low temperature zone; 12. a high temperature zone; 13. a container.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The utility model discloses a binary energy-saving industrial refrigeration device only needs control water pipe connector water intaking, the region of returning water, and concrete interface position does not change its principle, and this figure container 13 size, mouth of pipe position, subregion proportion, baffle position, liquid level balance hole position and liquid level balance hole size only supply the scheme to explain the use.

As shown in fig. 1 to 3, the two-element energy-saving industrial refrigeration device of the present invention comprises a container 13, a partition 9 is vertically disposed inside the container 13, the partition 9 divides the container 13 into a low temperature region 11 and a high temperature region 12, the low temperature region 11 is communicated with a refrigerator water return port 2 and a process water intake port 3, the high temperature region 12 is communicated with a refrigerator water intake port 1, a process water return port 4, a water replenishing port 5 and an overflow port 6, and the partition 9 is provided with a liquid level balance hole 10; the water of the refrigerating unit enters a low-temperature area 11 of a container 13 from a refrigerator water intake 1 of a high-temperature area 12 of the container 13 after being cooled by a refrigerator, the process water is taken from a process water intake 3 of the low-temperature area 11, is heated by a user end and then flows back to the high-temperature area 12 through a process water return 4, when the water level of the container 13 is lower than a water replenishing port 5, the container 13 starts water replenishing, when the water level of the container 13 is higher than an overflow port 6, the container 13 starts overflow drainage, a partition plate 9 divides the container 13 into the low-temperature area 11 and the high-temperature area 12, the liquid level balance of the low-temperature area 11 and the high-temperature area 12 is realized through a liquid level balance hole 10, when the process water is temporarily stopped, the low-temperature area 11 and the high-temperature area 12 are communicated, and the evaporating temperature of the refrigerating unit is raised through the technical scheme, so that the purposes of energy conservation and emission reduction are realized.

In the binary energy-saving industrial refrigerating device, the container 13 is an industrial refrigerating water tank, and the low-temperature area 11 and the high-temperature area 12 are both communicated with the maintenance hole 8; get into the inside maintenance of industry frozen water tank through maintenance hole 8, improve and use the convenience.

In the two-element energy-saving industrial refrigerating device of the utility model, the container 13 is an industrial refrigerating water pool; the device is also suitable for an industrial freezing water tank, and achieves the purposes of energy conservation and emission reduction.

In the binary energy-saving industrial refrigerating device, the high-temperature area 12 is communicated with a sewage discharge outlet 7; the receptacle 13 needs to be emptied, and is emptied for cleaning through the waste outlet 7.

The utility model discloses a binary energy-saving industrial refrigeration device, it is at work, refrigerating unit water gets into container 13 low temperature district 11 through refrigerator return water mouth 2 after refrigerator cooling from refrigerator delivery port 1 of high temperature district 12 of container 13, process water gets into water from process delivery port 3 of low temperature district 11, heat up through the user end and flow back to high temperature district 12 through process return water mouth 4, when container 13 water level is less than moisturizing mouth 5, container 13 begins moisturizing, when container 13 water level is higher than overflow mouth 6, container 13 begins overflow drainage, when container 13 needs to be emptied, empty clearance is emptied through drain 7, division board 9 separates container 13 into low temperature district 11 and high temperature district 12, realize low temperature district 11 and high temperature district 12 liquid level balance through liquid level balance hole 10, and when process water pauses, play low temperature district 11 and high temperature district 12 intercommunication effect, raise refrigerating unit evaporating temperature through above technical scheme, the purposes of energy conservation and emission reduction are achieved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (4)

1. The binary energy-saving industrial refrigerating device is characterized by comprising a container (13), wherein a partition plate (9) is longitudinally arranged inside the container (13), the container (13) is divided into a low-temperature area (11) and a high-temperature area (12) by the partition plate (9), the low-temperature area (11) is communicated with a refrigerator water return port (2) and a process water intake (3), the high-temperature area (12) is communicated with a refrigerator water intake (1), a process water return port (4), a water replenishing port (5) and an overflow port (6), and a liquid level balance hole (10) is formed in the partition plate (9).

2. The dual energy efficient industrial freezer according to claim 1, characterized in that the container (13) is an industrial freezer water tank and the low temperature zone (11) and the high temperature zone (12) are both connected with a service hole (8).

3. A dual energy efficient industrial freezer as claimed in claim 1, characterized in that the container (13) is an industrial freezer water tank.

4. A binary energy efficient industrial freezing apparatus according to any of claims 1 to 3 wherein the high temperature zone (12) is connected to a sewage drain (7).

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