CN219976854U - Novel cooling system - Google Patents

Abstract

The utility model discloses a novel cooling system, which comprises a water tank and a cooling layer coated on the outer wall of the water tank, wherein a cooling channel is arranged in the cooling layer, and a refrigerant flows in the cooling channel; the device also comprises a refrigerant circulation system and an aeration system. The beneficial effects of the utility model are as follows: the refrigerant circulation system realizes cooling of the precooler, and the water cooler cools before water is injected into the water tank; the aeration cooler of the aeration system is also cooled before the aeration air flow enters the water tank. Can reduce the production energy consumption and save the production cost.

Description

Novel cooling system

Technical Field

The utility model relates to the technical field of cooling devices, in particular to a novel cooling system.

Background

In the poultry slaughtering industry, slaughtered poultry needs to be cleaned and cooled by a precooler so as to meet the requirements on the meat quality of the poultry during packaging. The common precooler needs to fill water into a water tank firstly and then cool the water, but the water is not cooled before being filled into the water tank; in the cleaning process of slaughtered poultry, the aeration device is required to continuously supply air into the water tank, and the temperature is not reduced before the air flow enters the water tank. Therefore, when uncooled water and air flow work in the water tank, the precooler is required to be further cooled, so that the energy consumption is increased, and the production cost is also increased.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a novel cooling system which is used for cooling a precooler, cooling water before the water is injected into a water tank and cooling the water before aeration air flow enters the water tank. Reduces the production energy consumption and saves the production cost.

The technical scheme adopted by the utility model for realizing the technical purpose is as follows: the novel cooling system comprises a water tank and a cooling layer coated on the outer wall of the water tank, wherein a cooling channel is arranged in the cooling layer, and a refrigerant flows in the cooling channel; also comprises a refrigerant circulation system and an aeration system,

the refrigerant circulation system comprises a refrigerant source device, a refrigerant liquid supply pipe, a refrigerant liquid outlet pipe and a refrigerant liquid return pipe, one end of the refrigerant liquid supply pipe is connected with a refrigerant circulation pump, and the other end of the refrigerant liquid supply pipe is connected with a liquid inlet of the cooling channel; one end of the refrigerant liquid outlet pipe is connected with the liquid outlet of the cooling channel, the other end of the refrigerant liquid outlet pipe is connected with the refrigerant liquid return pipe, and the other end of the refrigerant liquid return pipe is connected with the refrigerant source device;

the refrigerant liquid supply pipe is also connected with a refrigerant liquid supply branch pipe, the refrigerant liquid supply branch pipe is sequentially connected with a water cooler and a refrigerant liquid return pipe, and the refrigerant liquid return pipe is connected with the refrigerant source device; a first electric regulating valve, a first refrigerant liquid supply thermometer and a first flowmeter are also arranged between the refrigerant liquid supply branch pipe and the water cooler; the water cooler is also connected with a water supply pipe and a water outlet pipe, and an opening of the water outlet pipe is positioned in the water tank;

the aeration system comprises an air supply device, an air supply pipe, an aeration cooler and an air outlet pipe which are sequentially connected, and the air outlet pipe is connected with an aeration port at the bottom of the water tank; the aeration cooler is also connected with a cooling water inlet pipe and a cooling water outlet pipe, the cooling water inlet pipe is connected to the water outlet pipe of the water cooler, and the opening of the cooling water outlet pipe is positioned in another water tank.

Preferably, the cooling channel is a reciprocating channel and is surrounded by long grooves which are sequentially arranged in parallel from bottom to top.

Preferably, the section of the long groove is 7-shaped, and comprises a horizontal plate and a vertical plate, wherein the inner side of the horizontal plate is connected to the outer wall of the pool, the outer side of the horizontal plate is connected with the vertical plate, and the lower end of the vertical plate is connected to the outer side of the horizontal plate of the adjacent long groove.

Preferably, the long groove horizontal plates are provided with openings, and the openings on two adjacent horizontal plates are positioned at the opposite ends of the horizontal plates.

Preferably, the water cooler comprises a shell and an internal coil, wherein a refrigerant liquid inlet is formed in the upper right corner of the shell, a refrigerant liquid outlet is formed in the lower right corner of the shell, a water inlet is formed in the upper left corner of the shell, a water outlet is formed in the lower left corner of the shell, the water inlet and the water outlet are both connected with the internal coil, and the refrigerant circulates in a gap between the shell and the internal coil.

Preferably, the aeration cooler comprises a container shell and a container inner coil, wherein an air inlet pipe is arranged at the left upper corner of the container shell, an air outlet pipe is arranged at the right lower corner of the container shell, and the air inlet pipe and the air outlet pipe are both connected with the container inner coil; the upper right corner of the container shell is provided with a water inlet pipe, the lower left corner of the container shell is provided with a water outlet pipe, and water circulates in a gap between the container shell and the coil pipe in the container.

Preferably, a second electric regulating valve, a second refrigerant liquid-supplying thermometer and a second flowmeter are further arranged on the refrigerant liquid-supplying pipe and in front of the liquid inlet of the cooling channel; at the said

The refrigerant liquid return pipe is also provided with a refrigerant liquid return thermometer.

Preferably, the refrigerant source device is a freon unit.

Preferably, the air supply device is an air suspension centrifugal fan.

The beneficial effects of the utility model are as follows: the refrigerant circulation system realizes cooling of the precooler, and the water cooler cools before water is injected into the water tank; the aeration cooler of the aeration system is also cooled before the aeration air flow enters the water tank. Can reduce the production energy consumption and save the production cost.

Drawings

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

FIG. 2 is a schematic cross-sectional view of an elongated slot;

FIG. 3 is a schematic diagram of a water cooler;

fig. 4 is a schematic view of the structure of the aeration cooler.

Marked in the figure as: 1. a pool; 2. a cooling layer; 3. a cooling channel; 4. a refrigerant circulation system; 5. an aeration system;

7. a long groove; 8. a second electric control valve; 9. a second refrigerant liquid supply thermometer; 10. a second flowmeter; 11. a refrigerant liquid-return thermometer; 31. a liquid inlet; 32. a liquid outlet;

41. a refrigerant source device; 42. a refrigerant liquid supply pipe; 43. a refrigerant liquid outlet pipe; 44. a refrigerant liquid return pipe; 45. a refrigerant circulation pump;

46. a refrigerant liquid supply branch pipe; 47. a water cooler; 471. a housing; 472. an inner coil; 473. a refrigerant liquid inlet;

474. a refrigerant liquid outlet; 475. a water inlet; 476. a water outlet; 48. a first electrically operated regulator valve; 49. a first refrigerant liquid supply thermometer; 410. a first flowmeter; 411. a water supply pipe; 412. a water outlet pipe; 51. a gas supply device; 52. an air supply pipe; 53. an aeration cooler; 531. a container housing; 532. a coil in the container;

533. an air inlet pipe; 534. an air outlet pipe; 535. a water inlet pipe; 536. a water outlet pipe; 54. an air outlet pipe; 55. an aeration port;

56. cooling the water inlet pipe; 57. cooling the water outlet pipe; 71. a horizontal plate; 72. a vertical plate; 73. and (5) a notch.

Detailed Description

The utility model will be further described with reference to examples of drawings.

Example 1

As shown in fig. 1-4: the novel cooling system comprises a water tank 1 and a cooling layer 2 coated on the outer wall of the water tank 1, wherein a cooling channel 3 is arranged in the cooling layer 2, and a refrigerant flows in the cooling channel 3; also comprises a refrigerant circulation system 4 and an aeration system 5,

the refrigerant circulation system 4 comprises a refrigerant source device 41, a refrigerant liquid supply pipe 42, a refrigerant liquid outlet pipe 43 and a refrigerant liquid return pipe 44, wherein one end of the refrigerant liquid supply pipe 42 is connected with a refrigerant circulation pump 45, and the other end is connected with the liquid inlet 31 of the cooling channel 3; one end of the refrigerant liquid outlet pipe 43 is connected with the liquid outlet 32 of the cooling channel 3, the other end of the refrigerant liquid outlet pipe is connected with the refrigerant liquid return pipe 44, the other end of the refrigerant liquid return pipe 44 is connected with the refrigerant source device 41, and the refrigerant source device 41 is a Freon unit.

The refrigerant liquid supply pipe 42 is also connected with a refrigerant liquid supply branch pipe 46, the refrigerant liquid supply branch pipe 46 is sequentially connected with a water cooler 47 and a refrigerant liquid return pipe 44, and the refrigerant liquid return pipe 44 is connected with the refrigerant source device 41; a first electric regulating valve 48, a first refrigerant liquid-supplying thermometer 49 and a first flowmeter 410 are also arranged between the refrigerant liquid-supplying branch pipe 46 and the water cooler 47; the water cooler 47 is also connected with a water supply pipe 411 and a water outlet pipe 412, an opening of the water outlet pipe 412 is positioned in the water tank 1, and water is injected into the water tank 1 after being cooled by the water cooler 47.

The aeration system 5 comprises an air supply device 51, an air supply pipe 52, an aeration cooler 53 and an air outlet pipe 54 which are sequentially connected, wherein the air outlet pipe 54 is connected with an aeration port 55 at the bottom of the water tank 1; the aeration cooler 53 is also connected with a cooling water inlet pipe 56 and a cooling water outlet pipe 57, the cooling water inlet pipe 56 is connected to the water outlet pipe 412 of the water cooler 47, an opening of the cooling water outlet pipe 57 is positioned in another water tank, and the air supply device 51 is an air suspension centrifugal fan.

The cooling channel 3 is a reciprocating channel and is surrounded by long grooves 7 which are sequentially arranged in parallel from bottom to top.

The section of the long groove 7 is 7-shaped, and comprises a horizontal plate 71 and a vertical plate 72, wherein the inner side of the horizontal plate 71 is connected to the outer wall of the pool 1, the outer side of the horizontal plate is connected with the vertical plate 72, and the lower end of the vertical plate 72 is connected to the outer side of the horizontal plate 72 of the adjacent long groove 7.

The horizontal plates 71 of the long groove 7 are provided with notches 73, and the notches 73 on two adjacent horizontal plates 71 are positioned at the opposite ends of the horizontal plates 71.

The water cooler 47 includes a casing 471 and an inner coil 472, wherein a coolant inlet 473 is provided at an upper right corner of the casing 471, a coolant outlet 474 is provided at a lower right corner of the casing 471, a water inlet 475 is provided at an upper left corner of the casing 471, a water outlet 476 is provided at a lower left corner of the casing 476, both the water inlet 475 and the water outlet 476 are connected with the inner coil 472, a coolant is supplied from the coolant supply branch pipe 46, and the coolant flows through a gap between the casing 471 and the inner coil 472.

The aeration cooler 53 comprises a container shell 531 and a container inner coil 532, wherein an air inlet pipe 533 is arranged at the left upper corner of the container shell 531, an air outlet pipe 534 is arranged at the right lower corner of the container shell 531, and the air inlet pipe 533 and the air outlet pipe 534 are connected with the container inner coil 532; a water inlet pipe 535 is arranged at the right upper corner of the container shell 531, a water outlet pipe 536 is arranged at the left lower corner, water circulates in a gap between the container shell 531 and the coil 532 in the container, air flowing through the aeration system 5 is cooled, and is discharged through an air outlet pipe 54 at the aeration port 55 at the bottom of the water tank 1.

A second electric regulating valve 8, a second refrigerant liquid-supplying thermometer 9 and a second flowmeter 10 are further arranged on the refrigerant liquid-supplying pipe 42 and in front of the liquid inlet 31 of the cooling channel 3; the refrigerant liquid return pipe 44 is further provided with a refrigerant liquid return thermometer 11.

Claims (9)

1. The utility model provides a novel cooling system, includes pond and cladding cooling layer on the pond outer wall, its characterized in that: a cooling channel is arranged in the cooling layer, and a refrigerant flows in the cooling channel; also comprises a refrigerant circulation system and an aeration system,

the refrigerant circulation system comprises a refrigerant source device, a refrigerant liquid supply pipe, a refrigerant liquid outlet pipe and a refrigerant liquid return pipe, one end of the refrigerant liquid supply pipe is connected with a refrigerant circulation pump, and the other end of the refrigerant liquid supply pipe is connected with a liquid inlet of the cooling channel; one end of the refrigerant liquid outlet pipe is connected with the liquid outlet of the cooling channel, the other end of the refrigerant liquid outlet pipe is connected with the refrigerant liquid return pipe, and the other end of the refrigerant liquid return pipe is connected with the refrigerant source device;

the refrigerant liquid supply pipe is also connected with a refrigerant liquid supply branch pipe, the refrigerant liquid supply branch pipe is sequentially connected with a water cooler and a refrigerant liquid return pipe, and the refrigerant liquid return pipe is connected with the refrigerant source device; a first electric regulating valve, a first refrigerant liquid supply thermometer and a first flowmeter are also arranged between the refrigerant liquid supply branch pipe and the water cooler; the water cooler is also connected with a water supply pipe and a water outlet pipe, and an opening of the water outlet pipe is positioned in the water tank;

the aeration system comprises an air supply device, an air supply pipe, an aeration cooler and an air outlet pipe which are sequentially connected, and the air outlet pipe is connected with an aeration port at the bottom of the water tank; the aeration cooler is also connected with a cooling water inlet pipe and a cooling water outlet pipe, the cooling water inlet pipe is connected to the water outlet pipe of the water cooler, and the opening of the cooling water outlet pipe is positioned in another water tank.

2. The novel cooling system of claim 1, wherein: the cooling channel is a reciprocating channel and is surrounded by long grooves which are sequentially arranged in parallel from bottom to top.

3. The novel cooling system of claim 2, wherein: the section of the long groove is 7-shaped and comprises a horizontal plate and a vertical plate, wherein the inner side of the horizontal plate is connected to the outer wall of the pool, the outer side of the horizontal plate is connected with the vertical plate, and the lower end of the vertical plate is connected to the outer side of the horizontal plate of the adjacent long groove.

4. The novel cooling system of claim 2, wherein: the long groove horizontal plates are provided with openings, and the openings on two adjacent horizontal plates are positioned at the opposite ends of the horizontal plates.

5. The novel cooling system of claim 1, wherein: the water cooler comprises a shell and an internal coil, wherein a refrigerant liquid inlet is formed in the upper right corner of the shell, a refrigerant liquid outlet is formed in the lower right corner of the shell, a water inlet is formed in the upper left corner of the shell, a water outlet is formed in the lower left corner of the shell, the water inlet and the water outlet are both connected with the internal coil, and a refrigerant circulates in a gap between the shell and the internal coil.

6. The novel cooling system of claim 1, wherein: the aeration cooler comprises a container shell and a container inner coil, wherein an air inlet pipe is arranged at the left upper corner of the container shell, an air outlet pipe is arranged at the right lower corner of the container shell, and the air inlet pipe and the air outlet pipe are both connected with the container inner coil; the upper right corner of the container shell is provided with a water inlet pipe, the lower left corner of the container shell is provided with a water outlet pipe, and water circulates in a gap between the container shell and the coil pipe in the container.

7. The novel cooling system of claim 1, wherein: a second electric regulating valve, a second refrigerant liquid supply thermometer and a second flowmeter are further arranged on the refrigerant liquid supply pipe and in front of the liquid inlet of the cooling channel; at the said

The refrigerant liquid return pipe is also provided with a refrigerant liquid return thermometer.

8. The novel cooling system of claim 1, wherein: the refrigerant source device is a Freon unit.

9. The novel cooling system of claim 1, wherein: the air supply device is an air suspension centrifugal fan.