CN215864731U

CN215864731U - Wine steam cooling system

Info

Publication number: CN215864731U
Application number: CN202121622634.2U
Authority: CN
Inventors: 谢家兵
Original assignee: Chongqing Zhuofeng Automation Technology Co ltd
Current assignee: Chongqing Zhuofeng Automation Technology Co ltd
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2022-02-18
Anticipated expiration: 2031-07-16

Abstract

The utility model belongs to the technical field of wine vapor cooling equipment, and particularly relates to a wine vapor cooling system which comprises a first vapor cooling tank, a fan, a first water cooling tank, a second vapor cooling tank, a water storage tank, a Freon storage tank, a compressor, an evaporator and a condenser.

Description

Wine steam cooling system

Technical Field

The utility model belongs to the technical field of wine vapor cooling equipment, and particularly relates to a wine vapor cooling system.

Background

A large amount of wine vapor can be generated in the production process of wine in a winery, a large amount of water is needed in the process of cooling the wine vapor, the water can be polluted after the enzyme of a large amount of fermented wine in the winery is blended into the water, the polluted water is directly discharged to the outside, not only is the resource seriously wasted, but also certain influence is caused on the surrounding environment, and therefore, the problem that the cooling treatment of the wine vapor is urgently needed to be solved under the condition of no water pollution is solved if the wine vapor is cooled.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wine vapor cooling system for solving the technical problems.

The technical scheme for solving the technical problems is as follows: a wine vapor cooling system comprising:

a first steam cooling tank having a first steam inlet, a first steam outlet, a first water inlet, and a first water outlet, the first steam cooling tank being configured to cool steam by exchanging heat between the steam from the first steam inlet and water from the first water inlet;

the fan is provided with an air suction opening and an air outlet;

a first water cooling tank having a second water inlet, a second water outlet, a first air inlet and a first air outlet, the second water inlet being in communication with the first water outlet, the second water outlet being in communication with the first water inlet, the first air inlet being in communication with the air outlet, the first water cooling tank being configured to exchange heat between water from the second water inlet and air from the first air inlet to cool the water from the second water inlet;

a second steam cooling tank having a third water inlet, a third water outlet, a fourth water inlet, and a fourth water outlet, the first steam outlet communicating with the third water inlet, the second steam cooling tank exchanging heat between water from the third water inlet and water from the fourth water inlet to cool the water from the third water inlet;

the water storage tank is provided with a water storage inlet and a water storage outlet, and the fourth water outlet is communicated with the water storage inlet;

a freon storage tank having a first freon inlet and a first freon outlet for storing freon;

a compressor having a compressor inlet and a compressor outlet for pressurizing freon;

an evaporator having a second freon inlet in communication with the compressor outlet, a second freon outlet, a fifth water inlet and a fifth water outlet, the evaporator for heat exchanging freon from the second freon inlet with water from the fifth water inlet to cool the water from the fifth water inlet;

a condenser having a third freon inlet and a third freon outlet, the third freon inlet being in communication with the second freon outlet, the third freon outlet being in communication with the first freon inlet, the condenser being for cooling freon from the third freon inlet.

On the basis of the technical scheme, the utility model can be further improved as follows.

Further, the first steam cooling tank comprises a first shell and a plurality of rows of first steam pipes arranged at intervals, the first steam pipes are positioned in the first shell, an inlet of each first steam pipe is communicated with the corresponding first steam inlet, an outlet of each first steam pipe is communicated with the corresponding first steam outlet, and the first water inlet and the first water outlet are arranged on the first shell.

Furthermore, the first water cooling box comprises a box body and a plurality of rows of first water pipes arranged at intervals, the first water pipes are positioned in the box body, the inlet of each first water pipe is communicated with the corresponding second water inlet, the outlet of each first water pipe is communicated with the corresponding second water outlet, and the first air inlet and the first air outlet are formed in the box body.

Further, the second steam cooling tank comprises a second shell and a plurality of rows of second water pipes arranged at intervals, the second water pipes are located in the second shell, inlets of the second water pipes are communicated with the third water inlets, outlets of the second water pipes are communicated with the third water outlets, and the fourth water inlets and the fourth water outlets are arranged on the second shell.

Further, a first circulating pump is communicated between a second water outlet on the first water cooling tank and a first water inlet of the first steam cooling tank.

Further, a second circulating pump is communicated between a third water inlet on the second steam cooling tank and a fifth water outlet on the evaporator.

The utility model has the beneficial effects that: wine vapor enters a first vapor pipe in a first vapor cooling box through a first vapor inlet, water in the first vapor pipe in the first water cooling box is discharged through a second water outlet through a first circulating pump, the water is pumped into a cavity of the first vapor cooling box through a first water inlet, the water and the wine vapor are separated through the first vapor pipe and are cooled through heat conduction to be liquefied into high-temperature water, the temperature of the water in the cavity rises due to the heat of the absorbed wine vapor, the water in the cavity is discharged through the first water outlet and flows into the first vapor pipe in the first water cooling box through a second water inlet, then the water in the first vapor pipe is cooled through wind generated by a fan, and the cooled water enters the cavity of the first vapor cooling box through the first circulating pump, and the circulation is carried out.

And the water that becomes high temperature is discharged through first steam outlet and gets into in the second water pipe in the second steam cooling box through the third water inlet and cools off once more, finally discharges through the third delivery port, and adopts the freon refrigerant to cool off in the process of cooling down once more, and is specific, freon in the freon storage tank discharges through first freon outlet, and gets into in the compressor through the compressor entry to freon draws in the compressor from the low-pressure area after contracting, sends to the high-pressure district cooling and condenses, and freon becomes liquid from the gaseous state, and pressure risees. Freon flows to the low-pressure area from the high-pressure area again, radiates to the evaporimeter through the capillary in, this freon and the water that the storage water tank was discharged into in the evaporimeter through the fifth water inlet carry out the heat exchange in order to cool off this water, and the water after the cooling is discharged through the fifth delivery port and is gone into the high temperature water cooling once more in the cavity of second steam cooling box through second circulating pump, so circulation. And the freon is discharged into the condenser through a second freon outlet to be cooled, and finally is carried out in a freon storage tank, so that the circulation is carried out. To sum up, the wine steam cooling system of the utility model effectively cools the wine steam and has high efficiency.

Drawings

FIG. 1 is a schematic view of the flow structure of the wine vapor cooling system of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the utility model.

Examples

As shown in figure 1, the wine vapor cooling system comprises a first vapor cooling tank 1, a fan 2, a first water cooling tank 3, a second vapor cooling tank 4, a water storage tank 5, a Freon storage tank 6, a compressor 7, an evaporator 8 and a condenser 9.

The first vapor cooling tank 1 has a first vapor inlet 13, a first vapor outlet 15, a first water inlet 14, and a first water outlet 12, and the first vapor cooling tank 1 is configured to cool vapor by exchanging heat between vapor from the first vapor inlet 13 and water from the first water inlet 14.

The fan 2 has an air inlet 21 and an air outlet 22.

The first water cooling tank 3 has a second water inlet 33, a second water outlet 36, a first air inlet 35 and a first air outlet 34, the second water inlet 33 is communicated with the first water outlet 12, the second water outlet 36 is communicated with the first water inlet 14, the first air inlet 35 is communicated with the air outlet 22, and the first water cooling tank 3 is configured to exchange heat between water from the second water inlet 33 and air from the first air inlet 35 to cool the water from the second water inlet 33.

The second steam cooling box 4 has a third water inlet 43, a third water outlet 44, a fourth water inlet 45, and a fourth water outlet 46, the first steam outlet 15 communicates with the third water inlet 43, and the second steam cooling box 4 exchanges heat between water from the third water inlet 43 and water from the fourth water inlet 45 to cool the water from the third water inlet 43.

The water storage tank 5 has a water storage inlet 51 and a water storage outlet 53, and the fourth water outlet 46 is communicated with the water storage inlet 51.

The freon storage tank 6 has a first freon inlet 61 and a first freon outlet 62 for storing freon.

The compressor 7 has a compressor inlet 71 and a compressor outlet 72 for pressurizing freon.

The evaporator 8 has a second freon inlet 81, a second freon outlet 82, a fifth water inlet 83 and a fifth water outlet 84, the second freon inlet 81 is in communication with the compressor outlet 72, and the evaporator 8 is for heat exchanging freon from the second freon inlet 81 with water from the fifth water inlet 83 to cool the water from the fifth water inlet 83.

The condenser 9 has a third freon inlet 91 and a third freon outlet 92, said third freon inlet 91 being in communication with said second freon outlet 82, said third freon outlet 92 being in communication with said first freon inlet 61, said condenser 9 being for cooling freon from the third freon inlet 91.

The first steam cooling tank 1 includes a first casing 10 and a plurality of rows of first steam pipes 11 arranged at intervals, the first steam pipes 11 are located in the first casing 10, an inlet of the first steam pipe 11 is communicated with a first steam inlet 13, an outlet of the first steam pipe 11 is communicated with a first steam outlet 15, and the first water inlet 14 and the first water outlet 12 are disposed on the first casing 10.

The first water cooling tank 3 includes a tank 31 and a plurality of rows of first water pipes 32 arranged at intervals, the first water pipes 32 are located in the tank 31, an inlet of the first water pipe 32 is communicated with the second water inlet 33, an outlet of the first water pipe 32 is communicated with the second water outlet 36, and the first air inlet 35 and the first air outlet 34 are disposed on the tank 31.

The second vapor cooling tank 4 includes a second housing 41 and a plurality of rows of second water pipes 42 arranged at intervals, the second water pipes 42 are located in the second housing 41, an inlet of the second water pipe 42 is communicated with the third water inlet 43, an outlet of the second water pipe 42 is communicated with the third water outlet 44, and the fourth water inlet 45 and the fourth water outlet 46 are disposed on the second housing 41.

A first circulation pump 100 is communicated between the second water outlet 36 of the first water cooling tank 3 and the first water inlet 14 of the first steam cooling tank 1.

A second circulation pump 200 is communicated between the third water inlet 45 of the second steam cooling tank 4 and the fifth water outlet 84 of the evaporator 8.

The above devices can be communicated with each other through pipelines, and the wine vapor cooling system provided by the utility model is used as follows:

wine vapor enters a first vapor pipe 11 in the first vapor cooling tank 1 through a first vapor inlet 13, water in a first water pipe 32 in the first water cooling tank 3 is discharged through a second water outlet 36 through a first circulating pump 100, the water is pumped into a cavity of the first vapor cooling tank 1 through a first water inlet 14, the water and the wine vapor are separated by the first vapor pipe 11, the wine vapor in the first vapor pipe 11 is cooled through heat conduction and liquefied into high-temperature water, the temperature of the water in the cavity rises due to heat absorption of the wine vapor, the water in the cavity is discharged through the first water outlet 12 and flows into the first water pipe 32 in the first water cooling tank 3 through a second water inlet 33, the water in the first water pipe 32 is cooled through wind generated by a fan 2, and the cooled water enters the cavity of the first vapor cooling tank 1 through the first circulating pump 100, and the process is circulated.

The water which is liquefied into high temperature is discharged through the first steam outlet 15 and enters the second water pipe 42 in the second steam cooling box 4 through the third water inlet 43 to be cooled again, and finally discharged through the third water outlet 44, and the freon refrigerant is adopted to cool in the process of cooling again, specifically, the freon in the freon storage tank 6 is discharged through the first freon outlet 62 and enters the compressor 7 through the compressor inlet 71, so that the freon is pumped into the compressor 7 from the low-pressure area, is sent to the high-pressure area after being compressed, is cooled and condensed, the freon is changed into liquid from gas state, and the pressure is increased. Freon flows to the low-pressure area from the high-pressure area again, radiates to the evaporimeter 8 through the capillary, and this freon and water that the storage water tank 5 was arranged into in the evaporimeter 8 through fifth water inlet 83 carry out the heat exchange in order to cool this water, and the water after the cooling is discharged through fifth delivery port 84 and is gone into again to the high temperature water cooling in the second water pipe 42 in the cavity of second steam cooling case 4 through second circulating pump 200, so circulation. And the freon is discharged to the condenser 9 through the second freon outlet 82 for cooling and finally to the freon storage tank 6, so as to complete the circulation.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be considered as limiting the present invention.

Furthermore, in the description of the present invention, the term "plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A wine vapor cooling system, comprising:

the fan is provided with an air suction opening and an air outlet;

2. A wine vapor cooling system in accordance with claim 1 wherein said first vapor cooling tank comprises a first housing and a plurality of rows of spaced apart first vapor tubes within said first housing, said first vapor tubes having inlets in communication with said first vapor inlets, outlets in communication with said first vapor outlets, said first water inlet and said first water outlet disposed on said first housing.

3. A wine vapor cooling system in accordance with claim 1 wherein said first water cooling tank comprises a tank and a plurality of rows of spaced first water tubes, said first water tubes are located in said tank, said first water tubes have inlets in communication with said second water inlet, said first water tubes have outlets in communication with said second water outlet, and said first air inlet and said first air outlet are disposed on said tank.

4. A wine vapor cooling system in accordance with claim 1 wherein said second vapor cooling tank comprises a second housing and a plurality of rows of spaced apart second water tubes, said second water tubes being positioned within said second housing, said second water tubes having inlets in communication with said third water inlet, said second water tubes having outlets in communication with said third water outlet, said fourth water inlet and fourth water outlet being disposed on said second housing.

5. A wine vapor cooling system in accordance with claim 1, wherein a first circulation pump is connected between a second water outlet of said first water cooling tank and a first water inlet of said first vapor cooling tank.

6. A wine vapor cooling system in accordance with claim 1 wherein a second circulation pump is connected between a third water inlet on said second vapor cooling tank and a fifth water outlet on said evaporator.