CN210261724U - Low-temperature refrigeration equipment for wine brewing - Google Patents

Abstract

The utility model relates to the technical field of refrigeration equipment, in particular to low-temperature refrigeration equipment for brewing wine, which comprises a tower body, the bottom of the tower body is provided with a plurality of supporting legs, the upper part of the inner cavity of the tower body is provided with a first refrigeration tank, the upper end of the first refrigeration tank is connected and communicated with a liquid inlet pipe, the bottom of the first refrigeration tank is connected and communicated with a first liquid discharge pipe, the lower end of the first liquid discharge pipe is connected and communicated with a first filter, a second refrigeration tank is arranged under the first filter, the bottom of the second refrigeration tank is connected and communicated with a second liquid discharge pipe, the lower end of the second liquid discharge pipe is connected and communicated with a second filter, the water outlet of the second filter is connected and communicated with a liquid discharge pipe, the inner cavity of the tower body is provided with a first refrigeration device and a second refrigeration device, the wine is frozen and precipitated for a plurality of times through a tower structure, the occupied, low operation energy consumption, good precipitation effect and great improvement of the quality and the taste of the wine.

Description

Low-temperature refrigeration equipment for wine brewing

Technical Field

The utility model relates to a refrigeration plant technical field especially relates to a grape wine is made and is used low temperature refrigeration equipment.

Background

The low-temperature freezing treatment is an important factor for improving the stability and the quality of the wine, and becomes an important process condition for wine production, most of the wine production enterprises at present mostly adopt a long-time freezing tank for treatment, and need to be provided with an independent freezing device, a heat exchange device and a filter, but the equipment occupies too large area, the operation energy consumption is high, the treatment time is long, and the crystallization and precipitation are incomplete, so that a novel low-temperature freezing device for wine brewing is provided.

Disclosure of Invention

The utility model aims at solving the defects of overlarge occupied area, high operation energy consumption, long processing time and incomplete crystallization precipitation of the existing refrigerating equipment, and providing the low-temperature refrigerating equipment for brewing wine.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design is a low-temperature freezing device for brewing wine, which comprises a tower body, wherein a plurality of supporting legs are arranged at the bottom of the tower body, a first freezing tank is arranged at the upper part of an inner cavity of the tower body, the upper end of the first freezing tank is connected and communicated with a liquid inlet pipe, the liquid inlet pipe upwards penetrates through the top of the tower body, the bottom of the first freezing tank is connected and communicated with a first liquid discharge pipe, the lower end of the first liquid discharge pipe is connected and communicated with a first filter, a second freezing tank is arranged under the first filter, the first filter is connected and communicated with the second freezing tank through a water pipe, the bottom of the second freezing tank is connected and communicated with a second liquid discharge pipe, the lower end of the second liquid discharge pipe is connected and communicated with a second filter, a water outlet of the second filter is connected and communicated with a liquid discharge pipe, the liquid outlet end of the liquid discharge pipe penetrates through the tower body and outwards extends, liquid level meters are arranged on the inner walls of the first freezing tank and the second freezing tank, and, the inner chamber of tower body is equipped with first refrigerating plant and second refrigerating plant, and control panel is installed to the outer wall of tower body, is equipped with a plurality of buttons and display screen on the control panel, and control panel is inside to be equipped with the singlechip.

Preferably, the first refrigerating device comprises a first compressor, a first condenser and a first heat exchange tube in a loop shape, the first compressor and the first condenser are installed at the bottom of an inner cavity of the tower body, the output end of the first compressor is connected with the input end of the first condenser through a copper tube, the output end of the first condenser is connected with a refrigerant conveying tube, a first throttle valve is arranged on the refrigerant conveying tube, one end of the refrigerant conveying tube extends upwards and penetrates through the side wall of the first refrigerating tank, the end of the refrigerant conveying tube is connected with and communicated with the input end of the first heat exchange tube, the output end of the first heat exchange tube is connected with and communicated with a first return tube, and one end of the first return tube penetrates through the side wall of.

Preferably, the second refrigeration device comprises a second compressor, a second condenser and a second loop-shaped heat exchange tube, wherein the end, extending out of the first refrigeration tank, of the first return tube is connected and communicated with the input end of the second compressor, the output end of the second compressor is connected with the input end of the second condenser through a copper tube, the output end of the second condenser is connected with a refrigerant delivery tube, a second throttle valve is arranged on the refrigerant delivery tube, one end of the refrigerant delivery tube penetrates through the side wall of the second refrigeration tank and extends towards the inner cavity, the end is connected and communicated with the input end of the second heat exchange tube, the output end of the second heat exchange tube is connected and communicated with the second return tube, one end of the second return tube penetrates through the side wall of the second refrigeration tank outwards, and the end extends downwards and is communicated with the input end of.

Preferably, the inner cavities of the first filter and the second filter are both provided with a plurality of layers of disc type diatomite filter plates.

Preferably, the outer walls of the first freezing tank, the first filter, the second freezing tank and the second filter are all provided with polyurethane heat-insulating layers, and polyurethane heat-insulating pipes are sleeved on the refrigerant conveying pipes.

Preferably, the first liquid discharge pipe, the second liquid discharge pipe and the discharge pipe are all provided with an electric control valve.

Preferably, the upper end of the liquid inlet pipe is provided with a heat-insulating sealing cover plate.

Preferably, the outer wall of the tower body is coated with a thermal barrier coating.

The utility model provides a pair of wine is made and is used cryogenic refrigeration equipment, beneficial effect lies in: through tower structure to grape wine freezing sediment many times, equipment area is little, saves space, and processing time is short, and the operation energy consumption is low, has good precipitation effect, improves the quality and the taste of grape wine greatly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged schematic view of part A of the present invention;

fig. 3 is a schematic diagram of a control panel structure according to the present invention.

In the figure: 1 tower body, 2 supporting feet, 3 first freezing tank, 4 heat preservation layers, 5 liquid inlet pipes, 6 sealing cover plates, 7 first liquid discharge pipes, 8 electric control valves, 9 first filter, 10 diatomite filter plates, 11 second freezing tank, 12 second liquid discharge pipes, 13 second filter, 14 discharge pipes, 15 first compressor, 16 first condenser, 17 refrigerant conveying pipe, 18 heat preservation pipes, 19 first throttle valve, 20 first heat exchange pipe, 21 first return pipe, 22 second compressor, 23 second condenser, 24 second throttle valve, 25 second heat exchange pipe, 26 second return pipe, 27 probe type temperature sensor, 28 liquid level meter, 29 control panel, 30 display screen and 31 buttons.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1, 2 and 3, a low temperature freezing device for wine brewing comprises a tower body 1, a plurality of supporting legs 2 are arranged at the bottom of the tower body 1 to support and fix the tower body 1, a heat insulation coating is coated on the outer wall of the tower body 1 to insulate external heat, reduce the loss of cold energy caused by heat transfer and save energy, a first freezing tank 3 is arranged at the upper part of an inner cavity of the tower body 1, the upper end of the first freezing tank 3 is connected and communicated with a liquid inlet pipe 5, wine to be processed is added into the first freezing tank 3 through the liquid inlet pipe 5, the liquid inlet pipe 5 upwards penetrates through the top of the tower body 1, a heat insulation sealing cover plate 6 is arranged at the upper end of the liquid inlet pipe 5 to seal the first freezing tank 3, the bottom of the first freezing tank 3 is connected and communicated with a first liquid discharge pipe 7, the lower end of the first liquid discharge pipe 7 is connected and communicated with a first filter 9, the first filter 9 can filter crystal precipitation generated by freezing of, the taste and the quality of the grape wine are improved, a second freezing tank 11 is arranged right below a first filter 9, the first filter 9 is connected and communicated with the second freezing tank 11 through a water pipe, the grape wine is subjected to secondary freezing treatment in the second freezing tank 11, the grape wine is further crystallized and precipitated, the taste and the quality of the grape wine are greatly improved, the bottom of the second freezing tank 11 is connected and communicated with a second liquid discharge pipe 12, the lower end of the second liquid discharge pipe 12 is connected and communicated with a second filter 13, the second filter 13 can filter the secondary crystallized and precipitated grape wine generated by freezing, the water outlet of the second filter 13 is connected and communicated with a discharge pipe 14, the liquid outlet tower body of the discharge pipe 14 penetrates through the first freezing tank 1 and extends outwards, liquid level meters 28 are arranged on the inner walls of the first freezing tank 3 and the second freezing tank 11, and probe type temperature sensors 27 are arranged at the bottoms of the inner cavities of the first freezing tank 3 and the second freezing tank 11, a control panel 29 is installed on the outer wall of the tower body 1, a plurality of buttons 31 and a display screen 30 are arranged on the control panel 29 as shown in fig. 3, a single chip microcomputer is arranged inside the control panel 29, the model of the single chip microcomputer is STC89C52RC, the single chip microcomputer operates by being connected with an external power supply, the buttons 31 and the display screen 30 are electrically connected with the single chip microcomputer, the signal output ends of the probe type temperature sensor 27 and the liquid level meter 28 are connected with the signal input end of the single chip microcomputer, temperature information and liquid level height are displayed through the display screen 30, and a first refrigerating device and a second refrigerating device are arranged in an inner cavity.

The first refrigerating device comprises a first compressor 15, a first condenser 16 and a first heat exchange pipe 20 in a loop shape, the first compressor 15 and the first condenser 16 are arranged at the bottom of an inner cavity of the tower body 1, the output end of the first compressor 15 is connected with the input end of the first condenser 16 through a copper pipe, the output end of the first condenser 16 is connected with a refrigerant conveying pipe 17, a first throttle valve 19 is arranged on the refrigerant conveying pipe 17, one end of the refrigerant conveying pipe 17 extends upwards and penetrates through the side wall of the first refrigerating tank 3, the end is connected with and communicated with the input end of the first heat exchange pipe 20, the output end of the first heat exchange pipe 20 is connected with and communicated with a first return pipe 21, one end of the first return pipe 21 penetrates through the side wall of the first refrigerating tank 3 outwards, the first compressor 15 compresses a working medium from low-temperature low-pressure gas into high-temperature high-pressure gas, the high-temperature high-pressure liquid, the low-temperature low-pressure liquid flows through the first heat exchange tube 20 and exchanges heat with the wine in the inner cavity of the first freezing tank 3, the first heat exchange tube 20 in a loop shape can increase the heat exchange area and accelerate the cooling speed of the wine, the second freezing device comprises a second compressor 22, a second condenser 23 and a second heat exchange tube 25 in a loop shape, one end of the first return tube 21 extending out of the first freezing tank 3 is connected and communicated with the input end of the second compressor 22, the output end of the second compressor 22 is connected with the input end of the second condenser 23 through a copper tube, the output end of the second condenser 23 is connected with the refrigerant conveying tube 17, a second throttle valve 24 is arranged on the refrigerant conveying tube 17, one end of the refrigerant conveying tube 17 penetrates through the side wall of the second freezing tank 11 and extends towards the inner cavity, the end is connected and communicated with the input end of the second heat exchange tube 25, the output end of the second heat exchange tube 25 is connected and communicated with, one end of the second return pipe 26 outwardly penetrates through the side wall of the second freezing tank 11, and the end extends downward and is connected with the input end of the first compressor 15, the working medium liquid after heat exchange by the first heat exchange pipe 20 is extracted and compressed into high-temperature and high-pressure gas by the second compressor 22, and is condensed into medium-temperature and high-pressure liquid by the second condenser 23, and is throttled by the second throttle valve 24 to become low-temperature and low-pressure liquid, the low-temperature and low-pressure liquid circulates in the second heat exchange pipe 25, and exchanges heat with the wine in the inner cavity of the second freezing tank 11, and carries out secondary freezing treatment on the wine, and then the working medium liquid after heat exchange by the second heat exchange pipe 25 is extracted and compressed by the first compressor 15 to complete a cycle, as shown in fig. 2, the inner cavities of the first filter 9 and the second filter 13 are both provided with a plurality of disc type diatomite filter, first freezing jar 3, first filter 9, the outer wall of the freezing jar of second 11 and second filter 13 all is equipped with polyurethane heat preservation 4, polyurethane insulating tube 18 has been cup jointed on refrigerant conveyer pipe 17, improve the heat preservation effect, reduce the loss and the operation energy consumption of cold volume, first drain pipe 7, second drain pipe 12 and row's material pipe 14 all are equipped with electric control valve 8, first compressor 15 and second compressor 22 all switch on external power source and drive, and electric control valve 8, singlechip is connected to the equal electricity of first compressor 15 and second compressor 22, and control through button 31.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A low-temperature freezing device for brewing wine comprises a tower body (1), wherein a plurality of supporting legs (2) are arranged at the bottom of the tower body (1), and is characterized in that a first freezing tank (3) is arranged at the upper part of an inner cavity of the tower body (1), the upper end of the first freezing tank (3) is connected and communicated with a liquid inlet pipe (5), the liquid inlet pipe (5) upwards penetrates through the top of the tower body (1), the bottom of the first freezing tank (3) is connected and communicated with a first liquid outlet pipe (7), the lower end of the first liquid outlet pipe (7) is connected and communicated with a first filter (9), a second freezing tank (11) is arranged under the first filter (9), the first filter (9) is connected and communicated with the second freezing tank (11) through a water pipe, the bottom of the second freezing tank (11) is connected and communicated with a second liquid outlet pipe (12), and the lower end of the second liquid outlet pipe (12) is connected and communicated with a second filter (13), the delivery port of second filter (13) is connected and is linked together discharge tube (14), the play liquid end of discharge tube (14) runs through tower body (1) and outside extension, level gauge (28) are all installed to the inner wall of first freezing jar (3) and second freezing jar (11), and probe formula temperature sensor (27) are all installed to the inner chamber bottom of first freezing jar (3) and second freezing jar (11), the inner chamber of tower body (1) is equipped with first refrigerating plant and second refrigerating plant, control panel (29) are installed to the outer wall of tower body (1), be equipped with a plurality of buttons (31) and display screen (30) on control panel (29), control panel (29) inside is equipped with the singlechip.

2. The low-temperature freezing equipment for wine brewing according to claim 1, wherein the first freezing device comprises a first compressor (15), a first condenser (16) and a loop-shaped first heat exchange tube (20), the first compressor (15) and the first condenser (16) are arranged at the bottom of the inner cavity of the tower body (1), the output end of the first compressor (15) is connected with the input end of the first condenser (16) through a copper tube, the output end of the first condenser (16) is connected with a refrigerant conveying tube (17), a first throttle valve (19) is arranged on the refrigerant conveying tube (17), one end of the refrigerant conveying tube (17) extends upwards and penetrates through the side wall of the first freezing tank (3), the end is connected with and communicated with the input end of the first heat exchange tube (20), the output end of the first heat exchange tube (20) is connected with and communicated with a first return tube (21), and one end of the first return tube (21) penetrates through the side wall of the first freezing tank (3) outwards, the second refrigerating device comprises a second compressor (22), a second condenser (23) and a second heat exchange pipe (25) in a loop shape, one end of a first return pipe (21) extending out of the first refrigerating tank (3) is connected and communicated with the input end of the second compressor (22), the output end of the second compressor (22) is connected with the input end of the second condenser (23) through a copper pipe, the output end of the second condenser (23) is connected with a refrigerant conveying pipe (17), a second throttle valve (24) is arranged on the refrigerant conveying pipe (17), one end of the refrigerant conveying pipe (17) penetrates through the side wall of the second refrigerating tank (11) and extends towards the inner cavity, the end is connected and communicated with the input end of the second heat exchange pipe (25), the output end of the second heat exchange pipe (25) is connected and communicated with a second return pipe (26), and one end of the second return pipe (26) penetrates through the side wall of the second refrigerating tank (11) outwards, And which extends downwards and connects the input of the first compressor (15).

3. A cryogenic freezing device for wine brewing according to claim 1, wherein the inner cavities of the first filter (9) and the second filter (13) are each provided with a plurality of layers of disc-like diatomite filter plates (10).

4. The low-temperature freezing equipment for wine brewing according to claim 2, wherein the outer walls of the first freezing tank (3), the first filter (9), the second freezing tank (11) and the second filter (13) are all provided with a polyurethane heat-insulating layer (4), and a polyurethane heat-insulating pipe (18) is sleeved on the refrigerant conveying pipe (17).

5. A cryogenic freezing apparatus for wine brewing according to claim 1, wherein the first drain pipe (7), the second drain pipe (12) and the drain pipe (14) are provided with electrically controlled valves (8).

6. A cryogenic freezing apparatus for wine brewing according to claim 1, wherein the upper end of the liquid inlet pipe (5) is provided with a heat insulating sealing cover plate (6).

7. A cryogenic refrigeration device for wine brewing according to claim 1, characterized in that the outer wall of the tower body (1) is coated with a thermal insulating coating.

Images