CN112179045A - Spiral hollow tube type cooling device and method for red wine - Google Patents

Abstract

The utility model provides a spiral cavity tubular heat sink of red wine, the device comprises a device body, the equipment room, the wine workbin, the feed inlet, the cooling switch, the flush mounting plate, the cooling room, cooling air blower one, cooling fin one, spiral hollow tube one, a controller, temperature sensor one, the discharging pipe, the discharge gate, the cooling connecting pipe, the bin, temperature sensor two, the flow control solenoid valve, spiral hollow tube two, cooling fin two, temperature sensor two, cooling air blower two, the tapping solenoid valve, bleeder line and temperature sensor three, the inside equipment room and the cooling room that is provided with of device body, the equipment room is located the top between the cooling, the wine workbin sets up inside the equipment room, the feed inlet sets up on wine workbin upper portion, the flush mounting plate sets up on the equipment room openly, the cooling switch sets up on the flush mounting plate, lower part in the cooling room is located to controller and. This spiral hollow tube heat sink of red wine can be better let the cooling of red wine flow, through dynamic cooling treatment, has promoted the red wine quality.

Description

Spiral hollow tube type cooling device and method for red wine

Technical Field

The invention relates to the technical field of red wine processing, in particular to a spiral hollow tube type cooling device and method for red wine.

Background

In recent years, with the rapid development of economy in China and the improvement of the living standard of people, the requirements of people on living quality are increased, and the red wine is gradually brought into the daily life of people. The red wine is a name for the wine, the traditional red wine has quite simple components, is the fruit wine brewed by natural fermentation, contains most grape juice, and has a plurality of classification modes. The red wine can be divided into three types of red wine, white wine and pink wine according to the color of the finished product. Wherein the red wine can be subdivided into dry red wine, semi-sweet red wine and sweet red wine, and the white wine can be subdivided into dry white wine, semi-sweet white wine and sweet white wine. Pink wine is also called peach red wine and rose red wine. The red bayberry wine is brewed by bayberry. The red wine can help strengthen the metabolism of the body and effectively help the skin to avoid the problems of pigmentation, dark skin color, loose skin, long wrinkles and the like. The red wine can also help to remove cutin and effectively whiten skin. Resveratrol in red wine does have the efficacy of preventing cancer and diabetes and promoting heart health. The red wine also contains p-aminobenzoic acid which is a component of folic acid and can promote the synthesis of red blood cells and improve the utilization rate of pantothenic acid. The wine contains high content of inositol, and has effects of promoting fat metabolism in liver and other tissues, effectively preventing fatty liver, reducing blood cholesterol, enhancing intestinal absorption capacity, and stimulating appetite. The red wine has the characteristics of excellent quality and delicious taste, can present the balance of a tissue structure, enables people to enjoy endless taste, and has ever-increasing demand for the red wine, and the processing and manufacturing technology of the red wine is also developed rapidly. The red wine processing needs the steps of fruit juice fermentation, wine distillation and the like, and cooling needs to be carried out under specific conditions after the steps, so that the nutrient substances of the red wine are well locked, the quality of the red wine is guaranteed, and the taste quality of the red wine is also guaranteed. At present, the cooling in the traditional red wine processing process is only to place the red wine in a freezer or a refrigerating chamber for cooling treatment, and no special red wine cooling processing equipment is provided, although the cooling work in the red wine processing and manufacturing process can be basically completed. However, the static cooling treatment is adopted, and excessive cooling often occurs, so that freezing occurs in the cooling process, beneficial substances are difficult to be blended into the wine, the quality of the brewed red wine is difficult to be guaranteed, the taste of the red wine is affected, and the quality of the red wine pursued by people cannot be achieved.

Disclosure of Invention

The invention mainly aims to solve the defects and provides the spiral hollow tube type cooling device and the method for the red wine, which can well cool and cool the red wine in the processing process, ensure that the red wine locks nutrient substances and improve the quality of the red wine.

A spiral hollow tube type cooling device for red wine comprises a device body, a device room, a wine material box, a feeding hole, a cooling switch, a switch board, a cooling room, a cooling blower I, a cooling radiating fin I, a spiral hollow tube I, a controller, a temperature sensor I, a discharging tube, a discharging hole, a cooling connecting tube, a storing box, a temperature sensor II, a flow regulating electromagnetic valve, a spiral hollow tube II, a cooling radiating fin II, a temperature sensor II, a cooling blower II, a liquid discharging electromagnetic valve, a liquid discharging tube and a temperature sensor III, wherein the device room and the cooling room are arranged in the device body, the device room is positioned above the cooling room, the wine material box is arranged in the device room, the feeding hole is arranged at the upper part of the wine material box, the switch board is arranged on the front surface of the device room, the cooling switch is arranged on the switch board, the controller and the storing box are arranged at the lower part in the cooling room, the first cooling radiating fin is positioned below one side of the second cooling radiating fin, the first cooling blower is arranged on the inner side wall of the cooling chamber and is connected with the first cooling radiating fin through a ventilation pipe, the first spiral hollow pipe is vertically arranged inside the first cooling radiating fin, the second cooling blower is arranged on the inner side wall of the cooling chamber and is connected with the second cooling radiating fin through the ventilation pipe, the second spiral hollow pipe is vertically arranged inside the second cooling radiating fin, the first temperature sensor is arranged inside the first spiral hollow pipe, the second temperature sensor is arranged inside the second spiral hollow pipe, one end of a liquid discharge pipe is connected with the lower part of a wine material box, the other end of the liquid discharge pipe is connected with the second spiral hollow pipe, the liquid discharge electromagnetic valve is arranged in the liquid discharge pipe, one end of the cooling connecting pipe is connected with the second spiral hollow pipe, the other end of the cooling connecting pipe is, the lower part of one side of the storage box is provided with a discharge hole, the second temperature sensor is arranged at the lower part in the storage box, the third temperature sensor is arranged at the lower part in the wine box, and the cooling switch, the first cooling air blower, the first temperature sensor, the second temperature sensor, the flow regulating electromagnetic valve, the second temperature sensor, the second cooling air blower, the liquid discharging electromagnetic valve and the third temperature sensor are electrically connected with the controller through cables.

Further, this spiral hollow tube heat sink of red wine still includes the display, and the display setting is openly at the equipment room, and the display passes through cable and controller electric connection.

Further, this spiral hollow tube heat sink of red wine still includes level sensor one, and the vertical setting of level sensor is in the bin, and level sensor one passes through cable and controller electric connection. The spiral hollow tube type cooling device further comprises a second liquid level sensor, the second liquid level sensor is vertically arranged in the wine box, and the second liquid level sensor is electrically connected with the controller through a cable.

Further, this spiral hollow tube formula heat sink of red wine still includes discharge valve, baroceptor, the air feed solenoid valve, the air feed connecting pipe, air feed switch and nitrogen cylinder, the nitrogen cylinder setting is in the equipment room, its other end is connected with the nitrogen cylinder to air feed connecting pipe one end, the air feed solenoid valve sets up in the air feed connecting pipe, discharge valve sets up on equipment room upper portion, baroceptor sets up upper portion in the equipment room, discharge valve, baroceptor, air feed solenoid valve and air feed switch pass through cable and controller electric connection.

Further, the controller of the spiral hollow tube type cooling device for the red wine is a single chip processor, a PLC processor or an MCU processor.

The utility model provides a red wine's spiral hollow tube formula cooling method, the spiral hollow tube formula heat sink that uses red wine advances to process the red wine and cools down, the red wine that will cool down the processing is put into the wine workbin, open and control cooling blower two and cooling blower work through controller control tapping solenoid valve, red wine gets into spiral hollow tube two through the bleeder line in, cooling blower blows air to two pairs of cooling fin two, two pairs of spiral hollow tube two of cooling fin cool down, and then cool down to the red wine through spiral hollow tube two, red wine gets into spiral hollow tube one through the cooling connecting pipe and carries out the secondary cooling back, accomplish red wine cooling processing work in getting into the bin through the discharging pipe.

Compared with the prior art, the invention has the beneficial technical effects that: this spiral cavity tubular heat sink of red wine simple structure, operation convenient to use, the cooling that lets the red wine flow that can be better is cooled down, through dynamic cooling treatment, has ensured that red wine can reliably pin nutrient substance, has ensured the red wine taste, has improved the red wine quality, has promoted the red wine quality.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

In the figure, 1, an apparatus body; 2. a device room; 3. a wine box; 4. a feed inlet; 5. an exhaust valve; 6. an air pressure sensor; 7. an air supply solenoid valve; 8. an air supply connecting pipe; 9. a display; 10. a temperature reduction switch; 11. an air supply switch; 12. a switch plate; 13. a nitrogen gas cylinder; 14. a cooling chamber; 15. a first cooling blower; 16. cooling the first heat sink; 17. a first spiral hollow pipe; 18. a controller; 19. a first temperature sensor; 20. a discharge pipe; 21. a discharge port; 22. a cooling connecting pipe; 23. a storage tank; 24. a second temperature sensor; 25. a first liquid level sensor; 26. a flow regulating solenoid valve; 27. a second spiral hollow pipe; 28. a second cooling fin; 29. a second temperature sensor; 30. a second cooling blower; 31. a liquid discharge electromagnetic valve; 32. a liquid discharging pipe; 33. a third temperature sensor; 34. and a second liquid level sensor.

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 invention.

A spiral hollow tube type cooling device for red wine comprises a device body 1, an equipment room 2, a wine box 3, a feeding hole 4, a cooling switch 10, a switch plate 12, a cooling room 14, a cooling blower 15, a cooling radiating fin 16, a spiral hollow tube 17, a controller 18, a temperature sensor 19, a discharging tube 20, a discharging hole 21, a cooling connecting tube 22, a storage box 23, a temperature sensor 24, a flow regulating electromagnetic valve 26, a spiral hollow tube 27, a cooling radiating fin 28, a temperature sensor 29, a cooling blower 30, a liquid discharging electromagnetic valve 31, a liquid discharging tube 32 and a temperature sensor 33, wherein the equipment room 2 and the cooling room 14 are arranged inside the device body 1, the equipment room 2 is positioned above the cooling room 14, the wine box 3 is arranged inside the equipment room 2, the feeding hole 4 is arranged at the upper part of the wine box 3, the switch plate 12 is arranged on the front surface of the equipment room 2, the temperature reduction switch 10 is arranged on the switch board 12, the controller 18 and the storage box 23 are arranged at the lower part in the temperature reduction room 14, the first temperature reduction cooling fin 16 and the second temperature reduction cooling fin 28 are arranged at the middle part in the temperature reduction room 14, the first temperature reduction cooling fin 16 is positioned below one side of the second temperature reduction cooling fin 28, the first cooling air blower 15 is arranged on the inner side wall of the temperature reduction room 14 and is connected with the first temperature reduction cooling fin 16 through a ventilation pipe, the first spiral hollow pipe 17 is vertically arranged in the first temperature reduction cooling fin 16, the second cooling air blower 30 is arranged on the inner side wall of the temperature reduction room 14 and is connected with the second temperature reduction cooling fin 28 through a ventilation pipe, the second spiral hollow pipe 27 is vertically arranged in the second temperature reduction cooling fin 28, the first temperature sensor 19 is arranged in the first spiral hollow pipe 17, the second temperature sensor 29 is arranged in the second spiral hollow pipe, the liquid discharging electromagnetic valve 31 is arranged in the liquid discharging pipe 32, one end of the cooling connecting pipe 22 is connected with the second spiral hollow pipe 27, the other end of the cooling connecting pipe is connected with the first spiral hollow pipe 17, the flow regulating electromagnetic valve 26 is arranged in the cooling connecting pipe 22, one end of the discharging pipe 20 is connected with the first spiral hollow pipe 17, the other end of the discharging pipe is connected with the storage box 23, a discharging hole 21 is formed in the lower portion of one side of the storage box 23, the second temperature sensor 24 is arranged in the lower portion of the storage box 23, the third temperature sensor 33 is arranged in the lower portion of the wine material box 3, the cooling switch 10, the first cooling air blower 15, the first temperature sensor 19, the second temperature sensor 24, the flow regulating electromagnetic valve 26, the second temperature sensor 29, the second cooling.

In order to display the temperature of the red wine cooling treatment process in real time. This spiral hollow tube heat sink of red wine still includes display 9, and display 9 sets up on equipment room 2 is positive, and display 9 passes through cable and controller 18 electric connection.

To grasp the amount of liquid in the reservoir tank 23. This spiral hollow tube heat sink of red wine still includes level sensor 25, and level sensor 25 is vertical to be set up in bin 23, and level sensor 25 passes through cable and controller 18 electric connection. In order to know the liquid amount in the wine box 3. The spiral hollow tube type cooling device further comprises a second liquid level sensor 34, the second liquid level sensor 34 is vertically arranged in the wine material box 3, and the second liquid level sensor 34 is electrically connected with the controller 18 through a cable.

In order to increase the liquid pulsating flow in the red wine cooling process, the cooling effect is improved, and the freezing in the cooling process is better avoided. This spiral hollow tube formula heat sink of red wine still includes discharge valve 5, baroceptor 6, air feed solenoid valve 7, air feed connecting pipe 8, air feed switch 11 and nitrogen cylinder 13, nitrogen cylinder 13 sets up in equipment room 2, 8 one ends of air feed connecting pipe are connected its other end and are connected with wine feed box 3 with nitrogen cylinder 13, air feed solenoid valve 7 sets up in air feed connecting pipe 8, discharge valve 5 sets up 2 upper portions at equipment room, baroceptor 6 sets up upper portion in equipment room 2, discharge valve 5, baroceptor 6, air feed solenoid valve 7 and air feed switch 11 pass through cable and 18 electric connection of controller.

To enable different models of processors to be satisfied. The controller 15 of the spiral hollow tube type cooling device for red wine is a single chip processor, a PLC processor or an MCU processor.

The spiral hollow tube type cooling method of the red wine comprises the following steps: use the spiral hollow tube formula heat sink of red wine to advance to cool down red wine processing, the red wine that will cool down the processing is put into wine case 3, open and control cooling blower two 30 and 15 work of cooling blower through controller 18 control tapping solenoid valve 31, red wine gets into two 27 interior spiral hollow tubes through casting pipe 32, two 30 blast air of cooling blower cool down two 28, two 28 cooling fins cool down two 27 spiral hollow tubes, and then cool down the red wine through two 27 spiral hollow tubes, red wine gets into spiral hollow tube one 17 through cooling connecting pipe 22 and carries out the secondary cooling back, accomplish red wine cooling processing work in getting into storage box 23 through discharging pipe 20.

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 invention, 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 (7)

1. The utility model provides a spiral cavity tubular heat sink of red wine which characterized in that: the spiral hollow tube type cooling device for red wine comprises a device body (1), an equipment room (2), a wine material box (3), a feeding hole (4), a cooling switch (10), a switch board (12), a cooling room (14), a cooling blower I (15), a cooling radiating fin I (16), a spiral hollow tube I (17), a controller (18), a temperature sensor I (19), a discharging pipe (20), a discharging hole (21), a cooling connecting pipe (22), a storage box (23), a temperature sensor II (24), a flow regulating electromagnetic valve (26), a spiral hollow tube II (27), a cooling radiating fin II (28), a temperature sensor II (29), a cooling blower II (30), a liquid discharging electromagnetic valve (31), a liquid discharging pipe (32) and a temperature sensor III (33), wherein the equipment room (2) and the cooling room (14) are arranged inside the device body (1), the equipment room (2) is located cooling room (14) top, wine case (3) set up inside equipment room (2), feed inlet (4) set up on wine case (3) upper portion, flush mounting plate (12) set up on equipment room (2) are openly, cooling switch (10) set up on flush mounting plate (12), controller (18) and bin (23) set up lower part in cooling room (14), cooling fin (16) and cooling fin (28) set up middle part in cooling room (14), cooling fin (16) are located one side below of cooling fin (28), cooling blower (15) set up and are connected with cooling fin (16) on cooling room (14) inside wall through ventilation pipe, the vertical setting of spiral hollow pipe (17) is inside cooling fin (16), the cooling air blower II (30) is arranged on the inner side wall of the cooling room (14) and connected with the cooling radiating fin II (28) through a ventilation pipe, the spiral hollow tube II (27) is vertically arranged inside the cooling radiating fin II (28), the temperature sensor I (19) is arranged inside the spiral hollow tube I (17), the temperature sensor II (29) is arranged inside the spiral hollow tube II (27), one end of the liquid discharge pipe (32) is connected with the lower part of the wine box (3) and the other end of the liquid discharge pipe is connected with the spiral hollow tube II (27), the liquid discharge electromagnetic valve (31) is arranged in the liquid discharge pipe (32), one end of the cooling connecting pipe (22) is connected with the spiral hollow tube II (27) and the other end of the cooling connecting pipe is connected with the spiral hollow tube I (17), the flow regulating electromagnetic valve (26) is arranged in the cooling connecting pipe (22), one end of the discharge pipe (20) is connected with the spiral hollow tube I (17) and the other end, bin (23) one side lower part is equipped with discharge gate (21), two (24) of temperature sensor set up lower part in bin (23), three (33) of temperature sensor set up lower part in wine case (3), cooling switch (10), cooling blower (15), temperature sensor (19), two (24) of temperature sensor, flow control solenoid valve (26), two (29) of temperature sensor, cooling blower two (30), tapping solenoid valve (31) and three (33) of temperature sensor pass through cable and controller (18) electric connection.

2. A wine spiral hollow tube cooling device as defined in claim 1, wherein: the spiral hollow tube type cooling device for the red wine further comprises a display (9), the display (9) is arranged on the front face of the equipment room (2), and the display (9) is electrically connected with the controller (18) through a cable.

3. The red wine spiral hollow tube cooling device of claim 2, wherein: the spiral hollow tube type cooling device for the red wine further comprises a first liquid level sensor (25), wherein the first liquid level sensor (25) is vertically arranged in the storage box (23), and the first liquid level sensor (25) is electrically connected with the controller (18) through a cable.

4. A wine spiral hollow tube cooling device as defined in claim 3, wherein: the spiral hollow tube type cooling device for the red wine further comprises a second liquid level sensor (34), the second liquid level sensor (34) is vertically arranged in the wine box (3), and the second liquid level sensor (34) is electrically connected with the controller (18) through a cable.

5. A wine spiral hollow tube cooling device as defined in claim 4, wherein: the spiral hollow tube type cooling device for red wine further comprises an exhaust valve (5), a baroceptor (6), an air supply electromagnetic valve (7), an air supply connecting pipe (8), an air supply switch (11) and a nitrogen gas bottle (13), wherein the nitrogen gas bottle (13) is arranged in the equipment room (2), one end of the air supply connecting pipe (8) is connected with the nitrogen gas bottle (13) and the other end of the air supply connecting pipe is connected with the wine box (3), the air supply electromagnetic valve (7) is arranged in the air supply connecting pipe (8), the exhaust valve (5) is arranged on the upper portion of the equipment room (2), the baroceptor (6) is arranged on the upper portion of the equipment room (2), and the exhaust valve (5), the baroceptor (6), the air supply electromagnetic valve (7) and the air supply switch (11) are electrically connected with a controller (18).

6. A wine spiral hollow tube cooling device as defined in claim 5, wherein: the controller (15) is a single chip processor, a PLC processor or an MCU processor.

7. A spiral hollow tube type cooling method for red wine is characterized in that: the spiral hollow tube type cooling method for the red wine uses a spiral hollow tube type cooling device for the red wine to process and cool the red wine, the red wine to be cooled is placed into the wine box 3, the liquid discharge electromagnetic valve 31 is controlled to be opened through the controller 18, the cooling air blower II 30 and the cooling air blower I15 are controlled to work, the red wine enters the spiral hollow tube II 27 through the liquid discharge pipe 32, the cooling air blower II 30 blows air to the cooling radiating fins II 28, the cooling radiating fins II 28 cool the spiral hollow tube II 27, the red wine passing through the spiral hollow tube II 27 is cooled, the red wine enters the spiral hollow tube I17 through the cooling connecting pipe 22 to be cooled for the second time, and the red wine is cooled and processed through the discharging pipe 20 and the storage tank 23.

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