CN113481074A - Intelligent temperature adjusting equipment for wine brewing fermentation process - Google Patents

Abstract

The invention relates to brewing equipment, in particular to intelligent temperature adjusting equipment for a wine brewing fermentation process. The technical problems of the invention are as follows: the temperature intelligent adjusting equipment for the wine brewing and fermenting process is capable of quickly controlling the temperature in the brewing container, quickly taking effect in controlling the temperature and keeping the temperatures of the brewing containers at different positions consistent. The technical implementation scheme of the invention is as follows: the utility model provides an intelligent adjusting device of temperature of grape wine brewing fermentation process, includes the frame, and frame one side is equipped with the grudging post, is equipped with the control box between the frame, and grudging post one side is equipped with the mounting panel, and the mounting panel is for having the structure of two interlayers. Through adopting the mode that stretches into detection device and carry out the detection of temperature in the fermentation cylinder, can not need the manual work to stretch out the hand and go on in detecting, avoid the impurity of artifical hand to drop and influence the quality of grape wine production in the fermentation cylinder.

Description

Intelligent temperature adjusting equipment for wine brewing fermentation process

Technical Field

The invention relates to brewing equipment, in particular to intelligent temperature adjusting equipment for a wine brewing fermentation process.

Background

When grape wine is brewed, the grape needs to be placed in a brewing container and then placed in a cool factory building, and the grape has a certain temperature rise process in the brewing fermentation process, so that the temperature in the brewing container rises, if the temperature is higher than a normal value, the taste of the brewed grape wine does not reach the standard, if the temperature in the factory building is low, the temperature in the brewing container is low, if the temperature is lower than the normal value, the fermentation speed is reduced, and finally the taste of the brewed grape wine also does not reach the standard.

Therefore, the temperature intelligent adjusting device for the wine making and fermenting process is designed to solve the problems.

Disclosure of Invention

In order to overcome the defects that the temperature of a brewing container is difficult to control, the effect taking speed of controlling the temperature is slow and the temperatures of the brewing containers at different positions are inconsistent when the wine is brewed and fermented at present, the invention has the technical problems that: the temperature intelligent adjusting equipment for the wine brewing and fermenting process is capable of quickly controlling the temperature in the brewing container, quickly taking effect in controlling the temperature and keeping the temperatures of the brewing containers at different positions consistent.

The technical implementation scheme of the invention is as follows: an intelligent temperature adjusting device in a fermentation process of wine brewing comprises a frame, wherein a vertical frame is arranged on one side of the frame, a control box is arranged between the frames, an installation plate is arranged on one side of the vertical frame, the installation plate is of a structure with two interlayer, and a support frame is arranged at a position, close to one side of the installation plate, of the frame and far away from one side of the vertical frame; the arc frame is arranged at the position of one side of the supporting frame, which is far away from the mounting plate, a contact switch is arranged at the position of one side of the arc frame, which is far away from the supporting frame, and a water level probe is arranged at one side of the arc frame; the surrounding device is arranged at one side of the mounting plate close to the support frame and is used for surrounding the fermentation tank; the heating device is arranged at an interlayer structure on the mounting plate, is connected with the surrounding device and is used for supplying a heat source to be input into the surrounding device so as to heat the fermentation tank; the refrigerating device is arranged at the other interlayer structure of the mounting plate and is connected with the surrounding device, and the refrigerating device is used for refrigerating the inside of the surrounding device to cool the fermentation tank; the liquid supply device is arranged between the mounting plate and the frame, is used for supplying and distributing liquid in two temperature ranges of cold and hot with large specific heat capacity, and is respectively connected with the refrigerating device and the heating device; and the detection device is arranged on the support frame and is used for entering the fermentation tank to detect the internal temperature of the fermentation tank.

Optionally, the enclosing device comprises a fixed seat, the fixed seats are respectively arranged at positions of the mounting plate close to one side of the support frame, enclosing frames are rotatably arranged on the fixed seats, and sealing elements are arranged at positions of the enclosing frames far away from one side of the mounting plate; the water inlet pipes are respectively arranged on the surrounding frame, and the water inlet pipe at one side is connected with the refrigerating device, and the water inlet pipe at the other side is connected with the heating device; the cold discharge electromagnetic valve is arranged on the surrounding frame and is positioned at one side of the water inlet pipe connected with the refrigerating device; and the heat-extraction electromagnetic valve is arranged on the surrounding frame and is positioned at one side of the water inlet pipe connected with the heat supply device.

Optionally, the heat supply device comprises a first metal pipe, the first metal pipe is arranged in a partition layer on one side of the mounting plate, a vortex heater is further arranged at the same position, the vortex heater is sleeved on the first metal pipe, and a water inlet pipe on one side is connected with the first metal pipe; and the heat supply electromagnetic valve is arranged at the position of one side of the first metal pipe close to the liquid supply device and is connected with the liquid supply device.

Optionally, the refrigeration device comprises a second metal pipe, the second metal pipe is arranged in the interlayer on the other side of the mounting plate, a semiconductor refrigeration piece is further arranged at the same position, the semiconductor refrigeration piece is in contact with the periphery of the second metal pipe, and a water inlet pipe on the other side is connected with the second metal pipe; and the cooling electromagnetic valve is arranged at one side of the second metal pipe close to the liquid supply device and is connected with the liquid supply device.

Optionally, the liquid supply device comprises a water pump, the water pump is arranged between the interlayers of the mounting plate, and the water outlet end of the water pump is connected with the cooling electromagnetic valve and the heating electromagnetic valve; the water tanks are arranged on the frame, the number of the water tanks is two, one water tank is at a cold liquid interval position, the other water tank is at a hot liquid interval position, the cold discharge electromagnetic valve is connected with the water tank at the cold liquid interval, and the heat discharge electromagnetic valve is connected with the water tank at the hot liquid interval; the shunt pipe is arranged at the water outlet end of the water pump, a cold inlet electromagnetic valve and a hot inlet electromagnetic valve are respectively arranged on two sides of the shunt pipe, the cold inlet electromagnetic valve is connected with the water tank in the cold liquid interval, and the hot inlet electromagnetic valve is connected with the water tank in the hot liquid interval.

Optionally, the detection device comprises an electric slide rail, the electric slide rail is arranged between the support frames, and a lifting frame is arranged on the moving member of the electric slide rail; and the temperature sensor is arranged on the other side of the lifting frame.

Optionally, the temperature sensor further comprises a diffusion device, the diffusion device comprises a diffusion ring, the diffusion ring is arranged at the position, close to the temperature sensor, of the lifting frame, and the diffusion ring is sleeved on the periphery of the temperature sensor; the driving motor is arranged on the lifting frame and close to one side of the diffusion ring, and an output shaft of the driving motor is connected with the diffusion ring through mechanical transmission.

Optionally, the lifting frame further comprises a transmission device, the transmission device comprises toothed belts, and the toothed belts are respectively arranged on two sides of the lifting frame; the transmission gear is respectively and rotatably arranged on the fixing piece of the fixing seat, the toothed belts are respectively matched with the adjacent transmission gears, and a gear transmission assembly is arranged between the shaft connecting part of the transmission gear and the shaft connecting part of the fixing seat.

Optionally, the control box comprises a switching power supply, a DC-DC power supply module and a microcontroller MCU, the switching power supply supplies power to the temperature intelligent adjusting device, the DC-DC power supply module is connected with a main power switch through a line, the microcontroller MCU and the DC-DC power supply module are electrically connected with each other, the control box is provided with a digital key, a reverse key, a refrigeration start switch and a heating start switch, the digital key, the reverse key, the refrigeration start switch and the heating start switch are electrically connected with the microcontroller MCU, the contact switch and the water level probe are electrically connected with the microcontroller MCU, the temperature sensor is electrically connected with the microcontroller MCU, the microcontroller MCU is connected with a 24C02 circuit, an electric slide rail, a cooling solenoid valve, a heat exhaust solenoid valve, a cooling solenoid valve, a heat supply solenoid valve, a cooling solenoid valve, a heat inlet solenoid valve, a heating solenoid valve, a cooling solenoid valve, a heating solenoid valve, a switch, a heating solenoid valve, a switch, a, The driving motor, the eddy current heater, the semiconductor refrigerating sheet and the water pump are all connected with the microcontroller MCU through peripheral circuits.

The beneficial effects are that: 1. according to the invention, by adopting the mode of extending the detection device into the fermentation tank for temperature detection, manual stretching is not needed during detection, impurities of manual hands fall into the fermentation tank to influence the quality of wine production, and the temperature intelligent adjusting equipment can be quickly positioned around the fermentation tank with required temperature control by moving the temperature intelligent adjusting equipment through the frame, so that the maneuverability is improved, and the time and labor caused by the fact that a plurality of tools are required to be held by hands in the prior art are avoided.

2. According to the invention, the way that the surrounding frame surrounds the periphery of the fermentation tank is adopted, and the way that the surrounding part is filled with the temperature control liquid is adopted, so that the temperature control speed of the fermentation tank is accelerated, the fermentation quality of the fermentation tank can be improved, the efficiency is high, and excessive manual operation is not needed.

3. The invention can control the fermentation tank with over-high temperature or over-low temperature in a targeted manner by adopting the mode that the liquid supply device is provided with the two water tanks, can effectively utilize the residual temperature of the last time, reduces the operation load of the heating device and the refrigerating device, and can also quickly raise or lower the temperature of the surrounding frame.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic diagram of a fourth three-dimensional structure according to the present invention.

Fig. 5 is a schematic perspective view of the frame part of the present invention.

FIG. 6 is a schematic view of a first partial body configuration of the enclosure of the present invention.

FIG. 7 is a schematic view of a second partial body configuration of the enclosure of the present invention.

Fig. 8 is a partial perspective view of the mounting plate of the present invention.

Fig. 9 is a schematic perspective view of a part of the heating apparatus according to the present invention.

Fig. 10 is a schematic perspective view of a part of the refrigerating apparatus according to the present invention.

FIG. 11 is a schematic perspective view of a portion of a liquid supply apparatus according to the present invention.

FIG. 12 is a partial perspective view of a liquid supply apparatus according to the present invention.

Fig. 13 is a schematic partial perspective view of the detecting device of the present invention.

Fig. 14 is a partial perspective view of the detecting device of the present invention.

Fig. 15 is a schematic perspective view of a portion of a diffusion device according to the present invention.

Fig. 16 is a partial perspective view of the transmission of the present invention.

Fig. 17 is a schematic circuit diagram of the present invention.

Fig. 18 is a circuit block diagram of the present invention.

In the reference symbols: 1_ frame, 2_ stand, 3_ control box, 4_ mounting plate, 5_ cradle, 6_ arc, 61_ contact switch, 7_ water level probe, 8_ enclosure, 9_ heating, 10_ refrigeration, 11_ liquid supply, 12_ detection, 81_ mounting, 82_ enclosure, 83_ seal, 84_ water inlet, 85_ cooling solenoid, 86_ heat removal solenoid, 91_ first metal tube, 92_ vortex heater, 93_ heating solenoid, 101_ second metal tube, 102_ semiconductor refrigeration sheet, 103_ cooling solenoid, 111_ water pump, 112_ water tank, 113_ shunt, 114_ cooling solenoid, 115_ heating solenoid, 121_ electric slide, 122_ cradle, 123_ temperature sensor, 13_ diffuser, 131_ diffuser, 132_ drive motor, 14_ transmission, 141_ toothed belt, 142_ drive gear, 143_ geared assembly.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

An intelligent temperature adjusting device for a fermentation process of wine brewing is shown in figures 1-5 and comprises a frame 1, a vertical frame 2, a control box 3, a mounting plate 4, a support frame 5, an arc frame 6, a contact switch 61, a water level probe 7, a surrounding device 8, a heat supply device 9, a refrigeration device 10, a liquid supply device 11 and a detection device 12, and specifically comprises:

the vertical frame 2 is arranged in front of the upper side of the frame 1, the control box 3 is arranged on the lower side wall of the frame 1, the mounting plate 4 is arranged on the rear side of the vertical frame 2, the mounting plate 4 is of a structure with two interlayers, the support frame 5 is arranged on the rear side of the frame 1, the arc frame 6 is arranged in the middle of the rear side of the support frame 5, the contact switch 61 is arranged in the middle of the rear side of the arc frame 6, the water level probe 7 is arranged on one side of the arc frame 6, the surrounding device 8 is arranged on the rear side of the mounting plate 4, the surrounding device 8 is used for surrounding the fermentation tank, the heating device 9 is arranged at the interlayer structure on the right side of the front side of the mounting plate 4, the heating device 9 is connected with the surrounding device 8, the heating device 9 is used for supplying heat source to the surrounding device 8 to heat the fermentation tank, the refrigeration device 10 is arranged at the interlayer structure on the left side of the front side of the mounting plate 4, the refrigeration device 10 is connected with the surrounding device 8, the refrigeration device 10 is used for cooling the fermentation tank, a liquid supply device 11 is arranged between the frame 1 and the mounting plate 4, the liquid supply device 11 is used for supplying and distributing liquid in two temperature ranges of cold and hot with large specific heat capacity, the liquid supply device 11 is respectively connected with a refrigerating device 10 and a heating device 9, a detection device 12 is arranged on the support frame 5, and the detection device 12 is used for entering the fermentation tank to detect the internal temperature.

When the embodiment is operated, when the temperature of the grape wine brewing fermentation process needs to be quickly detected and controlled, the temperature intelligent adjusting device can be moved through the frame 1, the power main switch is started to electrify the temperature intelligent adjusting device, the temperature of the detecting device 12 is set through a digital key in the control box 3, the temperature intelligent adjusting device is pushed to enable the surrounding device 8 to be positioned at one side of a fermentation tank and to be in contact with the periphery of the fermentation tank through the arc-shaped frame 6, the detecting device 12 is positioned above the fermentation tank, the contact switch 61 is triggered at the moment, the contact switch 61 is triggered to drive the detecting device 12 to move downwards to extend into the fermentation tank, the detecting device 12 detects the temperature of the grape wine in the fermentation tank and displays the temperature through the LCD display screen in the control box 3, after the numerical value of the internal temperature is detected, whether the fermentation tank is subjected to temperature control can be judged, and if the fermentation tank is not required to be controlled, the intelligent temperature adjusting equipment is pushed away through the frame 1; if the temperature in the fermentation tank needs to be controlled, the surrounding device 8 can be pushed to work, so that the surrounding device 8 surrounds the periphery of the fermentation tank and seals the lower part of the periphery of the fermentation tank, and the working state of the intelligent temperature adjusting equipment can be controlled by the microcontroller MCU; if the internal temperature of the fermentation tank is higher than the normal temperature, the intelligent temperature adjusting equipment is controlled to work through a refrigeration starting switch of the control box 3, the microcontroller MCU controls the liquid supply device 11 and the refrigeration device 10 to be started, the liquid supply device 11 sucks liquid in a cold area to the refrigeration device 10, the refrigeration device 10 refrigerates the liquid and inputs the liquid into the surrounding device 8, the liquid is filled in the surrounding device 8 and the position of the periphery of the fermentation tank, the refrigerated liquid cools the periphery of the fermentation tank so as to cool the interior of the fermentation tank, the detection device 12 detects the internal temperature of the fermentation tank in real time, and the water level probe 7 also detects the water level in the surrounding frame 82; if the water level probe 7 detects that the liquid in the surrounding device 8 is full of grids and the temperature in the fermentation tank is still too high at the moment, the water level probe 7 directly controls the surrounding device 8 to be started through the microcontroller MCU, so that the refrigerated liquid in the surrounding device 8 is discharged to the liquid part position in the cold region of the liquid supply device 11, the power of the liquid supply device 11 is controlled, the liquid supply device 11 and the refrigeration device 10 are still in a working state at the moment, the liquid in the surrounding device 8 can be circularly refrigerated, and the cooling work of the fermentation tank is kept; when the detection device 12 detects that the temperature in the fermentation tank reaches a set value, the detection device 12 controls the liquid supply device 11 and the refrigeration device 10 to stop working through the microcontroller MCU, at the moment, the reverse key of the control box 3 can control the detection device 12 to move upwards to reset and withdraw from the fermentation tank, meanwhile, the microcontroller MCU can also control the surrounding device 8 to discharge liquid, so that the refrigerated liquid in the surrounding device 8 is discharged to the liquid part position of the cold region of the liquid supply device 11, when the water level probe 7 does not detect the liquid, the surrounding device 8 is closed, at the moment, the surrounding device 8 can be released from surrounding the fermentation tank, and at the moment, the temperature intelligent adjusting equipment can be withdrawn to other fermentation tank positions through the frame 1; if the internal temperature of the fermentation tank is lower than the normal temperature, the temperature intelligent adjusting device is controlled to work through a heating starting switch of the control box 3, the microcontroller MCU controls the liquid supply device 11 and the heat supply device 9 to be started, the liquid supply device 11 absorbs liquid in the hot area to the heat supply device 9, the refrigerating device 10 heats the liquid and inputs the liquid into the surrounding device 8, and the internal temperature of the fermentation tank can be increased if the working process is consistent.

Example 2

An intelligent temperature adjusting device for a fermentation process of wine brewing, as shown in fig. 6-16, an enclosing device 8 comprises a fixing seat 81, an enclosing frame 82, a sealing member 83, a water inlet pipe 84, a cold discharge electromagnetic valve 85 and a heat discharge electromagnetic valve 86, and specifically comprises:

the mounting panel 4 rear side both sides all are equipped with fixing base 81, the equal rotary type is connected with on fixing base 81 surrounds frame 82, surround frame 82 rear side lower part all is equipped with sealing member 83, surround frame 82 upside all is equipped with oral siphon 84, left side oral siphon 84 is connected with refrigerating plant 10, right side oral siphon 84 is connected with heating device 9, left side surrounds frame 82 below and is equipped with row cold solenoid valve 85, row cold solenoid valve 85 is connected with the cold district of liquid supply unit 11, right side surrounds frame 82 below and is equipped with heat extraction solenoid valve 86, heat extraction solenoid valve 86 is connected with liquid supply unit 11 hot district.

When the embodiment is operated, the surrounding frame 82 can be rotated to enable the surrounding frame 82 to surround the periphery of the fermentation tank, the sealing element 83 seals the surrounding frame 82 and the lower side position of the fermentation tank, the refrigerating device 10 or the heating device 9 supplies liquid to the surrounding frame 82 through the water inlet pipe 84, the water level probe 7 detects the water level in the surrounding frame 82, and if the water level probe 7 detects that the liquid in the surrounding frame 82 is full of grids and the temperature in the fermentation tank is still too high at the moment, or the temperature in the fermentation tank reaches a set value, the microcontroller MCU controls the cooling discharge electromagnetic valve 85 to be started to discharge the refrigerated liquid in the surrounding frame 82 to the liquid part position in the cold zone of the liquid supply device 11; on the contrary, when the fermentation tank is heated, the microcontroller MCU will control the heat-discharging solenoid valve 86 to start to operate as described above.

The heating device 9 comprises a first metal pipe 91, a vortex heater 92 and a heating electromagnetic valve 93, and specifically comprises:

be equipped with first tubular metal resonator 91 in the right side interlayer of mounting panel 4, right side oral siphon 84 is connected with first tubular metal resonator 91 upside, is equipped with vortex heater 92 in the right side interlayer of mounting panel 4, and vortex heater 92 cover is in first tubular metal resonator 91 periphery, and first tubular metal resonator 91 downside is equipped with heat supply solenoid valve 93, and heat supply solenoid valve 93 is connected with liquid supply device 11.

In the operation of the above embodiment, after the temperature intelligent adjusting device is started by the heating start switch, the vortex heater 92 will start to operate, the vortex heater 92 will heat the first metal pipe 91, the heat supply solenoid valve 93 will be opened, and at this time, the liquid supply device 11 will supply liquid into the first metal pipe 91 through the heat supply solenoid valve 93, so as to heat the liquid flowing through the first metal pipe 91, and then input the liquid into the position between the surrounding frames 82 from the right water inlet pipe 84, so as to fill the surrounding frames 82 with hot liquid to heat the fermentation tank.

The refrigerating device 10 comprises a second metal pipe 101, a semiconductor refrigerating sheet 102 and a cooling electromagnetic valve 103, and specifically comprises:

a second metal pipe 101 is arranged in a left interlayer of the mounting plate 4, the left water inlet pipe 84 is connected with the upper side of the second metal pipe 101, a semiconductor refrigeration piece 102 is arranged in the left interlayer of the mounting plate 4, the semiconductor refrigeration piece 102 is in peripheral contact with the second metal pipe 101, a cooling electromagnetic valve 103 is arranged on the lower side of the second metal pipe 101, and the cooling electromagnetic valve 103 is connected with the liquid supply device 11.

When the embodiment is operated, after the intelligent temperature adjusting device is started through the refrigeration starting switch, the semiconductor refrigeration piece 102 starts to work, the semiconductor refrigeration piece 102 heats the second metal pipe 101, the cooling electromagnetic valve 103 is opened, the liquid supply device 11 supplies liquid into the second metal pipe 101 through the cooling electromagnetic valve 103, so that the liquid flowing through the second metal pipe 101 is cooled, and then the liquid is input into the position between the surrounding frames 82 from the left water inlet pipe 84, so that the surrounding frames 82 are filled with the cooling liquid to cool the fermentation tank.

The liquid supply device 11 comprises a water pump 111, a water tank 112, a shunt pipe 113, a cold inlet electromagnetic valve 114 and a hot inlet electromagnetic valve 115, and specifically comprises:

be equipped with water pump 111 between two interlayers of mounting panel 4, be equipped with two water tanks 112 on frame 1, left side water tank 112 is the interval position of cold liquid, right side water tank 112 is the interval position of hot liquid, water pump 111 goes out the water end and is connected with cooling solenoid valve 103 and heating solenoid valve 93, water pump 111 intakes the end and is equipped with shunt tubes 113, shunt tubes 113 left side is equipped with into cold solenoid valve 114, shunt tubes 113 right side is equipped with into cold solenoid valve 115, it is connected with left side water tank 112 to advance cold solenoid valve 114, it is connected with right side water tank 112 to advance hot solenoid valve 115, it is connected with left side water tank 112 to arrange cold solenoid valve 85, heat extraction solenoid valve 86 is connected with right side water tank 112.

When the above embodiment is operated, after the intelligent temperature adjustment device is started by the refrigeration start switch in the control box 3, the water pump 111 and the cold inlet solenoid valve 114 are started, so that the water pump 111 sucks liquid from the left water tank 112 through the cold inlet solenoid valve 114, inputs the liquid to the cold supply solenoid valve 103 through the shunt pipe 113 and the water pump 111, and cools the liquid through the semiconductor refrigeration sheet 102, and the liquid from the cold discharge solenoid valve 85 flows back to the left water tank 112; after the temperature intelligent adjusting device is started by the heating start switch in the control box 3, the water pump 111 and the heat inlet electromagnetic valve 115 are started, so that the water pump 111 sucks liquid from the right water tank 112 through the heat inlet electromagnetic valve 115, inputs the liquid into the heat supply electromagnetic valve 93 through the shunt pipe 113 and the water pump 111, and heats the liquid through the vortex heater 92, and the liquid from the heat exhaust electromagnetic valve 86 flows back into the right water tank 112.

The detecting device 12 includes an electric slide rail 121, a lifting frame 122 and a temperature sensor 123, and specifically includes:

be equipped with electronic slide rail 121 between the support frame 5, be equipped with crane 122 on the electronic slide rail 121 moving member, crane 122 upside rear is equipped with temperature sensor 123.

When the embodiment is operated, the temperature sensor 123 can be set to a normal temperature value through a digital key in the control box 3, when the contact switch 61 is triggered, the contact switch 61 controls the electric slide rail 121 to start through the microcontroller MCU, so that the electric slide rail 121 drives the lifting frame 122 to move downwards, the lifting frame 122 drives the temperature sensor 123 to move downwards to enter the fermentation tank for real-time temperature monitoring, and the temperature is displayed through the LCD display screen in the control box 3; when the temperature sensor 123 detects that the temperature in the fermentation tank is within a normal value range, the electric slide rail 121 can be controlled to move upwards through the reversing key of the control box 3 to reset, and if the rest parts in the temperature intelligent adjusting device are in a working state, the temperature sensor 123 is also controlled to enter a resetting program through the microcontroller MCU.

Still including diffusion device 13, diffusion device 13 is including diffusion ring 131 and driving motor 132, specifically is:

the rear of the upper side of the lifting frame 122 is rotatably connected with a diffusion ring 131, the diffusion ring 131 is sleeved on the periphery of the temperature sensor 123, a driving motor 132 is arranged on the rear of the upper side of the lifting frame 122, and an output shaft of the driving motor 132 is connected with the diffusion ring 131 through mechanical transmission.

Above-mentioned embodiment is when operating, when contact switch 61 is triggered, crane 122 is the downstream, crane 122 will drive diffusion ring 131 downstream, thereby make diffusion ring 131 stretch into the fermentation cylinder, driving motor 132 will start this moment, driving motor 132 will drive diffusion ring 131 rotatory, thereby make diffusion ring 131 mix the material in the fermentation cylinder, like this when carrying out temperature control to the fermentation cylinder, can accelerate the molecular diffusion in the fermentation cylinder, make the temperature even, the temperature interval that makes temperature sensor 123 detect is more accurate.

Still include transmission 14, transmission 14 includes toothed belt 141, drive gear 142 and gear drive subassembly 143, specifically is:

both sides of the middle part of the lifting frame 122 are provided with toothed belts 141, the fixing part of the fixing seat 81 is rotatably connected with a transmission gear 142, the transmission gear 142 is matched with the adjacent toothed belts 141, a gear transmission assembly 143 is arranged between the shaft connection part of the transmission gear 142 and the shaft connection part of the fixing seat 81, and the gear transmission assembly 143 is in bevel gear transmission.

In operation, when the lifting frame 122 moves up and down, the toothed belt 141 drives the transmission gear 142 to rotate, so that the transmission gear 142 drives the surrounding frames 82 to rotate mutually through the gear transmission assembly 143, and the surrounding frames 82 can be automatically surrounded and opened.

Example 3

A temperature intelligent adjusting device for a wine brewing fermentation process is disclosed, as shown in figures 17-18, a control box 3 comprises a switch power supply, a DC-DC power supply module and a microcontroller MCU, the switch power supply supplies power for the temperature intelligent adjusting device, the DC-DC power supply module is connected with a power main switch through a circuit, the microcontroller MCU and the DC-DC power supply module are electrically connected, the control box 3 is provided with a digital key, a reverse key, a refrigeration starting switch and a heating starting switch, the digital key, the reverse key, the refrigeration starting switch and the heating starting switch are electrically connected with the microcontroller MCU, a contact switch 61 and a water level probe 7 are electrically connected with the microcontroller MCU, a temperature sensor 123 is electrically connected with the microcontroller MCU, the microcontroller MCU is connected with a 24C02 circuit, an electric sliding rail 121, The cold discharging electromagnetic valve 85, the heat discharging electromagnetic valve 86, the cold supplying electromagnetic valve 103, the heat supplying electromagnetic valve 93, the cold inlet electromagnetic valve 114, the heat inlet electromagnetic valve 115, the driving motor 132, the vortex heater 92, the semiconductor refrigeration piece 102 and the water pump 111 are all connected with the microcontroller MCU through a peripheral circuit.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims (9)

1. The utility model provides an intelligent adjusting device of temperature of grape wine brewing fermentation process which characterized by, including:

the bicycle frame comprises a bicycle frame (1), wherein vertical frames (2) are arranged on one side of the bicycle frame (1), a control box (3) is arranged between the bicycle frames (1), a mounting plate (4) is arranged on one side of each vertical frame (2), the mounting plate (4) is of a structure with two interlayers, and a support frame (5) is arranged at a position, close to one side of the mounting plate (4), of the bicycle frame (1) and far away from one side of the vertical frames (2);

the arc-shaped frame (6), the arc-shaped frame (6) is arranged at the position of one side of the support frame (5) far away from the mounting plate (4), a contact switch (61) is arranged at the position of one side of the arc-shaped frame (6) far away from the support frame (5), and a water level probe (7) is arranged at one side of the arc-shaped frame (6);

the surrounding device (8), the surrounding device (8) is arranged at one side of the mounting plate (4) close to the support frame (5), and the surrounding device (8) is used for surrounding the fermentation tank;

the heating device (9), the heating device (9) is arranged at an interlayer structure on the mounting plate (4), the heating device (9) is connected with the surrounding device (8), and the heating device (9) is used for supplying a heat source to be input into the surrounding device (8) so as to heat the fermentation tank;

the refrigerating device (10) is arranged at the other interlayer structure of the mounting plate (4), the refrigerating device (10) is connected with the surrounding device (8), and the refrigerating device (10) is used for refrigerating the inside of the surrounding device (8) to cool the fermentation tank;

the liquid supply device (11) is arranged between the mounting plate (4) and the frame (1), the liquid supply device (11) is used for supplying and distributing liquid with two temperature ranges of cold and hot with large specific heat capacity, and the liquid supply device (11) is respectively connected with the refrigerating device (10) and the heating device (9);

and the detection device (12), the detection device (12) is arranged on the support frame (5), and the detection device (12) is used for entering the fermentation tank to detect the internal temperature of the fermentation tank.

2. An intelligent temperature regulation device for a wine making fermentation process as claimed in claim 1, characterised in that the enclosure means (8) comprises

The fixing seats (81), the fixing seats (81) are respectively arranged at the positions of the mounting plates (4) close to one side of the support frame (5), the fixing seats (81) are respectively and rotatably provided with surrounding frames (82), and the positions of the surrounding frames (82) far away from one side of the mounting plates (4) are respectively provided with sealing elements (83);

the water inlet pipes (84) are respectively arranged on the surrounding frame (82), the water inlet pipe (84) at one side is connected with the refrigerating device (10), and the water inlet pipe (84) at the other side is connected with the heating device (9);

the cold discharge electromagnetic valve (85), the cold discharge electromagnetic valve (85) is arranged on the surrounding frame (82), and is positioned at one side of the water inlet pipe (84) connected with the refrigerating device (10);

and the heat discharge electromagnetic valve (86), the heat discharge electromagnetic valve (86) is arranged on the surrounding frame (82), and the heat discharge electromagnetic valve is positioned at one side of the water inlet pipe (84) connected with the heat supply device (9).

3. An intelligent temperature regulating device for a wine making and fermentation process as claimed in claim 2, wherein the heat supply means (9) comprises:

the first metal pipe (91), the first metal pipe (91) is arranged in the interlayer at one side of the mounting plate (4), a vortex heater (92) is further arranged at the same position, the vortex heater (92) is sleeved on the first metal pipe (91), and the water inlet pipe (84) at one side is connected with the first metal pipe (91);

the heat supply electromagnetic valve (93), heat supply electromagnetic valve (93) locate first tubular metal resonator (91) and are close to liquid supply device (11) one side position department, and heat supply electromagnetic valve (93) are connected with liquid supply device (11).

4. An intelligent temperature regulation device for a wine making and fermentation process as claimed in claim 3, wherein the refrigeration means (10) comprises:

the second metal pipe (101), the second metal pipe (101) is arranged in the interlayer at the other side of the mounting plate (4), a semiconductor refrigerating sheet (102) is further arranged at the same position, the semiconductor refrigerating sheet (102) is in contact with the periphery of the second metal pipe (101), and a water inlet pipe (84) at the other side is connected with the second metal pipe (101);

and the cooling electromagnetic valve (103), the cooling electromagnetic valve (103) is arranged at one side of the second metal pipe (101) close to the liquid supply device (11), and the cooling electromagnetic valve (103) is connected with the liquid supply device (11).

5. An intelligent temperature regulation device for a wine making and fermentation process as claimed in claim 4, wherein the liquid supply means (11) comprises:

the water pump (111), the water pump (111) is arranged between the interlayers of the mounting plate (4), and the water outlet end of the water pump (111) is connected with the cooling electromagnetic valve (103) and the heating electromagnetic valve (93);

the water tanks (112) are arranged on the frame (1), the number of the water tanks (112) is two, one side of the water tank (112) is a cold liquid interval position, the other side of the water tank (112) is a hot liquid interval position, the cold discharge electromagnetic valve (85) is connected with the water tank (112) in the cold liquid interval, and the heat discharge electromagnetic valve (86) is connected with the water tank (112) in the hot liquid interval;

the water pump comprises a diversion pipe (113), the diversion pipe (113) is arranged at the water outlet end of the water pump (111), a cold inlet electromagnetic valve (114) and a hot inlet electromagnetic valve (115) are respectively arranged on two sides of the diversion pipe (113), the cold inlet electromagnetic valve (114) is connected with a water tank (112) in a cold liquid interval, and the hot inlet electromagnetic valve (115) is connected with the water tank (112) in a hot liquid interval.

6. An intelligent temperature regulation device for a wine making fermentation process as claimed in claim 1, wherein the detection means (12) comprises:

the electric sliding rail (121), the electric sliding rail (121) is arranged between the supporting frames (5), and the moving member of the electric sliding rail (121) is provided with a lifting frame (122);

the temperature sensor (123), temperature sensor (123) are located crane (122) other side.

7. An intelligent temperature regulating device for a wine making and fermentation process as claimed in claim 6, further comprising a diffuser (13), the diffuser (13) comprising:

the diffusion ring (131) is arranged at one side of the lifting frame (122) close to the temperature sensor (123), and the diffusion ring (131) is sleeved on the periphery of the temperature sensor (123);

the driving motor (132), driving motor (132) locate on crane (122) near diffusion ring (131) one side position department, and driving motor (132) output shaft passes through between diffusion ring (131) through mechanical transmission connection.

8. An intelligent temperature regulating device for a wine making and fermentation process as claimed in claim 6, further comprising a transmission (14), wherein the transmission (14) comprises:

the toothed belts (141), the toothed belts (141) are respectively arranged on the two sides of the lifting frame (122);

the transmission gears (142), the transmission gears (142) are respectively rotatably arranged on the fixing pieces of the fixing seats (81), the toothed belts (141) are respectively matched with the adjacent transmission gears (142), and gear transmission assemblies (143) are arranged between the shaft connecting parts of the transmission gears (142) and the shaft connecting parts of the fixing seats (81).

9. The intelligent temperature regulating device for the wine making and fermentation process according to claim 8, wherein the control box (3) comprises a switching power supply, a DC-DC power supply module and a microcontroller MCU, the switching power supply supplies power for the intelligent temperature regulating device, the DC-DC power supply module is connected with a power main switch through a circuit, the microcontroller MCU is electrically connected with the DC-DC power supply module, the control box (3) is provided with a digital key, a reversal key, a refrigeration starting switch and a heating starting switch, the digital key, the reversal key, the refrigeration starting switch and the heating starting switch are electrically connected with the microcontroller MCU, the contact switch (61) and the water level probe (7) are electrically connected with the microcontroller MCU, the temperature sensor (123) is electrically connected with the microcontroller MCU, and the microcontroller MCU is connected with a 24C02 circuit, the electric sliding rail (121), the cold discharging electromagnetic valve (85), the heat discharging electromagnetic valve (86), the cold supplying electromagnetic valve (103), the heat supplying electromagnetic valve (93), the cold inlet electromagnetic valve (114), the heat inlet electromagnetic valve (115), the driving motor (132), the vortex heater (92), the semiconductor refrigerating sheet (102) and the water pump (111) are all connected with the microcontroller MCU through a peripheral circuit.

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