CN113481074B - Intelligent temperature adjusting device for grape wine brewing and fermenting process - Google Patents

Abstract

The invention relates to brewing equipment, in particular to intelligent temperature adjusting equipment for a wine brewing and fermenting process. The technical problems of the invention are that: provides the intelligent temperature regulating equipment for the wine brewing and fermenting process, which can rapidly control the temperature in the brewing container, has quick response speed of controlling the temperature and has consistent temperature of the brewing containers at different positions. The technical implementation scheme of the invention is as follows: the intelligent temperature regulating device for the fermentation process of the 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, a mounting plate is arranged on one side of the vertical frame, and the mounting plate is of a structure with two interlayer. By adopting the mode of stretching the detection device into the fermentation tank for temperature detection, the detection can be performed without manual hand stretching in the process of detection, and the impurity falling of the manual hand is prevented from influencing the quality of wine production in the fermentation tank.

Description

Intelligent temperature adjusting device for grape wine brewing and fermenting process

Technical Field

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

Background

When making wine, need place the grape in making the container, place in the cool factory building again, and the grape has certain temperature rising process at the in-process of making fermentation, make the temperature in the brewing container rise, if the temperature is higher than normal value, then the grape taste of making out is not up to standard, if the temperature is low in the factory building, also will make the temperature in the brewing container low, if the temperature is lower than normal value, then fermentation speed slows down, finally also lead to the grape taste of making out not up to standard, and at present when carrying out temperature control to the brewing factory building, many are all to adopt whole factory building temperature control, but adopt such mode to be difficult to the pertinence to make the brewing container temperature of brewing container in different positions inconsistent, lead to finally making out the grape taste inconsistent, and the cost is huge.

Therefore, an intelligent temperature adjusting device for a wine brewing 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 speed of controlling the temperature is slow and the temperature of the brewing container at different positions is inconsistent when the wine is brewed and fermented at present, the invention solves the technical problems that: provides the intelligent temperature regulating equipment for the wine brewing and fermenting process, which can rapidly control the temperature in the brewing container, has quick response speed of controlling the temperature and has consistent temperature of the brewing containers at different positions.

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

Optionally, the enclosing device comprises fixing seats, the fixing seats are respectively arranged at the positions of the mounting plate near one side of the supporting frame, the fixing seats are respectively provided with enclosing frames in a rotating mode, and sealing elements are respectively arranged at the positions of the enclosing frames far from one side of the mounting plate; the water inlet pipes are respectively arranged on the surrounding frames, one side of the water inlet pipe is connected with the refrigerating device, and the other side of the water inlet pipe 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; the heat removal electromagnetic valve is arranged on the surrounding frame and is positioned at one side of the water inlet pipe connected with the heating device.

Optionally, the heating device comprises a first metal pipe, the first metal pipe is arranged in a lateral interlayer of the mounting plate, the eddy current heater is also arranged at the position, the eddy current heater is sleeved on the first metal pipe, and a lateral water inlet pipe is connected with the first metal pipe; the heat supply electromagnetic valve is arranged at one side position of the first metal pipe close to the liquid supply device and is connected with the liquid supply device.

Optionally, the refrigerating device comprises a second metal pipe, the second metal pipe is arranged in the other side interlayer of the mounting plate, a semiconductor refrigerating sheet is further arranged at the position, the semiconductor refrigerating sheet is in contact with the periphery of the second metal pipe, and the other side water inlet pipe is connected with the second metal pipe; the cold supply 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 cold supply electromagnetic valve and the heat supply electromagnetic valve; the heat removal electromagnetic valve is connected with the water tank in the cold liquid zone, and the heat removal electromagnetic valve is connected with the water tank in the hot liquid zone; the split pipe is arranged at the water outlet end of the water pump, the two sides of the split pipe are respectively provided with a cold inlet electromagnetic valve and a hot inlet electromagnetic valve, 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 detecting device comprises an electric sliding rail, the electric sliding rail is arranged between the supporting frames, and the lifting frame is arranged on the electric sliding rail moving part; and the temperature sensor is arranged on the other side of the lifting frame.

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

Optionally, the lifting device also comprises a transmission device, wherein the transmission device comprises toothed belts which are respectively arranged at two sides of the lifting frame; the transmission gears are respectively arranged on the fixing pieces of the fixing base in a rotary mode, the toothed belts are respectively matched with the adjacent transmission gears, and gear transmission assemblies are arranged between shaft connection positions of the transmission gears and shaft connection positions of the fixing base.

Optionally, the control box includes switching power supply, DC-DC power module and microcontroller MCU, switching power supply supplies power for temperature intelligent regulation equipment, be connected with the power master switch through the circuit on the DC-DC power module, through electric connection between microcontroller MCU and the DC-DC power module, be equipped with the numeral button on the control box, the button of reversing, refrigeration start switch and heat start switch, the numeral button, the button of reversing, refrigeration start switch and heat start switch all pass through electric connection with microcontroller MCU, contact switch and water level probe all pass through electric connection with microcontroller MCU, pass through electric connection between temperature sensor and the microcontroller MCU, be connected with 24C02 circuit on the microcontroller MCU, electric slide rail, cold solenoid valve, heat extraction solenoid valve, cold solenoid valve, heat supply solenoid valve, cold solenoid valve, the hot solenoid valve of intaking, driving motor, vortex heater, semiconductor refrigeration piece and water pump all pass through peripheral circuit connection with microcontroller MCU.

The beneficial effects are that: 1. according to the invention, by adopting the mode that the detection device stretches into the fermentation tank to detect the temperature, manual hand stretching is not needed in the detection process, the phenomenon that impurities of manual hands fall into the fermentation tank to influence the quality of wine production is avoided, and the temperature intelligent adjusting equipment is moved by the frame, so that the temperature intelligent adjusting equipment can be quickly positioned around the fermentation tank with the required temperature control, the maneuverability is improved, and the time and labor waste caused by the fact that a plurality of tools are needed to be held in the traditional manner are avoided.

2. According to the invention, the mode of surrounding the periphery of the fermentation tank by the surrounding frame and the mode of filling the temperature control liquid into the surrounding part of the fermentation tank are adopted, so that the temperature control speed of the fermentation tank can be increased, the fermentation quality of the fermentation tank can be improved, the efficiency is high, and excessive manual operation is not needed.

3. According to the invention, by adopting the mode that the liquid supply device is provided with the two water tanks, the fermentation tank with the excessively high temperature or the excessively low temperature can be controlled in a targeted manner, the last residual temperature can be effectively utilized, the running loads of the heat supply device and the refrigerating device are reduced, and meanwhile, the temperature at the surrounding frame can be rapidly increased or reduced.

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 schematic perspective view of a third embodiment of the present invention.

Fig. 4 is a schematic perspective view of a fourth embodiment of the present invention.

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

Fig. 6 is a schematic view of a first partial perspective view of the enclosure of the present invention.

Fig. 7 is a schematic view of a second partial perspective view of the enclosure of the present invention.

Fig. 8 is a schematic view of a part of a perspective structure of a mounting plate according to the present invention.

Fig. 9 is a schematic view of a part of a heat supply apparatus according to the present invention.

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

FIG. 11 is a schematic view showing a partial perspective structure 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 view showing a partial perspective structure of the detecting device of the present invention.

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

Fig. 15 is a schematic partial perspective view of a diffusing device according to the present invention.

Fig. 16 is a partial perspective view of a 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 numerals: 1_frame, 2_stand, 3_control box, 4_mounting plate, 5_support frame, 6_arc frame, 61_contact switch, 7_water level probe, 8_enclosure, 9_heating, 10_cooling, 11_liquid supply, 12_detection, 81_fixed seat, 82_enclosure, 83_seal, 84_water inlet pipe, 85_cool discharge solenoid, 86_heat discharge solenoid, 91_first metal tube, 92_vortex heater, 93_heating solenoid, 101_second metal tube, 102_semiconductor refrigeration sheet, 103_cool supply solenoid, 111_water pump, 112_water tank, 113_shunt, 114_cool inlet solenoid, 115_cool inlet solenoid, 121_electric slide rail, 122_lift, 123_temperature sensor, 13_diffusion, 131_diffusion ring, 132_drive motor, 14_transmission, 141_toothed belt, 142_drive gear, 143_gear drive assembly.

Detailed Description

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

Example 1

The intelligent temperature regulating equipment for the fermentation process of the wine brewing is shown in fig. 1-5, and comprises a frame 1, a vertical frame 2, a control box 3, a mounting plate 4, a supporting frame 5, an arc-shaped frame 6, a contact switch 61, a water level probe 7, a surrounding device 8, a heating device 9, a refrigerating device 10, a liquid supply device 11 and a detecting device 12, wherein the intelligent temperature regulating equipment comprises the following components:

the front side of the upper side of the frame 1 is provided with a vertical frame 2, the lower side wall of the frame 1 is provided with a control box 3, the rear side of the vertical frame 2 is provided with a mounting plate 4, the mounting plate 4 is of a structure with two interlayers, the rear side of the frame 1 is provided with a supporting frame 5, the middle part of the rear side of the supporting frame 5 is provided with an arc-shaped frame 6, the middle part of the rear side of the arc-shaped frame 6 is provided with a contact switch 61, one side of the arc-shaped frame 6 is provided with a water level probe 7, the rear side of the mounting plate 4 is provided with a surrounding device 8, the surrounding device 8 is used for surrounding a fermentation tank, the interlayer structure on the right side of the front side of the mounting plate 4 is provided with a heat supply device 9, the heat supply device 9 is connected with the surrounding device 8, the heat supply device 9 is used for supplying a heat source to be input into the surrounding device 8, the fermentation tank is heated, the interlayer structure on the left side of the front side of the mounting plate 4 is provided with a refrigerating device 10, the refrigerating device 10 is connected with the surrounding device 8, the refrigerating device 10 is used for refrigerating to the surrounding device 8, the inside of the surrounding device 8 is cooled down, the fermentation tank is made to be cooled, 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 with large heat and cold and heat capacity is respectively, the temperature ranges are respectively, the liquid is detected on the side of the temperature ranges, and 12 is detected by the supporting frame 5.

When the temperature of the wine brewing fermentation device is required to be rapidly detected and controlled in the process of brewing the wine, the temperature intelligent adjusting device can be moved through the frame 1, the power supply main switch is started to enable the temperature intelligent adjusting device to be electrified, the temperature of the detecting device 12 is set through the digital key in the control box 3, the temperature intelligent adjusting device is pushed to enable the surrounding device 8 to be positioned on one side of one 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 wine in the fermentation tank and displays the temperature through the LCD display screen in the control box 3, whether the fermentation tank is subjected to temperature control or not can be judged according to the numerical value of the detected internal temperature of the temperature, and if the temperature intelligent adjusting device is not required to be pushed through the frame 1; if the internal temperature of 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 at the moment, the working state of the temperature intelligent adjusting device can be controlled by the micro controller MCU; if the internal temperature of the fermentation tank is higher than the normal temperature, the intelligent temperature regulating equipment is controlled to work through the refrigeration starting switch of the control box 3, the microcontroller MCU starts the liquid supply device 11 and the refrigeration device 10, so that the liquid supply device 11 absorbs the liquid in the cold area to the part of the refrigeration device 10, the refrigeration device 10 refrigerates the liquid and inputs the liquid into the surrounding device 8, the liquid fills the surrounding device 8 and the position of the periphery of the fermentation tank, the refrigerated liquid cools the periphery of the fermentation tank, the internal temperature of the fermentation tank is cooled, the detection device 12 detects the internal temperature of the fermentation tank in real time, and the water level probe 7 detects the water level in the surrounding frame 82; if the water level probe 7 detects that the liquid in the surrounding device 8 reaches the full grid, and when 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 start through the micro controller MCU, so that the refrigerated liquid in the surrounding device 8 is discharged to the position of the liquid part in the cold section of the liquid supply device 11, the power of the liquid supply device 11 is controlled, and the liquid supply device 11 and the refrigeration device 10 are still in working states at the moment, so that 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, at the moment, the detection device 12 can be controlled to move upwards to reset and withdraw from the fermentation tank through a reversing key of the control box 3, meanwhile, the micro-controller MCU also controls the surrounding device 8 to drain liquid, so that the refrigerated liquid in the surrounding device 8 is discharged to the liquid part position of the cold section 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 states of the fermentation tank, and at the moment, the temperature intelligent regulation 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 intelligent temperature adjusting device is controlled to work through the heating starting switch of the control box 3, the microcontroller MCU starts the liquid supply device 11 and the heat supply device 9, so that the liquid supply device 11 sucks the liquid in the hot area to the heat supply device 9, the refrigeration 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 flows are consistent.

Example 2

As shown in fig. 6-16, the enclosing device 8 comprises a fixing seat 81, an enclosing frame 82, a sealing element 83, a water inlet pipe 84, a cold discharging electromagnetic valve 85 and a heat discharging electromagnetic valve 86, and specifically comprises:

the mounting panel 4 rear side both sides all are equipped with fixing base 81, all rotate on the fixing base 81 and be connected with and encircle frame 82, it all is equipped with sealing member 83 to encircle frame 82 rear side lower part, it all is equipped with intake pipe 84 to encircle frame 82 upside, left side intake pipe 84 is connected with refrigerating plant 10, right side intake pipe 84 is connected with heating device 9, left side is encircled frame 82 below and is equipped with cold solenoid valve 85, cold solenoid valve 85 of arranging is connected with the cold district of liquid supply device 11, right side is encircled frame 82 below and is equipped with heat extraction solenoid valve 86, heat extraction solenoid valve 86 is connected with the hot district of liquid supply device 11.

In the above embodiment, when the operation is performed, the surrounding frame 82 may be rotated to enable the surrounding frame 82 to surround the periphery of the fermentation tank, the sealing member 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 reaches the full condition and the temperature in the fermentation tank is still too high at this time, or when the temperature in the fermentation tank reaches the set value, the micro controller MCU will control the cold discharging electromagnetic valve 85 to be started, so that the cooled liquid in the surrounding frame 82 is discharged to the liquid part position of the cold section of the liquid supplying device 11; conversely, when the fermenter is being warmed, the microcontroller MCU will control the heat rejection solenoid valve 86 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 is specifically:

the right side interlayer of mounting panel 4 is equipped with first tubular metal resonator 91 in, and right side water inlet pipe 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 at 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 feed liquor device 11.

When the above embodiment is operated, after the intelligent temperature adjusting device is started by the heating start switch, the vortex heater 92 will start to work, the vortex heater 92 will heat the first metal tube 91, the heating electromagnetic valve 93 will be opened, at this time, the liquid supplying device 11 will supply liquid into the first metal tube 91 by the heating electromagnetic valve 93, so that the liquid flowing through the first metal tube 91 will be heated, and then the liquid is input from the right water inlet pipe 84 to the position between the surrounding frames 82, so that the surrounding frames 82 are filled with hot liquid to heat the fermentation tank.

The refrigeration device 10 comprises a second metal tube 101, a semiconductor refrigeration piece 102 and a refrigeration electromagnetic valve 103, specifically:

a second metal pipe 101 is arranged in the 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 refrigerating sheet 102 is arranged in the left interlayer of the mounting plate 4, the semiconductor refrigerating sheet 102 is in contact with the periphery of 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 above embodiment is operated, after the intelligent temperature adjusting device is started by the refrigeration starting switch, the semiconductor refrigeration piece 102 will start to work, the semiconductor refrigeration piece 102 will heat the second metal tube 101, the cold supply electromagnetic valve 103 will be opened, at this time, the liquid supply device 11 will supply liquid to the second metal tube 101 through the cold supply electromagnetic valve 103, so that the liquid flowing through the second metal tube 101 will be cooled, and then the liquid is input from the left water inlet pipe 84 to the position between the surrounding frames 82, so that the surrounding frames 82 are filled with cold 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:

a water pump 111 is arranged between two interlayers of the mounting plate 4, two water tanks 112 are arranged on the frame 1, the left water tank 112 is a cold liquid interval position, the right water tank 112 is a hot liquid interval position, the water outlet end of the water pump 111 is connected with the cold supply electromagnetic valve 103 and the heat supply electromagnetic valve 93, the water inlet end of the water pump 111 is provided with a shunt tube 113, the left side of the shunt tube 113 is provided with a cold inlet electromagnetic valve 114, the right side of the shunt tube 113 is provided with a hot air inlet electromagnetic valve 115, the cold inlet electromagnetic valve 114 is connected with the left water tank 112, the hot air inlet electromagnetic valve 115 is connected with the right water tank 112, the cold exhaust electromagnetic valve 85 is connected with the left water tank 112, and the heat exhaust electromagnetic valve 86 is connected with the right water tank 112.

When the above embodiment is operated, after the intelligent temperature adjusting device is started by the refrigeration starting switch in the control box 3, the water pump 111 and the cold inlet electromagnetic valve 114 are started, so that the water pump 111 sucks liquid from the left water tank 112 through the cold inlet electromagnetic valve 114, and inputs the liquid to the cold supply electromagnetic valve 103 through the shunt pipe 113 and the water pump 111, and then the liquid is cooled through the semiconductor refrigeration piece 102, and the liquid from the cold discharge electromagnetic valve 85 flows back into the left water tank 112; when the intelligent temperature regulating 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 to 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 comprises an electric slide rail 121, a lifting frame 122 and a temperature sensor 123, and specifically:

an electric sliding rail 121 is arranged between the supporting frames 5, a lifting frame 122 is arranged on a moving part of the electric sliding rail 121, and a temperature sensor 123 is arranged behind the upper side of the lifting frame 122.

When the embodiment is operated, the temperature sensor 123 can be set to a normal temperature value through the digital keys in the control box 3, when the contact switch 61 is triggered, the electric slide rail 121 is controlled by the micro controller MCU to be started by the contact switch 61, 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 in a normal value interval, the electric sliding rail 121 can be controlled to move upwards to reset through the reversing key of the control box 3, and if the rest part in the temperature intelligent adjusting device is in a working state, the temperature sensor 123 also enters a reset program through the microcontroller MCU.

The diffusion device 13 is further included, and the diffusion device 13 includes a diffusion ring 131 and a driving motor 132, specifically:

the upper rear of the lifting frame 122 is rotationally 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 at 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.

When the above embodiment is operated, when the contact switch 61 is triggered, the lifting frame 122 moves downwards, the lifting frame 122 drives the diffusion ring 131 to move downwards, so that the diffusion ring 131 stretches into the fermenter, at this time, the driving motor 132 is started, the driving motor 132 drives the diffusion ring 131 to rotate, so that the diffusion ring 131 mixes materials in the fermenter, and thus when the temperature control is performed on the fermenter, the molecular diffusion in the fermenter can be accelerated, the temperature is uniform, and the temperature interval detected by the temperature sensor 123 is more accurate.

The transmission device 14 is further included, and the transmission device 14 comprises a toothed belt 141, a transmission gear 142 and a gear transmission component 143, specifically:

the gear belts 141 are arranged on two sides of the middle of the lifting frame 122, the fixing pieces of the fixing seat 81 are respectively connected with a transmission gear 142 in a rotating mode, the transmission gears 142 are matched with the adjacent gear belts 141 respectively, a gear transmission component 143 is arranged between the shaft connection position of the transmission gears 142 and the shaft connection position of the fixing seat 81, and the gear transmission component 143 is in bevel gear transmission.

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

Example 3

17-18, control box 3 includes switching power supply, DC-DC power module and microcontroller MCU, switching power supply is for temperature intelligent regulation equipment power supply, be connected with the power master switch through the circuit on the DC-DC power module, be equipped with digital button on the control box 3 between microcontroller MCU and the DC-DC power module through electric connection, reverse button, refrigeration start switch and heat start switch, digital button, reverse button, refrigeration start switch and heat start switch all pass through electric connection with microcontroller MCU, contact switch 61 and water level probe 7 all pass through electric connection with microcontroller MCU, pass through electric connection between temperature sensor 123 and the microcontroller MCU, be connected with 24C02 circuit on the microcontroller MCU, electric slide rail 121, cold exhaust solenoid valve 85, heat extraction solenoid valve 86, cold supply solenoid valve 103, heat supply solenoid valve 93, cold inlet solenoid valve 114, cold inlet solenoid valve 115, driving motor 132, vortex heater 92, semiconductor refrigeration piece 102 and water pump 111 all pass through peripheral circuit connection with microcontroller MCU.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (7)

1. An intelligent temperature regulating device for a wine brewing and fermenting process is characterized by comprising:

the vehicle comprises a vehicle frame (1), wherein a vertical frame (2) is arranged on one side of the vehicle frame (1), a control box (3) is arranged between the vehicle frames (1), a mounting plate (4) is arranged on one side of the vertical frame (2), the mounting plate (4) is of a structure with two interlayer, and a supporting frame (5) is arranged at the position, close to one side of the mounting plate (4), of the vehicle frame (1) and at the position, far from one side of the vertical frame (2); the arc-shaped frame (6) is arranged at the position of one side of the support frame (5) away from the mounting plate (4), a contact switch (61) is arranged at the position of one side of the arc-shaped frame (6) 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) is arranged at one side of the mounting plate (4) close to the supporting frame (5), and the surrounding device (8) is used for surrounding the fermentation tank;

the heat supply device (9) is arranged at a interlayer structure on the mounting plate (4), the heat supply device (9) is connected with the surrounding device (8), and the heat supply 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 to the inside of the surrounding device (8) so as to cool the fermentation tank;

the liquid supply device (11), 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 in two temperature intervals of cold and hot with larger specific heat capacity, and the liquid supply device (11) is respectively connected with the refrigerating device (10) and the heating device (9);

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

the surrounding device (8) comprises

The fixing seats (81), the fixing seats (81) are respectively arranged at the positions of the mounting plate (4) near one side of the supporting frame (5), surrounding frames (82) are respectively arranged on the fixing seats (81) in a rotating mode, and sealing elements (83) are respectively arranged at the positions of the surrounding frames (82) far away from one side of the mounting plate (4);

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

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

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

the detection device (12) comprises:

the electric sliding rail (121), the electric sliding rail (121) locates between support frames (5), there are lifting frames (122) on the moving part of the electric sliding rail (121);

and the temperature sensor (123) is arranged on the other side of the lifting frame (122).

2. An intelligent temperature regulation device for a process of fermenting wine according to claim 1, wherein the heating means (9) comprises:

the first metal pipe (91), the first metal pipe (91) is arranged in a lateral interlayer of the mounting plate (4), the eddy current heater (92) is also arranged at the position, the eddy current 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 heating electromagnetic valve (93), heating electromagnetic valve (93) locate first tubular metal resonator (91) near liquid feeding device (11) one side position department, and heating electromagnetic valve (93) are connected with liquid feeding device (11).

3. An intelligent temperature regulation device for a process of fermenting wine according to claim 2, wherein the refrigerating means (10) comprises:

the second metal tube (101), the second metal tube (101) locates in another side of the mounting plate (4) and separates in the layer, and the position also has semiconductor refrigerating piece (102), the semiconductor refrigerating piece (102) contacts with second metal tube (101) periphery, another side water inlet tube (84) is connected with second metal tube (101);

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

4. A device for intelligent regulation of the temperature of a process for the fermentation of wine according to claim 3, characterized in that the liquid supply means (11) comprise:

the water pump (111), the water pump (111) is set up between the interlayer of the mounting panel (4), the water outlet end of the water pump (111) is connected with cold supply electromagnetic valve (103) and heat supply electromagnetic valve (93);

the water tanks (112) are arranged on the frame (1), the number of the water tanks (112) is two, one water tank (112) is a cold liquid interval position, the other 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 cold water inlet electromagnetic valve (114) and the hot water inlet electromagnetic valve (115) are respectively arranged at two sides of the shunt tube (113), the cold water inlet electromagnetic valve (114) is connected with the water tank (112) in the cold liquid section, and the hot water inlet electromagnetic valve (115) is connected with the water tank (112) in the hot liquid section.

5. An intelligent temperature regulating device for a process of fermenting wine according to claim 4, further comprising a diffusion means (13), wherein the diffusion means (13) comprises:

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 and connects.

6. An intelligent temperature regulating device for a process of fermenting wine according to claim 5, further comprising a transmission device (14), wherein the transmission device (14) comprises:

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

the transmission gears (142) are respectively arranged on the fixing pieces of the fixing base (81) in a rotating mode, the toothed belts (141) are respectively matched with the adjacent transmission gears (142), and gear transmission assemblies (143) are respectively arranged between shaft connection positions of the transmission gears (142) and shaft connection positions of the fixing base (81).

7. The intelligent temperature regulating device for the wine brewing fermentation process according to claim 6, wherein the control box (3) comprises a switch power supply, a DC-DC power supply module and a microcontroller MCU, the switch power supply supplies power to the intelligent temperature regulating device, the DC-DC power supply module is connected with a power supply 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, the contact switch (61) and the water level probe (7) are electrically connected with the microcontroller MCU, a 24C02 circuit is connected between the temperature sensor (123) and the microcontroller MCU, and the electric slide rail (121), the cold discharge electromagnetic valve (85), the electromagnetic valve (86), the cold supply electromagnetic valve (103), the heat supply 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 chip (102) and the water pump (111) are electrically connected with the microcontroller MCU.