CN216011411U - A safe cooling device for collagen peptide production line - Google Patents

Abstract

The utility model provides a safe cooling device for a collagen peptide production line, which comprises a main control single chip microcomputer, a water chiller, a temperature difference power generation device, a temperature sensor, a first cavity, a second cavity and a transmission device, wherein one end of the first cavity is connected with a discharge hole of a drying tank body, the other end of the first cavity is separated from the second cavity through an electric valve, the transmission device comprises a driving motor and a roller conveyor belt, the driving motor is used for driving the roller conveyor belt to rotate and is electrically connected with the main control single chip microcomputer, the roller conveyor belt is arranged in the first cavity and the second cavity, refrigeration equipment of the water chiller is arranged in the second cavity, the temperature sensor is arranged in the first cavity and is electrically connected with the main control single chip microcomputer, and the temperature difference power generation device, the electric valve and the water chiller are respectively and electrically connected with the main control single chip microcomputer. The device can cool down collagen peptide, can also utilize the difference in temperature that the cold water machine produced to carry out thermoelectric generation, the energy saving.

Description

A safe cooling device for collagen peptide production line

Technical Field

The utility model relates to the field of collagen cold water devices, in particular to a safe cooling device for a collagen peptide production line.

Background

The cold water phase is an important process of collagen peptide, the quality of the collagen peptide is determined by high-quality cooling, the quality of the active collagen peptide is affected if the temperature of the active collagen peptide is too low in the cooling process, so that the quality of the collagen peptide in the whole production is affected if the cooling temperature is strictly controlled in the cooling process, and the quality of the collagen peptide is slightly uncomfortable.

SUMMERY OF THE UTILITY MODEL

Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a safe cooling apparatus for a collagen peptide production line.

The utility model provides a safe cooling device for collagen peptide production line, the device includes main control singlechip, cold water machine, thermoelectric generation device, temperature sensor, first cavity, second cavity and transmission device, the discharge gate of the dry tank body is connected to the one end of first cavity, and motorised valve and second cavity are spaced apart through to one end in addition, transmission device includes driving motor and gyro wheel conveyer belt, driving motor is used for driving the gyro wheel conveyer belt and rotates and be connected with main control singlechip electricity, the gyro wheel conveyer belt all sets up in first cavity and second cavity, the refrigeration plant of cold water machine sets up in the second cavity, temperature sensor sets up in first cavity and is connected with main control singlechip electricity, thermoelectric generation device, motorised valve and cold water machine are connected with main control singlechip electricity respectively.

Furthermore, thermoelectric generation device includes thermoelectric generation piece and battery, the hot junction setting of thermoelectric generation piece is in the second cavity, and the cold junction setting is in first cavity, thermoelectric generation piece, battery and main control singlechip are connected in proper order electrically.

Further, the intelligent control system comprises a solid state disk, wherein the solid state disk is electrically connected with the master control single chip microcomputer.

Further, heat preservation layers are arranged in the first cavity and the second cavity.

Furthermore, the side wall of the second cavity is provided with an electric slide rail, a rotor of the electric slide rail is provided with a grid box which is fixedly connected, and an activated carbon box is arranged in the grid box.

Further, including the fire extinguishing module, the fire extinguishing module includes recess, fire extinguishing agent jar, smoke transducer and solenoid valve, the fire extinguishing agent jar is connected with the nozzle through the solenoid valve and sets up in the recess, the recess sets up the top at the second cavity, solenoid valve and smoke transducer are connected with the main control singlechip electricity respectively.

Furthermore, the groove is used for storing water which is hot replaced by the water cooler.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model provides a safe cooling device for a collagen peptide production line, when protein peptide powder discharged from a discharge port of a drying tank body reaches a roller conveyor belt of a first cavity, a temperature sensor detects the temperature in the first cavity and sends temperature information to a main control single chip microcomputer, the main control single chip microcomputer sends a closing signal instruction to an electric valve, the electric valve is closed to isolate the first cavity from a second cavity, the influence of cold air of refrigeration equipment in the second cavity on the protein peptide powder discharged from the drying tank body is avoided, after the protein peptide powder in the first cavity is kept stand for a period of time, the electric valve is opened, the main control single chip microcomputer sends a signal instruction to a driving motor, and the driving motor drives the roller conveyor belt to rotate to convey the protein peptide powder in the first cavity into the second cavity for cooling; temperature difference generated by refrigeration equipment of the first cavity and the second cavity can be utilized for temperature difference power generation, so that energy is saved; the device can strictly control the cooling time period of the protein peptide and ensure the quality of the protein peptide.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive efforts.

Fig. 1 is a schematic view of the overall structure of a safety cooling device for a collagen peptide production line according to an embodiment of the present invention.

Fig. 2 is a schematic overall circuit diagram of a safety cooling device for a collagen peptide production line according to an embodiment of the present invention.

FIG. 3 is a schematic structural diagram of a part of a safe cooling device for a collagen peptide production line according to a second embodiment of the present invention.

Fig. 4 is a schematic overall circuit diagram of a safe cooling device for a collagen peptide production line according to a second embodiment of the present invention.

In the figure, 1 is a main control single chip microcomputer, 2 is a temperature sensor, 3 is a storage battery, 4 is an electric valve, 5 is a water cooler, 6 is a solid state disk, 7 is a driving motor, 8 is an electromagnetic valve, 9 is an electric sliding rail, 10 is a smoke sensor, 11 is a temperature difference power generation sheet, 12 is a discharge port, 13 is a first cavity, 14 is a heat preservation layer, 15 is a second cavity, 16 is refrigeration equipment, 17 is an extinguishing agent tank, 18 is a grid box, 19 is an activated carbon box, 20 is a groove, and 21 is a nozzle.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, the illustrated embodiments are provided to illustrate the utility model and not to limit the scope of the utility model.

Example one

Referring to fig. 1 and 2, the embodiment provides a safe cooling device for a collagen peptide production line, the device includes a main control single chip microcomputer 1, a water chiller 5, a thermoelectric generation device, a temperature sensor 2, a first cavity 13, a second cavity 15 and a transmission device, the main control single chip microcomputer 1 can comprehensively analyze data and send a signal instruction, the temperature sensor 2 can detect current temperature information, one end of the first cavity 13 is connected with a discharge port 12 of a drying tank body, the other end of the first cavity is separated from the second cavity 15 through an electric valve 4, the transmission device includes a driving motor 7 and a roller conveyor belt, the driving motor 7 is used for driving the roller conveyor belt to rotate and is electrically connected with the main control single chip microcomputer 1, the roller conveyor belts are both disposed in the first cavity 13 and the second cavity 15, a refrigeration device 16 of the water chiller 5 is disposed in the second cavity 15, the refrigeration equipment can be a condenser in a water chiller or other equipment with refrigeration effect; the temperature sensor 2 is arranged in the first cavity 13 and is electrically connected with the main control single chip microcomputer 1, and the temperature difference power generation device, the electric valve 4 and the water cooler 5 are respectively electrically connected with the main control single chip microcomputer 1.

The thermoelectric generation device comprises a thermoelectric generation piece 11 and a storage battery 3, the hot end of the thermoelectric generation piece 11 is arranged in the second cavity 15, the cold end of the thermoelectric generation piece is arranged in the first cavity 13, and the thermoelectric generation piece 11, the storage battery 3 and the main control single chip microcomputer 1 are sequentially and electrically connected. Preferably, the device comprises a solid state disk 6, wherein the solid state disk 6 is electrically connected with the master control single chip microcomputer 1, the solid state disk 6 can store temperature information of the temperature sensor 2 at different moments and transmit the temperature information to the master control single chip microcomputer 1, and the master control single chip microcomputer 1 obtains the optimal temperature through comparison, so that the electric valve 4 is opened to send protein peptide powder into the second cavity 15 for cooling.

Preferably, heat preservation layers 14 are arranged in the first cavity 13 and the second cavity 15, and the design of the heat preservation layers 14 can enable the protein peptide powder to be in a constant-temperature environment, so that the influence of external temperature on the quality of the protein peptide is avoided.

In the above embodiment, the water chiller 5, the roller conveyor, the temperature sensor 2, the thermoelectric generation chip 11, the solid state disk 6, the storage battery 3 and the driving motor 7 may all be of the existing models known to those skilled in the art; the main control single chip microcomputer 1 can adopt an STM32 single chip microcomputer.

The working principle of the embodiment is as follows:

when the protein peptide powder from the discharge port 12 of the drying tank body reaches the roller conveyor belt of the first cavity 13, the temperature sensor 2 detects the temperature in the first cavity 13 and sends temperature information to the main control single chip microcomputer 1, the main control single chip microcomputer 1 sends a closing signal instruction to the electric valve 4, the electric valve 4 is closed to isolate the first cavity 13 from the second cavity 15, the protein peptide powder from the drying tank body is prevented from being influenced by cold air of a refrigeration device 16 in the second cavity 15, after the protein peptide powder in the first cavity 13 is kept stand for a period of time, the electric valve 4 is opened, the main control single chip microcomputer 1 sends a signal instruction to the driving motor 7, and the driving motor 7 drives the roller conveyor belt to rotate to convey the protein peptide powder in the first cavity 13 to the second cavity 15 for cooling; the thermoelectric generation piece 11 performs thermoelectric generation by utilizing the temperature difference formed in the first cavity 13 and the second cavity 15, the generated electric energy can be stored in the storage battery 3, the storage battery 3 can provide electric energy for other equipment, and energy can be saved by the thermoelectric generation; the device can strictly control the cooling time period of the protein peptide and ensure the quality of the protein peptide.

Example two

On the basis of the foregoing embodiment, the present embodiment differs from the foregoing embodiment in that:

referring to fig. 3 and 4, the side wall of the second cavity 15 is provided with an electric slide rail 9, a rotor of the electric slide rail 9 is provided with a grid box 18 fixedly connected with the electric slide rail, an activated carbon box 19 is arranged in the grid box 18, the activated carbon box 19 is designed to absorb water vapor brought by refrigeration equipment 16, the water vapor is prevented from influencing the quality of protein peptide, when the activated carbon box 19 fails, the main control single chip microcomputer 1 sends a signal instruction to the electric slide rail 9, and the rotor of the electric slide rail 9 can move the grid box 18 to replace the activated carbon box 19.

Preferably, this embodiment includes the fire extinguishing module, the fire extinguishing module includes recess 20, fire extinguishing agent jar 17, smoke transducer 10 and solenoid valve 8, fire extinguishing agent jar 17 is connected with nozzle 21 through solenoid valve 8 and sets up in recess 20, recess 20 sets up the top at second cavity 15, solenoid valve 8 and smoke transducer 10 are connected with main control monolithic is electromechanical respectively, and smoke transducer 10 can detect the dense fog of smog in the current environment and judge whether there is the conflagration to take place, and when the conflagration breaing out, main control monolithic 1 sends signal instruction for solenoid valve 8, and solenoid valve 8 opens, and the fire extinguishing agent in fire extinguishing agent jar 17 sprays out through nozzle 21 and puts out a fire, guarantees the safety of protein peptide production line. The groove 20 is used for storing water which is hot replaced by the water cooler 5, the groove 20 can be used for storing hot water generated by the water cooler 5, the fire extinguishing agent tank 17 can also be stored in the groove 20, the water in the groove 20 can keep the stability of the fire extinguishing agent tank 17, and a user can judge whether the fire extinguishing agent tank 17 leaks or not according to whether bubbles are emitted in the water.

In the above embodiments, the electric slide rail 9, the electromagnetic valve 8 and the smoke sensor 10 may be of any available type known to those skilled in the art; the main control single chip microcomputer 1 can adopt an STM32 single chip microcomputer.

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

Claims (7)

1. A safe cooling device for a collagen peptide production line is characterized by comprising a main control single chip microcomputer, a water chiller, a temperature difference power generation device, a temperature sensor, a first cavity, a second cavity and a transmission device, wherein one end of the first cavity is connected with a discharge hole of a drying tank body, the other end is separated from the second cavity by an electric valve, the transmission device comprises a driving motor and a roller conveyor belt, the driving motor is used for driving the roller conveyor belt to rotate and is electrically connected with the main control singlechip, the roller conveyer belts are arranged in the first cavity and the second cavity, the refrigeration equipment of the water chiller is arranged in the second cavity, the temperature sensor is arranged in the first cavity and is electrically connected with the main control single chip microcomputer, and the temperature difference power generation device, the electric valve and the water cooler are respectively electrically connected with the main control single chip microcomputer.

2. The safe cooling device for the collagen peptide production line as claimed in claim 1, wherein the thermoelectric generation device comprises a thermoelectric generation piece and a storage battery, the hot end of the thermoelectric generation piece is arranged in the second cavity, the cold end of the thermoelectric generation piece is arranged in the first cavity, and the thermoelectric generation piece, the storage battery and the master control single chip microcomputer are electrically connected in sequence.

3. The safe cooling device for the collagen peptide production line as claimed in claim 1, comprising a solid state disk electrically connected to the main control single chip microcomputer.

4. The safe cooling device for a collagen peptide production line according to claim 1, wherein an insulating layer is disposed in each of the first and second cavities.

5. The safe cooling device for a collagen peptide production line as claimed in claim 1, wherein the side wall of the second cavity is provided with an electric slide rail, the rotor of the electric slide rail is provided with a grid box fixedly connected, and the grid box is provided with an activated carbon box.

6. The safe cooling device for the collagen peptide production line according to claim 1, comprising a fire extinguishing module, wherein the fire extinguishing module comprises a groove, a fire extinguishing agent tank, a smoke sensor and a solenoid valve, the fire extinguishing agent tank is connected with the nozzle through the solenoid valve and is arranged in the groove, the groove is arranged above the second cavity, and the solenoid valve and the smoke sensor are respectively and electrically connected with the main control single chip microcomputer.

7. The safe cooling device for a collagen peptide production line according to claim 6, wherein said groove is used for storing water hot-displaced by a water chiller.

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