CN112970795A - Temperature control device of dough mixer - Google Patents

Abstract

The invention provides a temperature control device of a dough mixer; including heating coil, water pump, temperature sensor, water inlet control valve, recovery pond, water inlet control valve has first inlet opening, second inlet opening and first apopore, and first inlet opening passes through the pipeline intercommunication with the cold water source, and the second inlet opening passes through the pipeline intercommunication with the hot water source, and water inlet control valve's first apopore passes through the pipeline intercommunication with the heating coil top, heating coil end pass through the pipeline with recovery pond intercommunication, heating coil install on the face bucket lateral surface of flour-mixing machine, and the water pump is installed on the pipeline between water inlet control valve and the heating coil, and temperature sensor installs on the face bucket lateral surface of flour-mixing machine. When the temperature of the dough kneading barrel is high, the water flowing out of the cold water source takes away the redundant heat in the dough kneading barrel through the heating coil; when the temperature of the dough kneading barrel is low, the water flowing out of the hot water source passes through the heating coil, so that the constant temperature of the dough kneading barrel is kept, and the process requirements are met.

Description

Temperature control device of dough mixer

Technical Field

The invention relates to a temperature control device of a dough mixer.

Background

At present, when wheaten food is produced by wheaten food production enterprises, dough kneading is a very critical process, and the temperature has a very direct influence on the quality of the dough kneading. The temperature requirements for different seasons and facing water also vary. Generally, warm water is required in winter, and cold water is required in other seasons. But actually, the temperature rise is difficult to control when the dough kneading barrel works, so that the taste and the quality of the noodles are greatly influenced. The prior dough kneading machine lacks a device which can flexibly control the temperature of a dough barrel of the dough kneading machine.

Disclosure of Invention

The invention aims to solve the technical problem of providing a temperature control device of a dough mixer, which has a reasonable structure and can flexibly adjust the temperature of a dough barrel.

In order to solve the technical problem, the invention provides a temperature control device of a dough mixing machine;

comprises a heating coil, a water pump, a temperature sensor, a water inlet control valve and at least one recovery pool, wherein the water inlet control valve is provided with a first water inlet hole, a second water inlet hole and a first water outlet hole, when the water inlet control valve is positioned at a first working position, a passage is formed between the first water inlet hole and the first water outlet, when the water inlet control valve is positioned at the second working position, form the route between second inlet opening and the first apopore, first inlet opening passes through the pipeline intercommunication with the cold water source, and the second inlet opening passes through the pipeline intercommunication with the hot water source, and the first apopore of water control valve and heating coil top pass through the pipeline intercommunication, heating coil end pass through the pipeline with the recovery pond intercommunication, heating coil install on the face bucket lateral surface of flour-mixing machine, the water pump is installed on the pipeline between water control valve and the heating coil, and temperature sensor installs on the face bucket lateral surface of flour-mixing machine, and temperature sensor responds to the temperature of the face bucket of flour-mixing machine.

After the structure is adopted, when the temperature of the dough kneading barrel is higher than the temperature required by the process, the water flowing out of the cold water source takes away the redundant heat in the dough kneading barrel through the heating coil, so that the dough kneading barrel keeps a constant-temperature working environment; when the temperature of the dough kneading barrel is lower than the process requirement temperature, the water flowing out of the hot water source passes through the heating coil, so that the constant temperature of the dough kneading barrel is kept, and the process requirement is met.

This flour-mixing machine temperature control device's beneficial effect does: the method meets different requirements of clients, solves the problem of troubles in the production process of fine dried noodles of wheaten food production enterprises, improves the taste, quality and production efficiency of dough strips, and reduces the enterprise cost.

The hot water source of the temperature control device of the dough mixer comprises a hot water pool and a heating pipe, wherein water is stored in the hot water pool, and the heating pipe is positioned in the hot water pool; the cold water source comprises a cold water tank, and water is also stored in the cold water tank; after adopting such structure, concrete hot water source and cold water source's structure.

The dough kneading machine temperature control device also comprises a water outlet control valve, wherein the recovery pool also comprises a hot water recovery pool and a cold water recovery pool, the water outlet control valve is provided with a third water inlet hole, a second water outlet hole and a third water outlet hole, when the water outlet control valve is positioned at a first working position, a passage is formed between the third water inlet hole and the second water outlet hole, when the water outlet control valve is positioned at a second working position, a passage is formed between the third water inlet hole and the third water outlet hole, the second water outlet hole is communicated with the hot water recovery pool through a pipeline, the third water outlet hole is communicated with the cold water recovery pool through a pipeline, and the third water inlet hole of the water outlet control valve is communicated with the tail end of the heating coil through a; after adopting such structure, go out water control valve and can cooperate hot water recovery pond and cold water recovery pond to accomplish, the separation of cold and hot water is retrieved.

The hot water recovery tank of the dough kneading machine temperature control device is communicated with the hot water tank, and the cold water recovery tank is communicated with the cold water tank; by adopting the structure, the cooling water of the temperature control device of the dough mixing machine forms circulation.

The temperature control device of the dough mixer also comprises a reversing valve, wherein the reversing valve is provided with a first reversing port, a second reversing port, a third reversing port and a fourth reversing port, the first reversing port is connected with a water outlet of the water pump through a pipeline, the second reversing port is connected with a third water inlet hole of the water outlet control valve through a pipeline, the third reversing port is connected with the starting end of the heating coil through a pipeline, and the fourth reversing port is connected with the tail end of the heating coil through a pipeline;

when the reversing valve is in the first working position, the first reversing port is communicated with the third reversing port, the second reversing port is communicated with the fourth reversing port, when the reversing valve is in the second working position, the first reversing port is communicated with the fourth reversing port, and the second reversing port is communicated with the third reversing port.

The working position of the reversing valve is switched between the first working position and the second working position once every 3min of operation of a water pump of the temperature control device of the dough mixer.

After adopting such structure, can regularly change the flow direction of circulating water in the heating coil for the temperature in the heating coil is more even, then can guarantee that the temperature variation of face bucket is more linear.

Drawings

FIG. 1 is a diagram showing a state of use of an embodiment of the dough mixing machine temperature control device.

Fig. 2 is a schematic diagram of a liquid circuit of the dough mixing machine temperature control device in the embodiment.

Detailed Description

As shown in fig. 1 to 2

The temperature control device of the dough kneading machine comprises a heating coil pipe 4, a water pump 11, a temperature sensor 5, a reversing valve 7, a water inlet control valve 1, a water outlet control valve 6, a hot water recovery tank 8 and a cold water recovery tank 9.

The water inlet control valve 1 is provided with a first water inlet hole a1, a second water inlet hole B1 and a first water outlet hole C1, when the water inlet control valve 1 is in a first working position, a passage is formed between the first water inlet hole a1 and the first water outlet hole, and when the water inlet control valve 1 is in a second working position, a passage is formed between the second water inlet hole B1 and the first water outlet hole C1.

The cold water source comprises a cold water pool 2, water is stored in the cold water pool 2, the first water inlet hole A1 is communicated with the cold water source through a pipeline, the hot water source comprises a hot water pool 3a and a heating pipe 3B, water is stored in the hot water pool 3a, the heating pipe 3B is located in the hot water pool 3a, and the second water inlet hole B1 is communicated with the hot water source through a pipeline.

Heating coil 4 passes through support fixed mounting on the face bucket 10 lateral surface of flour-mixing machine, and water pump 11 installs on the pipeline between the first apopore C1 of water inlet control valve 1 and heating coil 4, and temperature sensor 5 installs on the face bucket 10 lateral surface of flour-mixing machine, and temperature sensor 5 responds to the temperature of flour-mixing machine face bucket 10.

The water outlet control valve 6 is provided with a third water inlet a6, a second water outlet B6 and a third water outlet C6, when the water outlet control valve 6 is in the first working position, a passage is formed between the third water inlet a6 and the second water outlet, when the water outlet control valve 6 is in the second working position, a passage is formed between the third water inlet a6 and the third water outlet C6, the second water outlet B6 is communicated with the hot water recovery tank 8 through a pipeline, and the third water outlet C6 is communicated with the cold water recovery tank 9 through a pipeline.

The hot water recovery tank 8 is communicated with the hot water tank 3a, and the cold water recovery tank 9 is communicated with the cold water tank 2.

The reversing valve 7 is provided with a first reversing port A7, a second reversing port B7, a third reversing port C7 and a fourth reversing port D7, the first reversing port A7 is connected with a water outlet of the water pump 11 through a pipeline, the second reversing port B7 is connected with a third water inlet hole A6 of the water outlet control valve 6 through a pipeline, the third reversing port C7 is connected with the starting end of the heating coil 4 through a pipeline, and the fourth reversing port D7 is connected with the tail end of the heating coil 4 through a pipeline;

when the reversing valve 7 is in the first working position, the first reversing port A7 is communicated with the third reversing port C7, the second reversing port B7 is communicated with the fourth reversing port D7, when the reversing valve 7 is in the second working position, the first reversing port A7 is communicated with the fourth reversing port D7, and the second reversing port B7 is communicated with the third reversing port C7.

When the dough kneading machine is used, the temperature sensor 5 senses the temperature of the dough barrel 10, the temperature sensor 5 transmits a temperature signal to an external control circuit, if the temperature sensor 5 senses that the temperature of the dough barrel 10 is too high, the water inlet control valve 1 is controlled to be at a first working position, the water outlet control valve 6 is controlled to be at a second working position, and low-temperature water in the cold water tank 2 sequentially flows into the cold water tank 2 again through the water pump 11, the heating coil 4 and the cold water recovery tank 9 to form circulation for cooling the dough barrel 10 of the dough kneading machine.

Similarly, if the temperature sensor 5 senses that the temperature of the dough barrel 10 is too low, the water inlet control valve 1 is controlled to be at the second working position, the water outlet control valve 6 is controlled to be at the first working position, water in the hot water tank 3a is heated by the heating pipe 3b to become high-temperature water, and the high-temperature water in the hot water tank 3a sequentially flows into the hot water tank 3a again through the water pump 11, the heating coil 4 and the hot water recovery tank 8 to form a cycle for heating the dough barrel 10 of the dough kneading machine.

No matter the temperature control device of the dough mixer is in a heating cycle or a cooling cycle, the water pump 11 runs every 3 minutes, and the reversing valve 7 switches the first working position or the second working position.

The above description is only one embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and improvements can be made without departing from the principle of the present invention, and these should also be considered as falling within the protection scope of the present invention.

Claims (6)

1. A dough mixer temperature control device is characterized in that:

comprises a heating coil, a water pump, a temperature sensor, a water inlet control valve and at least one recovery pool, wherein the water inlet control valve is provided with a first water inlet hole, a second water inlet hole and a first water outlet hole, when the water inlet control valve is positioned at a first working position, a passage is formed between the first water inlet hole and the first water outlet, when the water inlet control valve is positioned at the second working position, form the route between second inlet opening and the first apopore, first inlet opening passes through the pipeline intercommunication with the cold water source, and the second inlet opening passes through the pipeline intercommunication with the hot water source, and the first apopore of water control valve and heating coil top pass through the pipeline intercommunication, heating coil end pass through the pipeline with the recovery pond intercommunication, heating coil install on the face bucket lateral surface of flour-mixing machine, the water pump is installed on the pipeline between water control valve and the heating coil, and temperature sensor installs on the face bucket lateral surface of flour-mixing machine, and temperature sensor responds to the temperature of the face bucket of flour-mixing machine.

2. A temperature control apparatus for a dough mixer as claimed in claim 1, wherein:

the hot water source comprises a hot water tank and a heating pipe, water is stored in the hot water tank, and the heating pipe is positioned in the hot water tank; the cold water source comprises a cold water tank, and water is also stored in the cold water tank.

3. A temperature control apparatus for a dough mixer as claimed in claim 2, wherein:

still include out water control valve, it also includes hot water recovery pond and cold water recovery pond to retrieve the pond, it has the third hole of intaking to go out water control valve, second apopore and third apopore, it is when first work position that water control valve is in, form the route between third hole of intaking and the second play water, when being in the second work position of going out water control valve, form the route between third hole of intaking and the third apopore, the second apopore passes through the pipeline intercommunication with the hot water recovery pond, the third apopore passes through the pipeline intercommunication with the cold water recovery pond, the third hole of intaking of play water control valve and the terminal pipeline intercommunication that passes through of heating coil.

4. A temperature control apparatus for a dough mixer as claimed in claim 3, wherein:

the hot water recovery tank is communicated with the hot water tank, and the cold water recovery tank is communicated with the cold water tank.

5. A temperature control apparatus for a dough mixer as claimed in claim 3, wherein:

the water outlet control valve is characterized by further comprising a reversing valve, wherein the reversing valve is provided with a first reversing port, a second reversing port, a third reversing port and a fourth reversing port, the first reversing port is connected with a water outlet of the water pump through a pipeline, the second reversing port is connected with a third water inlet hole of the water outlet control valve through a pipeline, the third reversing port is connected with the starting end of the heating coil through a pipeline, and the fourth reversing port is connected with the tail end of the heating coil through a pipeline;

when the reversing valve is in the first working position, the first reversing port is communicated with the third reversing port, the second reversing port is communicated with the fourth reversing port, when the reversing valve is in the second working position, the first reversing port is communicated with the fourth reversing port, and the second reversing port is communicated with the third reversing port.

6. A temperature control apparatus for a dough mixer as claimed in claim 5, wherein:

and when the water pump runs for 3min, the working position of the reversing valve is switched between the first working position and the second working position.

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