CN202853307U - Vacuum heat flow low temperature dehydration drying and preservation device - Google Patents

Abstract

A vacuum heat flow low-temperature dehydration, drying and fresh-keeping device relates to a low-temperature dehydration, drying and fresh-keeping device. The upper end of one side of far infrared gas heating device passes through the gas-supply pipe with drying device and is connected, be equipped with the air heater on the gas-supply pipe, the lower extreme and the drying device of far infrared gas heating device opposite side are connected, drying device passes through the pipeline and is connected with the vacuum concentrator, the vacuum concentrator is connected with gas separator, one side of gas separator is equipped with vacuum refrigerator, the vacuum concentrator, gas separator and vacuum refrigerator's afterbody inserts underground circulation pond, intelligent control ware respectively with far infrared gas heating device, the vacuum concentrator, gas separator and vacuum refrigerator are connected. It solves the difficult point of low-temperature dehydration, drying and fresh-keeping of agricultural and sideline products, and increases the comprehensive utilization capacity of agricultural and sideline products.

Description

Vacuum heat flow low temperature dehydration drying and preservation device

Technical field:

The utility model relates to a low-temperature dehydration drying and fresh-keeping device, in particular to a vacuum heat flow low-temperature dehydration drying and fresh-keeping device.

Background technique:

The traditional dehydration and drying of various vegetables generally adopts atmospheric pressure hot air drying equipment. The disadvantages are that the equipment occupies a large area and energy consumption, low efficiency, poor working environment, high labor intensity, and great impact on vegetable quality. Ingredient lost.

There are also some vegetables that are dehydrated and dried by vacuum freeze-sublimation drying equipment. The vacuum system of this equipment is a mechanical pump. The investment and energy consumption of the entire equipment are large, the drying efficiency is low, the drying cost is high, and the loss caused by corrosion is relatively large, which reduces the cost. The added value of agricultural and sideline resources.

Utility model content:

The purpose of this utility model is to provide a vacuum heat flow low-temperature dehydration, drying and fresh-keeping device, which solves the difficulty of low-temperature dehydration, drying and fresh-keeping of agricultural and sideline products, reduces rot loss, increases the comprehensive utilization ability of agricultural and sideline products, and increases the added value of agricultural and sideline products.

In order to solve the existing problems of the background technology, the utility model adopts the following technical solutions: it includes a hot air blower 1, a far-infrared gas heating device 2, a drying device 3, a vacuum concentrator 4, a gas separator 5, a vacuum refrigerator 6, Intelligent controller 7 and circulating pool 9; The upper end of one side of far-infrared gas heating device 2 is connected with drying device 3 by air pipe 8, and air pipe 8 is provided with hot air blower 1, and the far-infrared gas heating device 2 other side The lower end is connected with the drying device 3, the drying device 3 is connected with the vacuum concentrator 4 through a pipeline, the vacuum concentrator 4 is connected with the gas separator 5, and one side of the gas separator 5 is provided with a vacuum refrigerator 6, the vacuum concentrator 4, the gas The afterbody of separator 5 and vacuum refrigerator 6 is connected to underground circulating pool 9, and intelligent controller 7 is connected with far-infrared gas heating device 2, vacuum concentrator 4, gas separator 5 and vacuum refrigerator 6 respectively.

The vacuum refrigerator 6 is connected with a water pump 10 .

The circulating pool 9 is provided with a temperature control device 11 .

The hot air blower 1 realizes the means of hot air convection heating, and can obtain the required heat inside the material.

The far-infrared gas heating device 2 can improve the electric heating efficiency.

The working principle of the utility model is that the hot gas generated in the far-infrared gas heating device 2 is flowed through the drying device 3 by using the hot air blower 1, and then flows back into the far-infrared gas heating device 2, and the hot gas flows in this closed cycle During the process, the drying device 3 can be heated to obtain the required heat of vaporization inside the material. When the temperature rises to a certain standard, the vacuum concentrator 4, the gas separator 5 and the vacuum refrigerator 6 are used to pair the drying device. 3 After the heat flow heating is stopped, the vacuum obtained by extracting the gas is used to make the material achieve the purpose of vacuum low-temperature dehydration and drying.

The utility model solves the difficulty of low-temperature dehydration, drying and preservation of agricultural and sideline products, reduces rot loss, increases the comprehensive utilization ability of agricultural and sideline products, and increases the added value of agricultural and sideline products.

Description of drawings:

Fig. 1 is the structural representation of the utility model.

Detailed ways:

With reference to Fig. 1, this concrete implementation adopts following technical scheme: it comprises hot air blower 1, far-infrared gas heating device 2, drying device 3, vacuum concentrator 4, gas separator 5, vacuum refrigerator 6, intelligent controller 7 and circulation Pool 9; the upper end on one side of the far-infrared gas heating device 2 is connected with the drying device 3 through the gas delivery pipe 8, and the gas delivery pipe 8 is provided with a hot air blower 1, and the lower end of the far-infrared gas heating device 2 other side is connected with the drying device 3, Drying device 3 is connected with vacuum concentrator 4 through pipeline, and vacuum concentrator 4 is connected with gas separator 5, and one side of gas separator 5 is provided with vacuum refrigerator 6, and vacuum concentrator 4, gas separator 5 and vacuum refrigerator The tail of 6 is connected to underground circulating pool 9, and intelligent controller 7 is connected with far-infrared gas heating device 2, vacuum concentrator 4, gas separator 5 and vacuum refrigerator 6 respectively.

The vacuum refrigerator 6 is connected with a water pump 10 .

The circulating pool 9 is provided with a temperature control device 11 .

The hot air blower 1 realizes the means of hot air convection heating, and can obtain the required heat inside the material.

The far-infrared gas heating device 2 can improve the electric heating efficiency.

The working principle of this specific implementation is to use the hot air blower 1 to flow the hot gas generated in the far-infrared gas heating device 2 through the drying device 3, and then flow back in the far-infrared gas heating device 2, and the hot gas flows in this closed cycle During the process, the drying device 3 can be heated to obtain the required heat of vaporization inside the material. When the temperature rises to a certain standard, the vacuum concentrator 4, the gas separator 5 and the vacuum refrigerator 6 are used to pair the drying device. 3 After the heat flow heating is stopped, the vacuum obtained by extracting the gas is used to make the material achieve the purpose of vacuum low-temperature dehydration and drying.

This specific implementation solves the difficulty of low-temperature dehydration, drying and preservation of agricultural by-products, reduces rot loss, increases the comprehensive utilization ability of agricultural and by-products, and increases the added value of agricultural and by-products.

Claims (3)

1. vacuum heat flow low temp. dewatering drying fresh-keeping device is characterized in that it comprises air-heater (1), far infrared gas-heating apparatus (2), drying device (3), vacuum concentrator (4), gas separator (5), vacuum freezing device (6), intelligent controller (7) and circulating water pool (9); The upper end of far infrared gas-heating apparatus (2) one sides is connected by appendix (8) with drying device (3), appendix (8) is provided with air-heater (1), the lower end of far infrared gas-heating apparatus (2) opposite side is connected with drying device (3), drying device (3) is connected with vacuum concentrator (4) by pipeline, vacuum concentrator (4) device separated from the gas (5) connects, one side of gas separator (5) is provided with vacuum freezing device (6), vacuum concentrator (4), the afterbody of gas separator (5) and vacuum freezing device (6) accesses underground circulating water pool (9), intelligent controller (7) respectively with far infrared gas-heating apparatus (2), vacuum concentrator (4), gas separator (5) is connected 6 with the vacuum freezing device) connect.

2. vacuum heat flow low temp. dewatering drying fresh-keeping device according to claim 1 is characterized in that described vacuum freezing device (6) is connected with water pump (10).

3. vacuum heat flow low temp. dewatering drying fresh-keeping device according to claim 1 is characterized in that being provided with in the described circulating water pool (9) attemperating unit (11).

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