CN218155062U - Heat exchange cooling system for ultrahigh pressure micro-jet equipment - Google Patents

Heat exchange cooling system for ultrahigh pressure micro-jet equipment Download PDF

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Publication number
CN218155062U
CN218155062U CN202222590562.9U CN202222590562U CN218155062U CN 218155062 U CN218155062 U CN 218155062U CN 202222590562 U CN202222590562 U CN 202222590562U CN 218155062 U CN218155062 U CN 218155062U
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pressure micro
ultrahigh pressure
heat exchanger
cooling
ultrahigh
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不公告发明人
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Zuihao Technology Operation Shenzhen Group Co ltd
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Zuihao Technology Operation Shenzhen Group Co ltd
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Abstract

The utility model discloses a heat exchange cooling system for an ultrahigh pressure micro-jet device, which comprises the ultrahigh pressure micro-jet device, a nanometer homogenizing device and a first heat exchanger which are connected in sequence according to the material flowing sequence; the ultrahigh pressure micro-jet equipment is used for extruding and smashing the materials into a liquid state; before the ultrahigh pressure is fed, the system also comprises a low-temperature refrigerating machine which is used for generating cooling liquid and exchanging heat for the material in advance so that the temperature of the material is reduced before the material is ready to be processed, and the heating influence caused by ultrahigh-pressure micro-jet equipment can be reduced; and is connected with a first water outlet pipe and a first circulating pipe; the cooling function of the second heat exchanger is enhanced by using the cooling liquid circularly supplied by the low-temperature refrigerating machine; the second heat exchanger is connected to one end of a feed inlet of the ultrahigh pressure micro-jet equipment and is connected with a first water outlet pipe and a first circulating pipe to form cooling liquid circulation; the temperature of the material is reduced to the maximum extent in advance, and the temperature rise of the material after the nano treatment can be effectively ensured not to be too high.

Description

Heat exchange cooling system for ultrahigh-pressure micro-jet equipment
Technical Field
The utility model relates to an superhigh pressure processing equipment technical field especially relates to a heat transfer cooling system for little fluidic equipment of superhigh pressure.
Background
The ultrahigh pressure microjet equipment is an equipment for processing material into nano-grade material, and is a processing method which can make the liquid product to be processed (hereinafter referred to as material) be pressurized by means of ultrahigh pressure microjet equipment, and then pressurized to ultrahigh pressure and then impacted, extruded or blasted so as to make the processed material undergo the process of nano-treatment. Because the continuous development of superhigh pressure technique, the operating pressure of superhigh pressure microjet equipment constantly improves, and the material produces the heat production more and can lead to the temperature to rise rapidly in the course of working, because prior art is that the heat exchanger is connected into at the equipment rear end, the material can't effectively cool down just directly flow into next process, has consequently reduced the not enough of the quality of being processed the material.
SUMMERY OF THE UTILITY MODEL
Aiming at the problems that the existing cooling system in the prior art is not reasonable enough in design and cannot carry out pre-cooling and graded cooling on materials during pretreatment; provides a technical scheme for solving the problem.
In order to achieve the above object, the present invention provides a heat exchange cooling system for an ultrahigh pressure micro-fluidic device, comprising an ultrahigh pressure micro-fluidic device, a nanometer homogenizing device and a first heat exchanger which are sequentially connected according to a material flow order; further comprising:
a cryogenic refrigerator for generating a coolant; a first water outlet pipe and a first circulating pipe are connected;
and the second heat exchanger is connected to one end of a feed inlet of the ultrahigh pressure micro-jet equipment and is connected with the first water outlet pipe and the first circulating pipe so as to form cooling liquid circulation.
Preferably, the device further comprises a cooling tank body, and the nanometer homogenizing device and the first heat exchanger are arranged in the accommodating cavity of the cooling tank body; the cooling tank body is connected with the low-temperature refrigerating machine, and cooling liquid is input into the accommodating cavity of the cooling tank body; and the cooling liquid exchanges heat with the heat exchanger and the nano homogenizing device.
Preferably, the low-temperature refrigerator is further connected with a second water outlet pipe and a second circulating pipe, and the second water outlet pipe and the second circulating pipe are connected with the cooling tank body to form cooling liquid circulation.
The utility model has the advantages that: the utility model discloses a heat exchange cooling system for an ultrahigh pressure micro-jet device, which comprises the ultrahigh pressure micro-jet device, a nanometer homogenizing device and a first heat exchanger which are connected in sequence according to the material flowing sequence; the ultrahigh pressure micro-jet equipment is used for extruding and smashing the materials into a liquid state; before the ultrahigh pressure is input, the system also comprises a low-temperature refrigerating machine which is used for generating cooling liquid and exchanging heat for the material in advance so that the temperature of the material is reduced before the material is ready to be processed, and the temperature rise influence caused by ultrahigh-pressure micro-jet equipment can be reduced; and is connected with a first water outlet pipe and a first circulating pipe; the cooling function of the second heat exchanger is enhanced by using the cooling liquid circularly supplied by the low-temperature refrigerating machine; the second heat exchanger is connected to one end of a feed inlet of the ultrahigh pressure micro-jet equipment and is connected with a first water outlet pipe and a first circulating pipe to form cooling liquid circulation; the temperature of the material is reduced to the maximum extent in advance, and the temperature rise of the material after the nano treatment can be effectively ensured not to be too high.
Drawings
Fig. 1 is a system architecture diagram of the present invention.
The main element symbols are as follows:
1. an ultra-high pressure micro-fluidic device;
2. a nano homogenizing device;
3. a first heat exchanger;
4. a cryogenic refrigerator; 41. a first water outlet pipe; 42. a first circulation pipe; 43. a second water outlet pipe; 44. a second circulation pipe;
5. a second heat exchanger;
6. and cooling the tank body.
Detailed Description
In order to more clearly describe the present invention, the present invention will be further described with reference to the accompanying drawings.
In the following description, details of the preferred examples are given to provide a more thorough understanding of the invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. It should be understood that the detailed description and specific examples, while indicating the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or groups thereof.
The utility model discloses a heat exchange cooling system for an ultrahigh pressure micro-jet device, please refer to figure 1; the device comprises an ultrahigh pressure micro-jet device 1, a nano homogenizing device 2 and a first heat exchanger 3 which are sequentially connected according to a material flowing sequence; the material is pretreated by high pressure of the ultrahigh pressure microjet equipment and impact, so that the material is firstly formed into microgranules, but in the process, the material is compressed and crushed by the ultrahigh pressure, so that the temperature of the object is quickly raised, and the original nutrient substances or the characteristics of the material are easily damaged by high temperature; and then the whole nanocrystallization and homogenization treatment by using a nanometer homogenizing device is needed; the whole equipment operation process is carried out in a state of high temperature; the nano homogenizing device is to emulsify fine particles of liquid, the whole structure is made of stainless steel, and particularly, diamond or other metals with very high hardness are used at the position of a homogenizing core, which is widely cited in the prior art and is not described in detail; the homogenizer mainly has the functions of improving the uniformity and stability of the product; the shelf life is prolonged; the reaction time is reduced, so that a large amount of catalyst or additive is saved; changing the consistency of the product to improve the taste and color of the product, etc.; the homogenizer is widely applied to the production, scientific research and technical development in the fields of food, dairy products, beverages, pharmacy, fine chemical engineering, biotechnology and the like; the cooling system further comprises:
a cryogenic refrigerator 4 for generating a coolant; a first water outlet pipe 41 and a first circulation pipe 42 are connected; the refrigerator refers to a compressor used in a compression refrigeration system, which is different from a general air compressor in terms of its use conditions and a compressed working medium. According to the difference of the structure and the working principle of the refrigerating machine, the refrigerating machine is similar to an air compressor and can be divided into a piston type, a screw type, a centrifugal type and other different forms; thereby obtaining cooling liquid which can be recycled;
and the second heat exchanger 5 is connected to one end of the feed inlet of the ultrahigh pressure micro-jet equipment 1, and is connected with a first water outlet pipe 41 and a first circulating pipe 42 to form cooling liquid circulation. The temperature of the material can be reduced to the maximum extent in advance, the material is cooled to the maximum extent before entering the ultrahigh-pressure micro-jet equipment, and the temperature is reduced after the nanocrystallization treatment in the prior art.
In this embodiment, the apparatus further comprises a cooling tank 6, and the nano homogenizing apparatus 2 and the first heat exchanger 3 are disposed in an accommodating cavity of the cooling tank 6; the cooling tank body is connected with the low-temperature refrigerating machine, and cooling liquid is input into the accommodating cavity of the cooling tank body; the cooling liquid exchanges heat with the heat exchanger and the nano homogenizing device. The material after the nano treatment can be heated, but because the nano homogenizing device and the first heat exchanger are both soaked in the cooling tank body, the material after the nano treatment can be cooled for the second time, and the cooling is rapid.
In a preferred embodiment, the cryogenic refrigerator 4 is further connected to a second outlet pipe 43 and a second circulation pipe 44, which are connected to the cooling tank to form a cooling liquid circulation. The nanometer homogenizing device and the first heat exchanger are soaked in the cooling tank body, and the cooling liquid is dynamically circulated through the second water outlet pipe and the second circulating pipe, so that the secondary cooling effect is improved.
The utility model has the advantages that:
1. the temperature of the material is reduced to the maximum extent in advance, and the situation that the temperature is not too high after the nano treatment of the material can be effectively ensured;
2. the nanometer homogenizing device and the first heat exchanger are soaked in the cooling tank body, and the cooling liquid is dynamically circulated through the second water outlet pipe and the second circulating pipe, so that the secondary cooling effect is improved.
The above disclosure is only for a few specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention.

Claims (3)

1. A heat exchange cooling system for an ultrahigh pressure micro-jet device comprises the ultrahigh pressure micro-jet device, a nanometer homogenizing device and a first heat exchanger which are sequentially connected according to a material flowing sequence; it is characterized by also comprising:
a cryogenic refrigerator for generating a coolant; a first water outlet pipe and a first circulating pipe are connected;
and the second heat exchanger is connected to one end of a feed inlet of the ultrahigh pressure micro-jet equipment, and is connected with the first water outlet pipe and the first circulating pipe so as to form cooling liquid circulation.
2. The heat exchange cooling system for the ultrahigh-pressure micro-fluidic device according to claim 1, further comprising a cooling tank body, wherein the nano-homogenizing device and the first heat exchanger are arranged in an accommodating cavity of the cooling tank body; the cooling tank body is connected with the low-temperature refrigerating machine, and cooling liquid is input into the accommodating cavity of the cooling tank body; and the cooling liquid exchanges heat with the heat exchanger and the nano homogenizing device.
3. The heat exchange cooling system for the ultrahigh-pressure micro-fluidic device according to claim 2, wherein the low-temperature refrigerator is further connected with a second water outlet pipe and a second circulating pipe, and the second water outlet pipe and the second circulating pipe are connected with the cooling tank body to form a cooling liquid circulation.
CN202222590562.9U 2022-09-29 2022-09-29 Heat exchange cooling system for ultrahigh pressure micro-jet equipment Active CN218155062U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202222590562.9U CN218155062U (en) 2022-09-29 2022-09-29 Heat exchange cooling system for ultrahigh pressure micro-jet equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202222590562.9U CN218155062U (en) 2022-09-29 2022-09-29 Heat exchange cooling system for ultrahigh pressure micro-jet equipment

Publications (1)

Publication Number Publication Date
CN218155062U true CN218155062U (en) 2022-12-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202222590562.9U Active CN218155062U (en) 2022-09-29 2022-09-29 Heat exchange cooling system for ultrahigh pressure micro-jet equipment

Country Status (1)

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CN (1) CN218155062U (en)

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Address after: 513000 603-604, Building 2, Fangding Huating, No. 3908, Nanshan Avenue, Majialong Community, Nantou Street, Nanshan District, Shenzhen, Guangdong

Patentee after: Zuihao technology operation (Shenzhen) Group Co.,Ltd.

Address before: 518000 Room 201, building A, No. 1, Qian Wan Road, Qianhai Shenzhen Hong Kong cooperation zone, Shenzhen, Guangdong (Shenzhen Qianhai business secretary Co., Ltd.)

Patentee before: Zuihao technology operation (Shenzhen) Group Co.,Ltd.