CN212747383U - Cooling device is mixed to chemical bath gas air conditioning - Google Patents

Abstract

The utility model relates to a chemical bath gas-cooled air mixed cooling device, which comprises a chemical bath unit, wherein the chemical bath unit is arranged on a chemical bath and is matched with the chemical bath; the water-cooling collecting unit is arranged on the chemical tank unit and directly condenses and collects water vapor; wherein the water-cooling collecting unit includes condensation cavity and cooling water cavity, the cooling water cavity sets up in the condensation cavity, the water-cooling collecting unit is the lamellar structure, and the slope of water-cooling collecting unit sets up on the unit of forming the groove. The utility model discloses a direct condensation of low temperature water has abandoned the method that the mode of tradition adoption electricity was collected, designs special contact surface structure and collects vapor, need not the power consumption, has guaranteed the security of equipment use, can make the effectual and collection face contact of vapor air current, reaches the effect of effectively collecting vapor.

Description

Cooling device is mixed to chemical bath gas air conditioning

Technical Field

The utility model relates to a water-cooling vapor collecting equipment's technical field, especially a change the technical field of grooving gas air conditioning and mix heat sink.

Background

The reuse and recovery of water resources has become one of the most efficient methods for saving water. The effect of this application is exactly to be used for the industry to become groove produced vapor and retrieve in the production process, reaches the purpose of using water wisely.

At present, few devices for effectively recovering water vapor in a chemical tank are available, and a theoretical collecting device utilizes corona generated by positive and negative electrodes to enable water vapor molecular groups to carry negative charges, so that the water vapor molecular groups are attracted by a positive electrode plate to generate water vapor to be collected. In addition, the invention patent of application No. 01138229.5 discloses a device for reducing water consumption of evaporated water, which collects water vapor by charging the water vapor by providing electrodes in a passage through which the water vapor flows and connecting the electrodes to a high voltage power supply. However, since the device is disposed in the cooling tower, the device needs to be designed according to the structural characteristics of the cooling tower and needs to be modified accordingly, and therefore the device has no universality. In addition, the device has low water vapor recovery efficiency.

The existing methods all adopt the magnetic field effect generated by electricity, and insulation treatment is needed in the manufacture of equipment, so that the cost is increased; secondly, the device itself is used in a humid environment, and the use of electricity is not safe; third, in the case of too fast a vapor flow rate, the strength of the electric field or the effective length of the electric field of the device needs to be increased to achieve the desired effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem among the prior art, provide a change grooving gas air conditioning and mix heat sink, adopt low temperature water direct condensation, abandoned the method that the mode of tradition adoption electricity was collected, design special contact surface structure and collect vapor, need not the power consumption, guaranteed the security of equipment usage, can make the effectual and collection face contact of vapor air current, reach the effect of effectively collecting vapor.

The utility model discloses an overcome the problem that prior art exists, provide following technical scheme:

a cooling device for cooling air mixed with chemical tank gas comprises:

the formation tank unit is arranged on the formation tank and matched with the formation tank;

the water-cooling collecting unit is arranged on the chemical tank unit and directly condenses and collects water vapor;

wherein the water-cooling collecting unit includes condensation cavity and cooling water cavity, the cooling water cavity sets up in the condensation cavity, the water-cooling collecting unit is the lamellar structure, and the slope of water-cooling collecting unit sets up on the unit of forming the groove.

In the utility model discloses in the mixed heat sink of melting groove gas cold air, optionally, melting groove is equipped with the tank liquor, melting groove unit includes the air-supply line, goes out the tuber pipe, the air-supply line with go out the tuber pipe and connect, the air-supply line stretches into to melt inslot portion, goes out the tuber pipe and stretches into in the tank liquor.

In the utility model discloses in the mixed heat sink of chemical tank gas cooling air, optionally, the chemical tank unit is still including chemical tank lid, chemical tank lid installs at chemical tank opening part and will become the tank opening sealed, and chemical tank lid still is equipped with the lid opening, and the water-cooling collection unit is connected to the lid opening.

In the chemical bath gas-cold air mixing cooling device disclosed in the application, optionally, the condensation cavity and the cooling water cavity of the water-cooling collecting unit are 60 degrees with the inclination angle of the vertical direction

In the formation tank air-cooling air mixed cooling device disclosed in the application, optionally, the surface of the cooling water cavity is a snakelike finned tube, the snakelike finned tube is provided with a plurality of arc-shaped contact surfaces, and the cooling water cavity is provided with guide grooves arranged at intervals in parallel.

In the chemical bath gas-cold air mixed cooling device disclosed in the application, optionally, cooling water cavity bottom is equipped with the cooling water inlet, and cooling water cavity upper portion is equipped with the cooling water export, and cooling water inlet and cooling water export set up the diagonal end at the cooling water cavity.

In the chemical bath gas-cold air mixed cooling device disclosed in the application, optionally, air deflectors are arranged in the condensation cavity in a left-right crossing manner, and are arranged between the upper part of the cooling water cavity and the inner wall of the condensation cavity, and between the lower part of the cooling water cavity and the inner wall of the condensation cavity.

In the formation tank gas-cold air mixed cooling device disclosed in the application, optionally, the bottom of the condensation cavity is a steam inlet, and the upper part of the condensation cavity is provided with a tail gas exhaust port.

In the chemical bath gas-cold air mixed cooling device disclosed in the application, optionally, a support frame is further installed on the chemical bath, and the support frame is connected with the outside of the chemical bath and the condensation cavity and used for supporting the condensation cavity.

The utility model has the advantages that:

1. the utility model collects the vapor through the condensation cavity, the snakelike finned tube and the air deflector structure can make the vapor airflow effectively contact with the collection surface of the cooling water cavity, and the condensation effect is good; simple structure, simple to operate, no power consumption, the direct recycle of cooling water has realized the purpose of water conservation.

2. The utility model abandons the traditional electricity collection method, needs no electricity and has no unsafe factors of electricity consumption; the manufacturing is simple and convenient, and has no high requirement and high standard on technology and material.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of the overall structure of a cooling device for cooling air mixed with chemical bath air;

FIG. 2 is a schematic diagram of the overall structure of a water-cooling collecting unit of the cooling device for the chemical bath gas;

FIG. 3 is a top view of a water-cooled collection unit of a cooling device for cooling air mixed with bath gas;

FIG. 4 is a top view of a cooling water chamber of a chemical bath air-cooling mixed cooling device;

FIG. 5 is a sectional view A-A of the cooling water cavity of the cooling device for the chemical bath air cooling air mixing cooling device.

In the drawings

1-a chemical bath unit; 11-forming a groove; 111-bath solution; 12-an air inlet pipe; 13-air outlet pipe; 14-forming a tank cover body; 141-opening of the lid; 15-a support frame; 2-a water-cooled collection unit; 21-a condensation chamber; 22-vapor inlet; 23-cooling water cavity; 231-cooling water inlet; 232-cooling water outlet; 233-serpentine finned tube; 234-diversion trench; 235-arc contact surface; 24-a wind deflector; 25-tail gas exhaust port.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the description of the embodiments of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically defined otherwise.

The following disclosure provides many different embodiments or examples for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention. Moreover, the embodiments of the present application may repeat reference numerals or letters in the various examples, which are repeated for purposes of simplicity and clarity and do not in themselves dictate a relationship between the various embodiments and/or arrangements discussed.

Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, fig. 2 and fig. 3, the utility model discloses a cooling device is mixed to chemical bath gas air conditioning, include:

the device comprises a chemical tank unit 1, a chemical tank unit 11 and a control unit, wherein the chemical tank unit 1 is arranged on the chemical tank 11 and matched with the chemical tank 11;

the water-cooling collecting unit 2 is arranged on the chemical tank unit 1, and is used for directly condensing and collecting water vapor;

the water-cooling collecting unit 2 comprises a condensation cavity 21 and a cooling water cavity 23, and the cooling water cavity 23 is arranged in the condensation cavity 21.

The formation tank unit 1 further comprises a formation tank cover body 14, the formation tank cover body 14 is installed at the opening of the formation tank 11 and seals the opening of the formation tank 11, the formation tank cover body 14 is further provided with a cover body opening 141, and the cover body opening 141 is connected with the water-cooling collection unit 2. The tank liquor 111 is filled in the chemical tank 11, the chemical tank unit 1 comprises an air inlet pipe 12 and an air outlet pipe 13, the air inlet pipe 12 is connected with the air outlet pipe 13, the air inlet pipe 12 extends into the chemical tank 11, and the air outlet pipe 13 extends into the tank liquor 111. The air inlet pipe 12 penetrates through the cover body 14 of the chemical conversion tank, and cold air is introduced into the air inlet pipe 12 to help cool the chemical conversion tank 11. The temperature of the bath solution 111 during formation is kept stable in a desired range.

The water-cooling collecting unit 2 is of a sheet structure, and the water-cooling collecting unit 2 is obliquely arranged on the chemical tank unit 1. The inclination angles of the condensation cavity 21 and the cooling water cavity 23 of the water-cooling collection unit 2 with the vertical direction are 60 degrees. The water-cooled collection unit 2 is placed obliquely on the lid opening 141, the water-cooled collection unit 2 forming an angle of 60 ° with the steam plane. The material of the water-cooled collecting unit 2 is stainless steel with the number of 304 or more. The condensation cavity 21 is obliquely arranged, the flow speed of the water vapor is slower and the contact time with the cooling water cavity 23 is longer compared with the vertical arrangement, and the water vapor is difficult to flow to the tail end of the water-cooling collection unit 2 due to the horizontal arrangement, so that the condensation collection effect cannot be achieved. In this embodiment, the inclination angle is 60 °.

The bottom of the condensation cavity 21 is provided with a steam inlet 22, and the upper part of the condensation cavity 21 is provided with a tail gas exhaust port 25. The vapor which is not collected after sufficient condensation is discharged through the exhaust gas outlet 25, and the air pressure in the water-cooled collection unit 2 is kept balanced.

The formation tank 11 is also provided with a support frame 15, and the support frame 15 is connected with the outside of the formation tank 11 and the condensation cavity 21 and used for supporting the condensation cavity 21.

As shown in fig. 3, air deflectors 24 are crosswise arranged in the condensation cavity 21, and the air deflectors 24 are arranged between the upper side of the cooling water cavity 23 and the inner wall of the condensation cavity 21, and between the lower side of the cooling water cavity 23 and the inner wall of the condensation cavity 21. The water vapor entering the condensation cavity 21 is blocked by the air deflectors 24 and can only pass through the left gap of the first air deflector 24, and the right side of the second air deflector 24 and the left side … … of the third air deflector in sequence achieve the effect of slowing down the flow of the water vapor and fully contacting the cooling water cavity 23.

Referring to fig. 4 and 5, the surface of the cooling water cavity 23 is a serpentine finned tube 233, the serpentine finned tube 233 is provided with a plurality of arc contact surfaces 235, and the cooling water cavity 23 is provided with guide grooves 234 arranged in parallel at intervals. The water flow of the serpentine finned tube 233 is horizontal, the diversion trench 234 is vertical, so that water drops formed by condensation of steam on the surface of the cooling water cavity 23 flow down from the diversion trench 234 and finally converge at the steam inlet 22 to flow back to the formation tank 11, and a condensed water collecting pipe can be additionally arranged at the bottom of the condensation cavity 21 to separately collect the condensed water.

The bottom of the cooling water cavity 23 is provided with a cooling water inlet 231, the upper part of the cooling water cavity 23 is provided with a cooling water outlet 232, and the cooling water inlet 231 and the cooling water outlet 232 are arranged at the diagonal ends of the cooling water cavity 23. This can sufficiently exert the condensation function of cold water. And a water temperature treatment device such as a cooling water tank can be additionally arranged between the cooling water inlet pipe and the cooling water outlet pipe, so that the cooling water can be recycled.

The use process comprises the following steps: the water vapor produced in the chemical formation tank 11 enters the inclined water-cooled collection unit 2 through the cover body opening 141;

the condensation cavity 21 in the water-cooling collection unit 2 is of a sheet structure, the cooling water cavity 23 is a coiled finned tube 233 arranged in a sheet shape, the cooling water cavity 23 is arranged in the condensation cavity 21, the lower end of the cooling water cavity 23 is provided with a cooling water inlet 231, the upper end of the cooling water cavity 23 is provided with a cooling water outlet 232, and cooling water fully flows in the cooling water cavity 23. The water vapor passes through the cooling water cavity 23 and the inner wall of the condensation cavity 21, the water vapor is blocked by the air deflector 24, so that the flow rate of the water vapor is reduced, the water vapor is fully contacted with the cooling water cavity 23, water drops formed by condensation of the water vapor on the surface of the cooling water cavity 23 flow down from the flow guide groove 234 and finally are gathered at the steam inlet 22 and flow back to the formation groove 11, and a condensed water collecting pipe can be additionally arranged at the bottom of the condensation cavity 21 to separately collect the condensed water.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides a change groove gas air conditioning and mix heat sink which characterized in that: the method comprises the following steps:

the chemical tank unit (1) is arranged on the chemical tank (11) and matched with the chemical tank (11);

the water-cooling collecting unit (2) is arranged on the chemical tank unit (1) and is used for directly condensing and collecting water vapor;

wherein water-cooling collection unit (2) includes condensation cavity (21) and cooling water cavity (23), cooling water cavity (23) set up in condensation cavity (21), water-cooling collection unit (2) are the lamellar structure, and water-cooling collection unit (2) slope sets up on becoming groove unit (1).

2. The cold air mixing cooling device for the formation tank of claim 1, wherein: it is equipped with tank liquor (111) to change grooving (11), it includes air-supply line (12), air-out pipe (13) to change grooving unit (1), air-supply line (12) and air-out pipe (13) are connected, and inside air-supply line (12) stretched into and become grooving (11), air-out pipe (13) stretched into tank liquor (111).

3. The cold air mixing cooling device for the formation tank of claim 1, wherein: the formation tank unit (1) further comprises a formation tank cover body (14), the formation tank cover body (14) is arranged at the opening of the formation tank (11) and seals the opening of the formation tank (11), the formation tank cover body (14) is further provided with a cover body opening (141), and the cover body opening (141) is connected with the water-cooling collection unit (2).

4. The cold air mixing cooling device for the formation tank of claim 1, wherein: the inclination angles of the condensation cavity (21) and the cooling water cavity (23) of the water-cooling collection unit (2) and the vertical direction are 60 degrees.

5. The cold air mixing cooling device for the formation tank of claim 1, wherein: the surface of the cooling water cavity (23) is provided with a snakelike finned tube (233), the snakelike finned tube (233) is provided with a plurality of arc-shaped contact surfaces (235), and the cooling water cavity (23) is provided with diversion trenches (234) which are arranged in parallel at intervals.

6. The cold air mixing cooling device for the formation tank of claim 1, wherein: the cooling water cavity (23) bottom is equipped with cooling water inlet (231), and cooling water cavity (23) upper portion is equipped with cooling water outlet (232), and cooling water inlet (231) and cooling water outlet (232) set up the diagonal end at cooling water cavity (23).

7. The cold air mixing cooling device for the formation tank of claim 1, wherein: air deflectors (24) are arranged in the condensation cavity (21) in a left-right crossing mode, and the air deflectors (24) are arranged between the upper portion of the cooling water cavity (23) and the inner wall of the condensation cavity (21) and between the lower portion of the cooling water cavity (23) and the inner wall of the condensation cavity (21).

8. The cold air mixing cooling device for the formation tank of claim 1, wherein: the bottom of the condensation cavity (21) is provided with a steam inlet (22), and the upper part of the condensation cavity (21) is provided with a tail gas exhaust port (25).

9. The cold air mixing cooling device for the formation tank of claim 1, wherein: the chemical synthesis tank (11) is also provided with a support frame (15), and the support frame (15) is connected with the outside of the chemical synthesis tank (11) and the condensation cavity (21) and is used for supporting the condensation cavity (21).

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