CN219474087U - Air separation cooling tower - Google Patents

Abstract

The utility model provides an air separation cooling tower, which relates to the technical field of air separation equipment and aims to solve the problems that the existing air separation cooling tower has single function, only exchanges heat with air through hot water, and thus, the single cooling mode has low efficiency and can not meet the use requirement, and comprises a mounting mechanism; the installation mechanism comprises a main body and a diversion trench, wherein the main body is of a cylindrical structure, circular grooves are formed in two ends of the main body, and the main body is of a hollow structure; the diversion trench is arranged on the inner wall of the main body; the mounting mechanism is provided with a bottom component, and a bottom piece of the bottom component is arranged on the bottom side of the main body. When hot water flows through the diversion trench, the hot water can exchange heat with the air in the device and can exchange heat with cold water in the inner groove in the main body, and through the arrangement, double heat exchange can be realized, the functionality of the device is enriched, and the cooling efficiency of the device on the hot water is higher.

Description

Air separation cooling tower

Technical Field

The utility model belongs to the technical field of air separation equipment, and particularly relates to an air separation cooling tower.

Background

In the technological process of low-temperature air separation method, an air cooling tower is needed, and the principle is that the evaporation heat-dissipating device for reducing the water temperature is realized by utilizing the principles that water is in contact with air flow and then carries out cold-heat exchange to generate steam, and the steam volatilizes and takes away heat to achieve the purposes of evaporation heat dissipation, convection heat transfer, radiation heat transfer and the like so as to dissipate the waste heat generated in the industry or refrigeration air conditioner.

Based on prior art discovery, the cooling structure of current air separation cooling tower is imperfect, and when using, the time that takes place heat exchange between hot water and the air is short, can't reach ideal cooling to hot water, and current air separation cooling tower's function singleness, only takes place heat exchange through hot water and air, and like this single cooling mode inefficiency can not satisfy the user demand.

Disclosure of Invention

In order to solve the technical problem, the utility model provides an air separation cooling tower to solve the cooling structure of current air separation cooling tower imperfect, during the use, take place heat exchange's time between hot water and the air is short, can't reach ideal cooling to hot water, and current air separation cooling tower's function singleness, only takes place heat exchange through hot water and air, like this single cooling mode inefficiency can not satisfy the problem of user demand.

The utility model relates to an air separation cooling tower's purpose and efficiency is reached by following concrete technical means:

an air separation cooling tower comprising:

a mounting mechanism; the installation mechanism comprises a main body and a diversion trench, wherein the main body is of a cylindrical structure, circular grooves are formed in two ends of the main body, and the main body is of a hollow structure; the diversion trench is arranged on the inner wall of the main body; the mounting mechanism is provided with a bottom component, a bottom piece of the bottom component is arranged at the bottom side of the main body, and the upper end of the bottom piece is mounted in a circular groove at the bottom of the main body; the installation mechanism is provided with a top component, a top piece of the top component is arranged at the upper end of the main body, the lower end of the top piece is installed in a circular groove at the upper end of the main body, a baffle of the top piece is inserted into the main body, and the baffle is attached to the inner wall of the main body.

Further, the mounting mechanism further includes: an inner groove and a connection port A; the inner groove is formed in the main body; the connecting ports A are symmetrically arranged at two ends of the front side of the main body, and the connecting ports A penetrate through the main body and are communicated with the inner groove.

Further, the bottom assembly includes: a bottom member and a connection port B; four groups of support columns are arranged at the bottom of the bottom part, and a circular groove is formed in the bottom part; the connecting ports B are provided with two groups in total, the connecting ports B are symmetrically arranged on two sides of the bottom part, and the connecting ports B penetrate through two ends of the bottom part.

Further, the bottom assembly further comprises: a side groove and an air inlet hole; the side grooves are provided with two groups in total, and waterproof nets are arranged in the side grooves; the air inlet is arranged at the inner end of the side groove.

Further, the top assembly includes: a top piece and a baffle; the upper end of the top part is provided with a circular through groove; the baffle is arranged at the bottom of the top part, and the inside of the baffle is provided with heat dissipation holes.

Further, the top assembly further comprises: a mounting shell and an exhaust fan; the mounting shell is arranged in a circular through groove at the upper end of the top part; the exhaust fan is rotatably arranged in the installation shell.

Further, the top assembly further comprises: a water injection groove and a connection port C; the water injection groove is formed in the inner side of the top part, and the lower end of the water injection groove penetrates through the top part through a circular through hole; the two groups of connecting ports C are arranged in total, the connecting ports C are symmetrically arranged on two sides of the top piece, and the connecting ports C are communicated with the water injection groove.

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

1. in this device, set up installation mechanism, set up the guiding gutter that is heliciform structure on the main part inner wall, install the exhaust fan to top through the installation shell, set up the side tank that has circular inlet port in the both sides of bottom part, during the use, flow out hot water from the water injection inslot to inside through guiding gutter flow direction bottom part, through setting up the guiding gutter into heliciform structure, can make the hot water at the inside flowing distance of main part longer, the time that its spent is also longer, can prolong the time of hot water and the inside air contact of main part like this, thereby reach better cooling effect.

2. In this device, set up installation mechanism, set up annular inside groove in the main part to set up connector A in the outer end of main part, be linked together connector A and inside groove, let in the inside groove with the cold water through connector A, and make cold water circulation flow in the inside groove, when hot water flow guiding gutter, hot water can take place the heat exchange with the air in the device, can take place the heat exchange with the cold water in the inside groove in the main part again, through setting up like this, can realize dual heat exchange, richened the functionality of device, the device is higher to the cooling efficiency of hot water.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic view of the partial internal structure of the present utility model.

Fig. 4 is a schematic view of a partial cross-sectional structure of the present utility model.

1. A mounting mechanism;

101. a main body; 1011. a diversion trench;

102. an inner tank; 1021. a connection port A;

2. a base assembly;

201. a bottom member; 2011. a connection port B;

202. a side groove; 2021. an air inlet hole;

3. a top assembly;

301. a top member; 3011. a baffle;

302. a mounting shell; 3021. an exhaust fan;

303. a water injection groove; 3031. connection port C.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 4:

the present utility model provides an air separation cooling tower comprising: a mounting mechanism 1; the installation mechanism 1 comprises a main body 101 and a diversion trench 1011, wherein the main body 101 is of a cylindrical structure, circular grooves are formed at two ends of the main body 101, and the main body 101 is of a hollow structure; the diversion trench 1011 is arranged on the inner wall of the main body 101; the mounting mechanism 1 is provided with a bottom component 2, a bottom piece 201 of the bottom component 2 is arranged on the bottom side of the main body 101, and the upper end of the bottom piece 201 is mounted in a circular groove at the bottom of the main body 101; the mounting mechanism 1 is provided with a top component 3, a top piece 301 of the top component 3 is arranged at the upper end of the main body 101, the lower end of the top piece 301 is mounted in a circular groove at the upper end of the main body 101, a baffle 3011 of the top piece 301 is inserted into the main body 101, and the baffle 3011 is attached to the inner wall of the main body 101.

As shown in fig. 3 to 4, wherein the mounting mechanism 1 further comprises: an inner tank 102 and a connection port a1021; the inner tank 102 is opened inside the main body 101; the connection ports A1021 are provided with two groups, the connection ports A1021 are symmetrically arranged at two ends of the front side of the main body 101, the connection ports A1021 penetrate through the main body 101 and are communicated with the inner groove 102, the annular inner groove 102 is arranged, flowable cool water can be introduced into the inner groove 102 so as to cool the water passing through the diversion groove 1011, and the circular connection ports A1021 are arranged, so that cool water can be introduced into the inner groove 102 through the upper connection ports A1021 and is led out through the lower connection ports A1021.

As shown in fig. 4, wherein the base assembly 2 comprises: a bottom member 201 and a connection port B2011; four groups of support columns are arranged at the bottom of the bottom part 201, and a circular groove is formed in the bottom part 201; two groups of connecting ports B2011 are arranged in total, the connecting ports B2011 are symmetrically arranged on two sides of the bottom part 201, and the connecting ports B2011 penetrate through two ends of the bottom part 201; a circular disk-shaped bottom part 201 is arranged, the cooled water can be received, a circular connecting port B2011 is arranged, and the cooled water can be guided out of the bottom part 201 through the connecting port B2011, the side groove 202 and the air inlet 2021; two groups of side grooves 202 are arranged in total, and waterproof nets are arranged inside the side grooves 202; the air inlet 2021 is formed at the inner end of the side groove 202, the side groove 202 is provided, and a circular air inlet 2021 is formed in the side groove 202, so that air can be sucked into the device from the air inlet 2021 when the exhaust fan 3021 rotates, thereby facilitating the cooling of the device.

As shown in fig. 3, wherein the top assembly 3 comprises: a top 301 and a baffle 3011; the upper end of the top part 301 is provided with a circular through groove; the baffle 3011 is arranged at the bottom of the top piece 301, and heat dissipation holes are formed in the baffle 3011; the top part 301 is arranged, water to be cooled can be introduced into the device through the top part 301, the annular baffle 3011 is arranged, water can be splashed when flowing out from the lower end of the water injection tank 303, and the shell 302 and the exhaust fan 3021 are arranged; the mounting shell 302 is mounted in a circular through groove at the upper end of the top part 301; the exhaust fan 3021 is rotatably installed inside the installation housing 302; a circular mounting case 302 is provided, an exhaust fan 3021 is mounted to the upper end of the top member 301 through the mounting case 302, the exhaust fan 3021 is provided, and by activating the exhaust fan 3021, air in the device can be circulated, and the water injection tank 303 and the connection port C3031 are provided; the water injection groove 303 is formed in the inner side of the top piece 301, and the lower end of the water injection groove 303 penetrates through the top piece 301 through a circular through hole; the connection ports C3031 are provided with two groups in total, the connection ports C3031 are symmetrically arranged on two sides of the top piece 301, the connection ports C3031 are communicated with the water injection groove 303, the annular water injection groove 303 is arranged, water to be cooled can be injected into the device through the water injection groove 303, the connection ports C3031 are arranged, and water can be injected into the water injection groove 303 through the connection ports C3031.

Specific use and action of the embodiment:

in the present utility model, as shown in fig. 1 to 4, a bottom member 201 is mounted to a lower end of a main body 101, an upper end of the bottom member 201 is fixed to a bottom of the main body 101, connection ports B2011 at both ends of the bottom member 201 are connected to a water outlet pipe, a top member 301 is mounted to a top of the main body 101, a baffle 3011 at a lower end of the top member 301 is attached to an inner wall of the main body 101, a water injection pipe is connected to connection ports C3031 at both ends of the top member 301, cold water is introduced into an inner tank 102 in the main body 101 through connection ports a1021, the cold water can cool the inner wall of the main body 101 and air at the inner wall of the main body 101, an exhaust fan 3021 is started, external air enters through air inlet holes 2021 in side tanks 202 at both ends of the bottom member 201, hot water flows out through a water injection tank 303, hot water flowing through the water guide tank 1011 can exchange heat with air inside the main body 101, and cold water in the inner tank 102, and cooled hot water can be discharged from connection ports B2011 at both ends of the bottom member 201.

Claims (7)

1. An air separation cooling tower, comprising: a mounting mechanism (1); the mounting mechanism (1) comprises a main body (101) and a diversion trench (1011), wherein the main body (101) is of a cylindrical structure, circular grooves are formed in two ends of the main body (101), and the main body (101) is of a hollow structure; the diversion trench (1011) is arranged on the inner wall of the main body (101); the mounting mechanism (1) is provided with a bottom component (2), a bottom piece (201) of the bottom component (2) is arranged at the bottom side of the main body (101), and the upper end of the bottom piece (201) is mounted in a circular groove at the bottom of the main body (101); the mounting mechanism (1) is provided with a top component (3), a top piece (301) of the top component (3) is arranged at the upper end of the main body (101), the lower end of the top piece (301) is mounted in a circular groove at the upper end of the main body (101), a baffle (3011) of the top piece (301) is inserted into the main body (101), and the baffle (3011) is attached to the inner wall of the main body (101).

2. An air separation cooling tower according to claim 1, wherein the mounting mechanism (1) further comprises: an inner tank (102) and a connection port A (1021); the inner groove (102) is formed in the main body (101); two groups of connecting ports A (1021) are arranged in total, the connecting ports A (1021) are symmetrically arranged at two ends of the front side of the main body (101), and the connecting ports A (1021) penetrate through the main body (101) and are communicated with the inner groove (102).

3. An air separation cooling tower according to claim 1, wherein the bottom assembly (2) comprises: a bottom member (201) and a connection port B (2011); four groups of support columns are arranged at the bottom of the bottom part (201), and a circular groove is formed in the bottom part (201); two groups of connecting ports B (2011) are arranged in total, the connecting ports B (2011) are symmetrically arranged on two sides of the bottom part (201), and the connecting ports B (2011) penetrate through two ends of the bottom part (201).

4. An air separation cooling tower according to claim 3, wherein the bottom assembly (2) further comprises: a side groove (202) and an air intake hole (2021); two groups of side grooves (202) are arranged in total, and a waterproof net is arranged inside each side groove (202); the air inlet holes (2021) are formed in the inner ends of the side grooves (202).

5. An air separation cooling tower according to claim 1, wherein the top assembly (3) comprises: a top member (301) and a baffle (3011); the upper end of the top piece (301) is provided with a circular through groove; the baffle (3011) is arranged at the bottom of the top piece (301), and heat dissipation holes are formed in the baffle (3011).

6. An air separation cooling tower according to claim 5, wherein the top module (3) further comprises: a mounting case (302) and an exhaust fan (3021); the mounting shell (302) is mounted in a circular through groove at the upper end of the top part (301); the exhaust fan (3021) is rotatably mounted inside the mounting case (302).

7. An air separation cooling tower according to claim 5, wherein the top module (3) further comprises: a water injection groove (303) and a connection port C (3031); the water injection groove (303) is formed in the inner side of the top piece (301), and the lower end of the water injection groove (303) penetrates through the top piece (301) through a circular through hole; two groups of connection ports C (3031) are arranged in total, the connection ports C (3031) are symmetrically arranged at two sides of the top piece (301), and the connection ports C (3031) are communicated with the water injection groove (303).