CN113685925A

CN113685925A - Cross type heat exchange air cooler

Info

Publication number: CN113685925A
Application number: CN202110998977.7A
Authority: CN
Inventors: 高立铭; 罗汉香; 舒宪峰; 高永丰; 裘科益
Original assignee: Zhejiang Mingxin Cold Chain Equipment Co ltd
Current assignee: Zhejiang Mingxin Cold Chain Equipment Co ltd
Priority date: 2021-08-28
Filing date: 2021-08-28
Publication date: 2021-11-23

Abstract

A cross-type heat exchange air cooler comprises a cooling chamber, a processing chamber and air outlet equipment which are sequentially arranged side by side, and also comprises a plurality of heat conducting pieces and ice boxes; a partition plate is arranged between the cooling chamber and the processing chamber; the partition is provided with a connecting pipe, and the cooling chamber is communicated with the processing chamber through the connecting pipe; the top of the cooling chamber is provided with an ice adding hole; an air inlet pipe is arranged at the upper end of the cooling chamber; a bearing plate is arranged in the cooling chamber; a water collecting box is arranged at the bottom of the cooling chamber; the ice box is placed on the bearing plate; a plurality of guide plates are arranged in the cooling chamber at equal intervals along the vertical direction; and a gas treatment device is arranged in the treatment chamber and is connected with an air outlet device. The invention prolongs the cooling time of the gas, improves the cooling quality and the cooling speed of the gas, reduces the temperature of the gas to the maximum extent and achieves the effect of rapidly cooling the room temperature.

Description

Cross type heat exchange air cooler

Technical Field

The invention belongs to the technical field of air cooler equipment, and particularly relates to an air cooler with cross type heat exchange.

Background

The existing household air cooler mainly uses a water circulation system to enable water to flow through a wet curtain, and partial heat is taken away by evaporation and heat absorption of the water in the wet curtain so as to reduce the temperature, but the household air cooler has low efficiency, insufficient cold air temperature, short air heat exchange time, poor air cooling effect and limited cooling effect; the indoor temperature is slowly reduced, the use experience of a user is influenced, and the problem needs to be solved.

Disclosure of Invention

Objects of the invention

In order to solve the technical problems in the background art, the invention provides the cross type heat exchange air cooler, which prolongs the cooling time of gas, improves the cooling quality and the cooling speed of the gas, reduces the temperature of the gas to the maximum extent and achieves the effect of rapidly cooling the room temperature. The equipment has high cooling efficiency and good cooling effect. Meanwhile, ice water is collected in a centralized manner, so that the environment is not polluted.

(II) technical scheme

In order to solve the problems, the invention provides a cross-type heat exchange air cooler which comprises a cooling chamber, a processing chamber and air outlet equipment which are sequentially arranged side by side, and also comprises a plurality of heat conducting pieces and ice boxes;

a partition plate is arranged between the cooling chamber and the processing chamber; the partition is provided with a connecting pipe, and the cooling chamber is communicated with the processing chamber through the connecting pipe; the top of the cooling chamber is provided with an ice adding hole;

an air inlet pipe is arranged at the upper end of the cooling chamber; a bearing plate is arranged in the cooling chamber; a water collecting box is arranged at the bottom of the cooling chamber;

the ice box is placed on the bearing plate; the bottom of the ice box and the bearing plate are respectively provided with a plurality of first through holes and second through holes for the heat conducting pieces to pass through; the bearing plate is provided with a vent hole;

a plurality of guide plates are arranged in the cooling chamber at equal intervals along the vertical direction; a plurality of third through holes are formed in the guide plate, and an air outlet is formed in one end of the guide plate; the plurality of third through holes, the plurality of first through holes and the plurality of second through holes are in one-to-one correspondence; a plurality of the guide plates are formed with S-shaped gas channels in front;

the upper end of the heat conducting piece extends into the ice box, the middle part of the heat conducting piece penetrates through the guide plate, and the lower end of the heat conducting piece is positioned in the water collecting box or above the water collecting box;

the processing chamber is internally provided with gas processing equipment, and the gas outlet end of the connecting pipe is connected with the gas inlet end of the gas processing equipment; the gas treatment equipment is provided with a gas outlet pipe; the air outlet pipe is connected with air outlet equipment.

Preferably, the heat conductive member includes a cylindrical water guide bar; the water guide rod is made of a material with capillary phenomenon property; the upper end of the water guide rod extends into the ice box, and ice blocks and ice water are placed in the ice box.

Preferably, the guide plate is provided with a plurality of fourth through holes, and each corresponding fourth through hole and each corresponding third through hole are arranged side by side and are connected with each other; a plurality of placing boxes are arranged on the water guide rod at equal intervals; a reticular placing barrel is placed in the placing box; the upper end of the placing cylinder is positioned above the placing box, the lower end of the placing cylinder is positioned in the bottom of the placing box, and ice blocks are placed in the placing cylinder; the bottom of the placing box is provided with a drain pipe; the water outlet pipe is vertically arranged, and a water inlet at the top of the water outlet pipe is connected with the bottom of the placing box; the placing box is inserted into the communicated fourth through hole in a matched mode, and the water guide rod is inserted into the third through hole in a matched mode to form a sealing structure.

Preferably, the guide plate is provided with a plurality of fourth through holes, and each corresponding fourth through hole and each corresponding third through hole are arranged side by side and are connected with each other; a hard mesh barrel with an upward opening is arranged on the water guide rod; the bottom of the net barrel is positioned in the water collecting box or above the water collecting box; the mesh barrel is inserted into the communicated fourth through hole in a matching way, and the water guide rod is inserted into the third through hole in a matching way; each net barrel sequentially penetrates through the guide plates from top to bottom.

Preferably, the mesh barrel is made of stainless steel or stainless alloy.

Preferably, a filter element for removing particles is provided inside the gas treatment device.

Preferably, a gas drying filter element for absorbing water is arranged in the gas treatment equipment.

Preferably, an oxygen anion generator is provided inside the gas treatment device.

Preferably, a sealing cover is arranged at the position of the ice adding hole.

In the invention, ice blocks are placed in the ice box, and ice water melted by the ice blocks is recycled into the water collecting box through the heat conducting piece; the gas enters the cooling chamber, and under the action of the bearing plate, the gas and the ice blocks in the ice box are subjected to heat exchange to carry out primary cooling; the air passes through the vent hole to enter an S-shaped air channel consisting of a plurality of guide plates for cooling; the gas enters the processing chamber, is processed by the gas processing equipment, enters the air outlet equipment and is finally exhausted by the air outlet equipment.

According to the invention, the cooling time of the gas is prolonged, the cooling quality and the cooling speed of the gas are improved, the temperature of the gas is reduced to the maximum extent, and the effect of rapidly cooling the room temperature is achieved. The equipment has high cooling efficiency and good cooling effect. Meanwhile, ice water is collected in a centralized manner, so that the environment is not polluted.

In the invention, the water guide rod absorbs ice water under the action of capillary phenomenon, the flowing speed of the ice water is low, the contact time with air is prolonged, the heat exchange time is prolonged, and the heat exchange efficiency is improved; when air passes through the S-shaped gas channel, the air exchanges heat with ice water attached to the water guide rod, so that the temperature of the air is reduced, the air cooling efficiency is improved, and the best air cooling quality is ensured.

In the invention, when air passes through the S-shaped gas channel, the air exchanges heat with ice water attached to the water guide rod, and meanwhile, the air can also exchange heat with ice blocks in the placing cylinder, so that the air is greatly cooled, the cooling efficiency is high, and the cooling quality is good; wherein, a plurality of water guide poles with place a section of thick bamboo and a plurality of deflector and intersect, under the condition of sparingly resource, improved cooling efficiency. The lower end of the placing cylinder is positioned in the placing box, so that the whole placing box is convenient to take out; the heat conducting piece and the guide plate can be integrally taken out of the cooling chamber, so that ice can be conveniently added.

In the invention, the placing box is inserted into the communicated fourth through hole in a matching way, and the water guide rod is inserted into the third through hole in a matching way to form a sealing structure, so that air can flow along the S-shaped gas channel, and the best air cooling effect is ensured. Place the box bottom and be provided with the drain pipe, the ice water that melts can be enough through the drain pipe transmission to finally transmit to the box that catchments, avoid waste water polluted environment, avoid causing the incident.

According to the ice adding device, after the bearing plate and the ice box are taken out, ice can be directly added into the mesh barrel, so that the ice adding device is more convenient to add ice, simpler to operate and more convenient to use. Meanwhile, the effect of quickly reducing the air temperature can be achieved, the air cooling quality is guaranteed, ice water after ice cubes are melted can directly fall into the water collecting box, and the environment is not polluted.

Drawings

Fig. 1 is a schematic structural diagram of a cross-type heat exchange air cooler provided by the invention.

Fig. 2 is a schematic perspective view of a partial structure of the cross heat exchange air cooler according to the present invention.

Fig. 3 is a schematic structural diagram of a guide plate in a first embodiment of the cross type heat exchange air cooler provided by the invention.

Fig. 4 is a schematic structural diagram of a guide plate in a second embodiment of the cross type heat exchange air cooler according to the present invention.

Fig. 5 is a perspective view of a part of a cross heat exchange air cooler in a second embodiment according to the present invention.

Fig. 6 is a sectional view showing a part of the structure of a second embodiment of the cross type heat exchange air cooler according to the present invention.

Fig. 7 is a schematic view of a part of a cross type heat exchange air cooler according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-2, the cross-type heat exchange air cooler provided by the present invention comprises a cooling chamber 1, a processing chamber 2, an air outlet device 9, a plurality of heat conducting members 6 and an ice box 10, which are arranged side by side in sequence;

a partition plate 3 is arranged between the cooling chamber 1 and the processing chamber 2; the partition plate 3 is provided with a connecting pipe 12, and the cooling chamber 1 is communicated with the processing chamber 2 through the connecting pipe 12; the top of the cooling chamber 1 is provided with an ice adding hole;

an air inlet pipe 11 is arranged at the upper end of the cooling chamber 1; a bearing plate 4 is arranged in the cooling chamber 1; a water collecting box 7 is arranged at the bottom of the cooling chamber 1;

the ice box 10 is placed on the bearing plate 4; the bottom of the ice box 10 and the bearing plate 4 are respectively provided with a plurality of first through holes and second through holes for the heat conducting pieces 6 to pass through;

a plurality of guide plates 5 are arranged in the cooling chamber 1 at equal intervals along the vertical direction; a plurality of third through holes 51 are formed in the guide plate 5, and an air outlet 50 is formed in one end of the guide plate 5; the third through holes 51, the first through holes and the second through holes are all in one-to-one correspondence; a plurality of the guide plates 5 are formed with S-shaped gas passages in front;

the upper end of the heat conducting piece 6 extends into the ice box 10, the middle part of the heat conducting piece 6 penetrates through the guide plate 5, and the lower end of the heat conducting piece 6 is positioned in the water collecting box 7 or above the water collecting box 7;

a gas treatment device 8 is arranged in the treatment chamber 2, and the gas outlet end of the connecting pipe 12 is connected with the gas inlet end of the gas treatment device 8; the gas treatment device 8 is provided with a gas outlet pipe 21; the air outlet pipe is connected with an air outlet device 9.

In the invention, ice blocks are placed in the ice box 10, and ice water melted by the ice blocks is recycled into the water collecting box 7 through the heat conducting piece 6; the gas enters the cooling chamber 1, and under the action of the bearing plate 4, the gas and the ice blocks in the ice box 10 exchange heat to carry out primary cooling; the gas passes through the vent holes 41 to enter the S-shaped gas channel composed of the plurality of guide plates 5 for cooling; the gas enters the processing chamber 2, is processed by the gas processing equipment 8, enters the air outlet equipment 9, and is finally exhausted by the air outlet equipment 9.

It should be noted that the air outlets 50 of two adjacent guide plates 5 are respectively located at two sides of the cooling chamber 1, so that an S-shaped air channel is formed between the guide plates 5.

As shown in fig. 3, in an alternative embodiment, the heat-conducting member 6 includes a cylindrical water guide rod 61; the water guide rod 61 is made of a material with capillary phenomenon property; the upper end of the water guide rod 61 extends into the ice box 10, and ice cubes and ice water are placed in the ice box 10.

In the invention, the water guide rod 61 absorbs ice water under the action of capillary phenomenon, the flowing speed of the ice water is slow, the contact time with air is prolonged, the heat exchange time is prolonged, and the heat exchange efficiency is improved; when the air passes through the S-shaped air passage, the air exchanges heat with the ice water attached to the water guide bar 61, thereby reducing the temperature of the air to improve the efficiency of air cooling and ensure the best quality of air cooling.

In an alternative embodiment, the guide plate 5 is provided with a plurality of fourth through holes 52, and each corresponding fourth through hole 52 and each corresponding third through hole 51 are arranged side by side and connected to each other;

a plurality of placing boxes 63 are arranged on the water guide rod 61 at equal intervals; a reticular placing cylinder 62 is placed in the placing box 63;

the upper end of the placing cylinder 62 is positioned above the placing box 63, the lower end of the placing cylinder 62 is positioned in the placing box 63, and ice blocks are placed in the placing cylinder 62; the bottom of the placing box 63 is provided with a drain pipe 64; the drain pipe 64 is vertically arranged, and a water inlet at the top of the drain pipe 64 is connected with the bottom of the placing box 63;

the placing box 63 is inserted into the communicated fourth through hole 52 in a matching manner, and the water guide rod 61 is inserted into the third through hole 51 in a matching manner, so that a sealing structure is formed.

In this embodiment, when air passes through the S-shaped gas channel, the air exchanges heat with ice water attached to the water guide rod 61, and meanwhile, the air can also exchange heat with ice cubes in the placing cylinder 62, so that the air is greatly cooled, the cooling efficiency is high, and the cooling quality is good; wherein, a plurality of water guide rods 61 and placing cylinders 62 are crossed with a plurality of guide plates 5, and the cooling efficiency is improved under the condition of saving resources. The lower end of the placing cylinder 62 is positioned in the placing box 63, so that the whole body can be conveniently taken out; the heat-conducting member 6 and the guide plate 5 can be taken out of the cooling chamber 1 as a whole, facilitating ice addition.

In this embodiment, the placing box 63 is inserted into the communicated fourth through hole 52 in a matching manner, and the water guide rod 61 is inserted into the third through hole 51 in a matching manner, so as to form a sealing structure, so as to ensure that air can flow along the S-shaped gas channel, and to ensure that the air cooling effect is optimal. Place the box 63 bottom and be provided with drain pipe 64, the ice water that melts can pass through drain pipe 64 transmission to finally transmit to the collection box 7 in, avoid waste water polluted environment, avoid causing the incident.

As shown in fig. 4-6, in an alternative embodiment, the guide plate 5 is provided with a plurality of fourth through holes 52; the water guide rod 61 is provided with a hard net barrel 65 with an upward opening; the bottom of the net barrel 65 is positioned in the water collecting box 7 or above the water collecting box 7;

the net barrel 65 is inserted into the communicated fourth through hole 52 in a matching way, and the water guide rod 61 is inserted into the third through hole 51 in a matching way.

In an alternative embodiment, as shown in fig. 7, the mesh bucket 65 is made of stainless steel or stainless alloy, which is not easy to corrode and prolongs the service life of the equipment.

In this embodiment, the mesh bucket 65 sequentially passes through the plurality of guide plates 5 from top to bottom, so as to increase the contact area with air and improve the air cooling efficiency;

this embodiment has the following disadvantages compared to the previous embodiment: the flow direction of the air cannot be ensured, and the air may flow along the net bucket 65;

however, the present embodiment has the advantages that the previous embodiment does not have: in this embodiment, take out bearing plate 4 and ice box 10 back, can directly add ice to the inside of net bucket 65, it is more convenient that equipment adds ice, and the operation is simpler, and it is more convenient to use. Meanwhile, the effect of quickly reducing the air temperature can be achieved, the air cooling quality is guaranteed, ice water after ice cubes are melted can directly fall into the water collecting box, and the environment is not polluted.

In an alternative embodiment, a filtering core for removing particles is disposed inside the gas treatment device 8 to remove particles in the air, so as to ensure that the air is clean.

In an alternative embodiment, a gas drying filter for absorbing water is arranged inside the gas treatment device 8 to ensure air drying.

In an optional embodiment, an oxygen anion generating device is arranged inside the gas treatment device 8, so that the oxygen anion content in the air is increased, and the use comfort is improved.

In an alternative embodiment, a sealing cover is arranged at the position of the ice adding hole, so that the heat exchange between the cooling chamber 1 and the outside air is reduced, and the heat exchange quality of the air in the cooling chamber 1 is improved.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. It is obvious that the invention is not limited to the above-described embodiments, but that many variations are possible. Any simple modification, equivalent change and modification made to the above embodiments in accordance with the technical spirit of the present invention should be considered to be within the scope of the present invention.

Claims

1. A cross type heat exchange air cooler is characterized by comprising a cooling chamber (1), a processing chamber (2) and an air outlet device (9) which are sequentially arranged side by side, and also comprising a plurality of heat conducting pieces (6) and ice boxes (10);

a partition plate (3) is arranged between the cooling chamber (1) and the processing chamber (2); the partition plate (3) is provided with a connecting pipe (12), and the cooling chamber (1) is communicated with the processing chamber (2) through the connecting pipe (12); the top of the cooling chamber (1) is provided with an ice adding hole;

an air inlet pipe (11) is arranged at the upper end of the cooling chamber (1); a bearing plate (4) is arranged in the cooling chamber (1); a water collecting box (7) is arranged at the bottom of the cooling chamber (1);

the ice box (10) is placed on the bearing plate (4); the bottom of the ice box (10) and the bearing plate (4) are respectively provided with a plurality of first through holes and second through holes for the heat conducting pieces (6) to pass through; the bearing plate (4) is provided with a vent hole (41);

a plurality of guide plates (5) are arranged in the cooling chamber (1) at equal intervals along the vertical direction; a plurality of third through holes (51) are formed in the guide plate (5), and an air outlet (50) is formed in one end of the guide plate (5); the third through holes (51), the first through holes and the second through holes are in one-to-one correspondence; a plurality of the guide plates (5) form S-shaped gas channels in front;

the upper end of the heat conducting piece (6) extends into the ice box (10), the middle part of the heat conducting piece (6) penetrates through the guide plate (5), and the lower end of the heat conducting piece (6) is positioned in the water collecting box (7) or above the water collecting box (7);

a gas treatment device (8) is arranged in the treatment chamber (2), and the gas outlet end of the connecting pipe (12) is connected with the gas inlet end of the gas treatment device (8); the gas treatment equipment (8) is provided with a gas outlet pipe (21); the air outlet pipe is connected with an air outlet device (9).

2. The cross heat exchanging air cooler according to claim 1, characterized in that the heat conducting member (6) comprises a cylindrical water guiding rod (61); the water guide rod (61) is made of a material with capillary phenomenon property; the upper end of the water guide rod (61) extends into the ice box (10), and ice cubes and ice water are placed in the ice box (10).

3. The cross type heat exchange air cooler according to claim 2, wherein a plurality of fourth through holes (52) are provided on the guide plate (5), and each corresponding fourth through hole (52) and each corresponding third through hole (51) are arranged side by side and connected with each other;

a plurality of placing boxes (63) are arranged on the water guide rod (61) at equal intervals; a reticular placing cylinder (62) is placed in the placing box (63); the upper end of the placing cylinder (62) is positioned above the placing box (63), the lower end of the placing cylinder (62) is positioned in the bottom of the placing box (63), and ice blocks are placed in the placing cylinder (62);

a drain pipe (64) is arranged at the bottom of the placing box (63); the drain pipe (64) is vertically arranged, and a water inlet at the top of the drain pipe (64) is connected with the bottom of the placing box (63); the placing box (63) is inserted into the communicated fourth through hole (52) in a matching mode, and the water guide rod (61) is inserted into the third through hole (51) in a matching mode to form a sealing structure.

4. The cross type heat exchange air cooler according to claim 2, wherein a plurality of fourth through holes (52) are provided on the guide plate (5), and each corresponding fourth through hole (52) and each corresponding third through hole (51) are arranged side by side and connected with each other;

a hard mesh barrel (65) with an upward opening is arranged on the water guide rod (61); the bottom of the net barrel (65) is positioned in the water collecting box (7) or above the water collecting box (7); the net barrel (65) is inserted into the communicated fourth through hole (52) in a matching way, and the water guide rod (61) is inserted into the third through hole (51) in a matching way; each net barrel (65) sequentially penetrates through the guide plates (5) from top to bottom.

5. Cross-over heat air cooler according to claim 4, characterized in that the mesh barrel (65) is made of stainless steel or stainless alloy.

6. Cross-over heat air cooler according to claim 1, characterized in that inside the gas treatment device (8) is arranged a filter cartridge for removing particles.

7. The cross-type heat exchange air cooler according to claim 1, characterized in that a gas drying filter element for absorbing water is arranged inside the gas treatment device (8).

8. Air cooler with cross heat exchange according to claim 1, characterized in that the inside of the gas treatment device (8) is provided with an oxygen anion generating device.

9. The cross type heat exchange air cooler according to claim 1, wherein a sealing cover is provided at the position of the ice adding hole.