CN212409471U - Heat exchanger structure - Google Patents

Abstract

The utility model provides a heat exchanger structure applied to the technical field of air purification, the heat exchanger structure include a plurality of skeletons (1), the skeleton (1) includes a plurality of skeletons I (2) and a plurality of skeletons II (3), each skeleton I (2) is provided with a plurality of convex partitions I (4), each skeleton II (3) is provided with a plurality of convex partitions II (5), a permeable membrane (6) is clamped between each skeleton I (2) and the adjacent skeleton II (3), the skeletons I (2) and II (3) are both made of metal materials, the heat exchanger structure of the utility model has simple structure, and the heat exchanger in the prior art is improved, so that when the indoor and outdoor ventilation is carried out, the heat exchange efficiency of cold and hot wind is effectively improved, the indoor temperature regulation requirement is satisfied, and the whole heat exchange efficiency is improved, the product performance is improved.

Description

Heat exchanger structure

Technical Field

The utility model belongs to the technical field of air purification, more specifically say, relate to a heat exchanger structure.

Background

The heat exchanger is mainly used for ventilation when the temperature difference between the indoor and the outdoor is large, outdoor gas enters the indoor space through the gas inlet channel, and indoor gas is discharged out of the outdoor space through the gas outlet channel. And current heat exchanger, on the one hand, when carrying out the heat transfer, cold and hot wind heat transfer inefficiency can't effectively satisfy the room temperature regulation demand, and on the other hand, heat exchanger assembly and disassembly is complicated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: to prior art's not enough, provide a simple structure, improve through the heat exchanger to among the prior art for when carrying out indoor outdoor ventilation, effectively improve cold and hot wind heat exchange efficiency, thereby satisfy the indoor temperature regulation demand, improve whole heat exchange efficiency, promote the heat exchanger structure of producing the performance.

To solve the technical problem, the utility model discloses the technical scheme who takes does:

the utility model relates to a heat exchanger structure, including a plurality of skeletons 1, skeleton 1 includes a plurality of skeletons I2 and a plurality of skeletons II 3, sets up multichannel convex wall I4 on every skeleton I2, sets up multichannel convex wall II 5 on every skeleton II 3, presss from both sides between every skeleton I2 and the adjacent skeleton II 3 and adorns one osmotic membrane 6, and skeleton I2 and skeleton II 3 are the structure that metal material made.

A plurality of frameworks I2 and a plurality of frameworks II 3 of the heat exchanger structure are alternately stacked up and down, a partition I4 of each framework I2 and a partition II 5 of one adjacent framework II 3 are arranged to be vertical, and a partition I4 of each framework I2 and a partition II 5 of another adjacent framework II 3 are arranged to be vertical.

The framework I2 and the permeable membrane 6 clamped between the partition I4 and the adjacent framework II 3 form a plurality of air inlet channels 7, and the framework II 3 and the permeable membrane 6 clamped between the partition II 5 and the adjacent framework I2 form a plurality of air outlet channels 8.

Skeleton I2 include a plurality of fixed limits I9, skeleton II 3 includes a plurality of fixed limits II 10, skeleton I2 and skeleton II 3 set up to the same structure of shape, size.

The heat exchanger structure further comprises a cladding plate 11, wherein the cladding plate 11 comprises a top cladding plate 12, a side cladding plate 13 and a bottom cladding plate 14.

Top outsourcing plate 12 be located the skeleton 1 upper surface of the superiors, bottom outsourcing plate 14 is located the skeleton 1 lower surface of lower floor, side outsourcing plate 13 upper end is connected with top outsourcing plate 12, side outsourcing plate 13 lower extreme is connected with bottom outsourcing plate 14.

The framework 1 is preferably made of aluminum alloy or aluminum material.

Adopt the technical scheme of the utility model, can obtain following beneficial effect:

heat exchanger structure, through the combination of a plurality of skeletons I and a plurality of skeletons II, form integral heat exchanger structure, and according to the different demands to heat exchanger use occasion and heat exchange efficiency, can choose for use the skeleton I and the skeleton II of different quantity, like this, heat exchanger structure equipment is convenient, and it is convenient to dismantle. And when setting up the structure, all set up skeleton I and skeleton II into the structure that metal material made, because metal material's skeleton I and skeleton II contact with the osmotic membrane, like this, the heat exchanger structure during operation is through the inlet channel air-inlet, through the air-out of air outlet channel. The inlet channel is adjacent with the passageway of giving vent to anger, and like this, the skeleton effectively plays heat transfer heat conduction and leads to, admits air and gives vent to anger in the short time through the heat exchanger structure, can effectively make and realize quick heat transfer between air inlet and the air-out to improve effective heat exchange efficiency by a wide margin. Heat exchanger structure, simple structure improves through the heat exchanger to among the prior art for when carrying out indoor outdoor ventilation, effectively improve cold and hot wind heat exchange efficiency, satisfy the room temperature regulation demand, improve whole heat exchange efficiency, promote product property ability.

Drawings

The contents of the description and the references in the drawings are briefly described as follows:

fig. 1 is a front view of a heat exchanger structure according to the present invention;

fig. 2 is a rear view of the heat exchanger structure according to the present invention;

fig. 3 is a schematic top view of a framework i of the heat exchanger structure according to the present invention;

fig. 4 is a schematic top view of a framework ii of the heat exchanger structure according to the present invention;

in the drawings, the reference numbers are respectively: 1. a framework; 2. a framework I; 3. a framework II; 4. a partition I; 5. separating II; 6. a permeable membrane; 7. an air intake passage; 8. an air outlet channel; 9. fixing the edge I; 10. fixing the edge II; 11. Wrapping a plate; 12. a top outer covering plate; 13. wrapping a plate outside the side surface; 14. the bottom is wrapped by a plate.

Detailed Description

The following description of the embodiments of the present invention will be made in detail with reference to the accompanying drawings, wherein the embodiments of the present invention are described in detail with reference to the accompanying drawings, for example, the shapes, structures, mutual positions and connection relations of the components, the functions and operation principles of the components, and the like:

as shown in the attached drawings 1-4, the utility model relates to a heat exchanger structure, including a plurality of skeletons 1, skeleton 1 includes a plurality of skeletons I2 and a plurality of skeleton II 3, sets up multichannel convex wall I4 on every skeleton I2, sets up multichannel convex wall II 5 on every skeleton II 3, presss from both sides between every skeleton I2 and the adjacent skeleton II 3 and adorns osmosis membrane 6 together, and skeleton I2 and skeleton II 3 are the structure that metal material made. Above-mentioned structure through the combination of a plurality of skeletons I2 and a plurality of skeletons II 3, forms integral heat exchanger structure, and according to the different demands to heat exchanger use occasion and heat exchange efficiency, can choose for use the skeleton I2 and the skeleton II 3 of different quantity to carry out the equipment connection, like this, heat exchanger structure equipment is convenient, and it is convenient to dismantle. And when setting up 1 structure of skeleton, all set up skeleton I2 and skeleton II 3 into the structure that metal material made, because metal material's skeleton I2 and skeleton II 3 contact with osmotic membrane (heat conduction membrane), like this, the heat exchanger structure during operation, through 7 air intakes of inlet channel, through 8 air-outs of outlet channel. And inlet channel is adjacent with the passageway of giving vent to anger, and like this, the skeleton effectively plays heat transfer heat conduction and leads to, admits air and gives vent to anger in the short time through heat exchanger structure, can effectively make and realize quick heat transfer between air inlet and the air-out to improve effective heat exchange efficiency by a wide margin. Heat exchanger structure, simple structure improves through the heat exchanger to among the prior art for when carrying out indoor outdoor ventilation, effectively improve cold and hot wind heat exchange efficiency, thereby satisfy the room temperature regulation demand, improve whole heat exchange efficiency, promote product property ability.

A plurality of frameworks I2 and a plurality of frameworks II 3 of the heat exchanger structure are alternately stacked up and down, a partition I4 of each framework I2 and a partition II 5 of one adjacent framework II 3 are arranged to be vertical, and a partition I4 of each framework I2 and a partition II 5 of another adjacent framework II 3 are arranged to be vertical. The framework I2 and the permeable membrane 6 clamped between the partition I4 and the adjacent framework II 3 form a plurality of air inlet channels 7, and the framework II 3 and the permeable membrane 6 clamped between the partition II 5 and the adjacent framework I2 form a plurality of air outlet channels 8. Above-mentioned structure, inlet channel and outlet channel extend to the equidirectional not, and a plurality of inlet channel of every layer are adjacent with the outlet channel of adjacent one deck, through metal material's skeleton and osmotic membrane, realize that adjacent inlet channel and outlet channel have the quick heat transfer of gas of difference in temperature.

Skeleton I2 include a plurality of fixed limits I9, skeleton II 3 includes a plurality of fixed limits II 10, skeleton I2 and skeleton II 3 set up to the same structure of shape, size. The heat exchanger structure further comprises a cladding plate 11, wherein the cladding plate 11 comprises a top cladding plate 12, a side cladding plate 13 and a bottom cladding plate 14. Above-mentioned structure, heat exchanger structure include a plurality of skeletons I2 and a plurality of skeletons II 3, and through outsourcing plate 11, realize fixed with spacing to outsourcing plate 11, the equipment forms the reliable heat exchanger structure of structure, satisfies the needs.

Top outsourcing plate 12 be located the skeleton 1 upper surface of the superiors, bottom outsourcing plate 14 is located the skeleton 1 lower surface of lower floor, side outsourcing plate 13 upper end is connected with top outsourcing plate 12, side outsourcing plate 13 lower extreme is connected with bottom outsourcing plate 14.

The framework 1 is preferably made of aluminum alloy or aluminum material.

Heat exchanger structure, through the combination of a plurality of skeletons I and a plurality of skeletons II, form integral heat exchanger structure, and according to the different demands to heat exchanger use occasion and heat exchange efficiency, can choose for use the skeleton I and the skeleton II of different quantity, like this, heat exchanger structure equipment is convenient, and it is convenient to dismantle. And when setting up the structure, all set up skeleton I and skeleton II into the structure that metal material made, because metal material's skeleton I and skeleton II contact with the osmotic membrane, like this, the heat exchanger structure during operation is through the inlet channel air-inlet, through the air-out of air outlet channel. The inlet channel is adjacent with the passageway of giving vent to anger, and like this, the skeleton effectively plays heat transfer heat conduction and leads to, admits air and gives vent to anger in the short time through the heat exchanger structure, can effectively make and realize quick heat transfer between air inlet and the air-out to improve effective heat exchange efficiency by a wide margin. Heat exchanger structure, simple structure improves through the heat exchanger to among the prior art for when carrying out indoor outdoor ventilation, effectively improve cold and hot wind heat exchange efficiency, satisfy the room temperature regulation demand, improve whole heat exchange efficiency, promote product property ability.

The present invention has been described in detail with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the present invention can be implemented in various ways without modification, and the present invention is not limited by the above embodiments.

Claims (7)

1. A heat exchanger structure characterized by: including a plurality of skeletons (1), skeleton (1) is including a plurality of skeletons I (2) and a plurality of skeleton II (3), set up convex wall I (4) of multichannel on every skeleton I (2), set up convex wall II (5) of multichannel on every skeleton II (3), press from both sides between every skeleton I (2) and adjacent skeleton II (3) and adorn one osmotic membrane (6), skeleton I (2) and skeleton II (3) are the structure that metal material made.

2. The heat exchanger structure according to claim 1, wherein: a plurality of frameworks I (2) and a plurality of frameworks II (3) of the heat exchanger structure are alternately arranged in a stacked mode from top to bottom, a partition I (4) of each framework I (2) and a partition II (5) of one adjacent framework II (3) are arranged to be of a vertically-arranged structure, and a partition I (4) of each framework I (2) and a partition II (5) of the other adjacent framework II (3) are arranged to be of a vertically-arranged structure.

3. The heat exchanger structure according to claim 1 or 2, wherein: skeleton I (2) and cut off I (4) and adjacent skeleton II (3) between press from both sides osmotic membrane (6) of dress and form multichannel inlet channel (7), skeleton II (3) and cut off II (5) and adjacent skeleton I (2) between press from both sides osmotic membrane (6) of dress and form multichannel outlet channel (8).

4. The heat exchanger structure according to claim 1, wherein: skeleton I (2) including a plurality of fixed limit I (9), skeleton II (3) include a plurality of fixed limit II (10), skeleton I (2) and skeleton II (3) set up to the same structure of shape, size.

5. The heat exchanger structure according to claim 1 or 2, wherein: the heat exchanger structure further comprises an outer-wrapping plate (11), and the outer-wrapping plate (11) comprises a top outer-wrapping plate (12), a side outer-wrapping plate (13) and a bottom outer-wrapping plate (14).

6. The heat exchanger structure according to claim 5, wherein: top outsourcing plate spare (12) be located skeleton (1) upper surface on the superiors, bottom outsourcing plate spare (14) are located skeleton (1) lower surface of lower floor, side outsourcing plate spare (13) upper end is connected with top outsourcing plate spare (12), side outsourcing plate spare (13) lower extreme is connected with bottom outsourcing plate spare (14).

7. The heat exchanger structure according to claim 1 or 2, wherein: the framework (1) is preferably made of aluminum alloy or aluminum material.

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