CN213421404U - Air exhaust heat recovery device for dehumidification air-conditioning system - Google Patents

Abstract

The utility model discloses an exhaust heat recovery device for a dehumidification air-conditioning system, which comprises a main machine section, an air supply section, a cooling reheating section, a mixing filter section, an air exhaust section and a return air section, wherein an air feeder is arranged in the inner cavity of the air supply section, an air exhaust fan is arranged in the inner cavity of the air exhaust section, a heat pipe heat recovery evaporation section is arranged at the air exhaust port of the air exhaust section, a heat pipe heat recovery condensation section is arranged at the fresh air port of the mixing filter section, and a central processing unit is arranged at the top of the surface outside the main machine section. The purpose of energy conservation is achieved.

Description

Air exhaust heat recovery device for dehumidification air-conditioning system

Technical Field

The utility model relates to a heating and ventilation air conditioning field specifically is a heat recovery unit that airs exhaust for dehumidification air conditioning system.

Background

The dehumidifying air conditioner for the swimming pool can operate under a full fresh air working condition in excessive seasons, can make full use of outdoor fresh air to carry out air conditioning on the space of the swimming pool, and also can keep proper fresh air volume in winter and summer to guarantee the oxygen content and chlorine concentration in the space of the indoor swimming pool, thereby guaranteeing the air quality in the space of the swimming pool.

However, the existing exhaust heat recovery device has the following disadvantages:

when the swimming pool space is through dehumidification heat pump equipment introduction new trend, also need to air exhaust, and the volume of airing exhaust is more than the fresh air volume some, guarantees the little negative pressure in swimming pool space, and indoor swimming pool space is constant temperature swimming pool, contains a large amount of cold volumes in airing exhaust in summer, contains a large amount of heats in airing exhaust winter, and this part heat can cause a large amount of energy consumptions extravagant if directly discharging, is unfavorable for current social energy saving and emission reduction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be used for dehumidification air conditioning system heat recovery unit that airs exhaust to when solving in the above-mentioned background art in the swimming pool space through dehumidification heat pump equipment introduction new trend, also air exhaust, and the volume of airing exhaust is more than the fresh air volume some, guarantee the little negative pressure in swimming pool space, indoor swimming pool space is constant temperature swimming pool, contain a large amount of cold volumes in airing exhaust in summer, contain a large amount of heats in airing exhaust winter, this part heat can cause a large amount of energy consumptions extravagant if directly discharging, be unfavorable for current social energy saving and emission reduction.

In order to achieve the above object, the utility model provides a following technical scheme: an exhaust heat recovery device for a dehumidification air-conditioning system comprises a main machine section, an air supply section, a cooling and reheating section, a mixing filter section, an air exhaust section and an air return section, wherein an air feeder is arranged in an inner cavity of the air supply section, an exhaust fan is arranged in an inner cavity of the air exhaust section, a heat pipe heat recovery evaporation section is arranged at an air exhaust port of the air exhaust section, a heat pipe heat recovery condensation section is arranged at a fresh air port of the mixing filter section, a central processing unit is arranged at the top of the outer surface of the main machine section, the heat pipe heat recovery evaporation section and the heat pipe heat recovery condensation section are separated by a heat pipe heat recovery heat insulation section, heat insulation mechanisms are arranged on the outer wall surfaces of the main machine section, the air supply section, the cooling and reheating section, the mixing filter section, the air exhaust section and the air return section, each heat insulation mechanism comprises aluminum foil foam soundproof cotton, ceramic fiber heat insulation cotton and an adhesive layer, and, need not external energy and power of giving for swimming pool dehumidification air conditioner operation process satisfies the humiture requirement in pond room space, and the heat pipe heat recovery device recovery pond room that installs additional through new air exit is arranged in heating outdoor introduction new trend to heat, reaches energy-conserving purpose.

Preferably, the air supply section is arranged on the left side of the main machine section, the cooling reheating section is arranged on the left side of the air supply section, the mixing filter section is arranged on the left side of the cooling reheating section, the air exhaust section is arranged on the left side of the mixing filter section, and the air return section is arranged on the left side of the air exhaust section.

Preferably, the main machine section, the air supply section, the cooling reheating section, the mixing filtering section, the air exhaust section and the air return section are sequentially connected through bolts to form a closed box body, so that integrated equipment can be achieved.

Preferably, the central processing unit is electrically connected with the air feeder and the exhaust fan respectively through wires, so that the central processing unit can flexibly control the operation of the air feeder and the exhaust fan.

Preferably, ceramic fibre heat preservation cotton sets up in the cotton soundproof cotton top surface of aluminium foil bubble, the adhesive linkage is scribbled and is spouted in the cotton top surface of ceramic fibre heat preservation to can play dual heat preservation effect through the cotton soundproof cotton of aluminium foil bubble, ceramic fibre heat preservation cotton, reduce the heat and run off at heat reclamation device, improve the utilization ratio of heat energy, through the adhesive linkage, can bond heat preservation mechanism at the equipment outer wall again, and then make things convenient for the construction in later stage.

Preferably, host computer section, air supply section, cooling reheat section, mixed filter section, the section of airing exhaust and return air section outer wall surface bottom all are equipped with the warning subsides to can play the warning effect through the warning subsides, and then prevent that non-staff from touching.

The utility model provides a be used for dehumidification air conditioning system heat recovery unit that airs exhaust possesses following beneficial effect:

(1) the utility model discloses swimming pool dehumidification air conditioner operation process satisfies the humiture requirement in pond room space simultaneously, and the heat in the hot pipe heat recovery device recovery pond room of installing additional through new air exit is used for heating outdoor new trend introduction, reaches energy-conserving purpose. The equipment is integrated equipment, the volume is large, the heat pipe heat recovery device is flexible and convenient to install, the occupied space is small, only the upper part of the air exhaust section of the equipment is needed to be installed, the volume of the equipment is not increased, and therefore precious machine room area cannot be excessively occupied. The air of the swimming pool space contains chlorine-containing air, which also belongs to a dense place, the air may contain harmful substances such as bacteria, viruses and the like, if a traditional format heat recovery device or a rotating wheel heat recovery device is used, the newly exhausted air can be contacted, the cross pollution of the newly exhausted air can be caused, and the newly exhausted air channel of the heat pipe heat recovery device is relatively independent, so that the cross pollution of the newly exhausted air is effectively avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic sectional structure of the present invention;

fig. 3 is a schematic view of the sectional structure of the heat preservation mechanism of the present invention.

In the figure: 1. a blower; 2. an exhaust fan; 3. a heat pipe heat recovery evaporation section; 4. a heat pipe heat recovery condensing section; 5. a central processing unit; 6. a heat pipe heat recovery insulation section; 7. a heat preservation mechanism; 701. aluminum foil foam soundproof cotton; 702. ceramic fiber heat insulation cotton; 703. an adhesive layer; 8. a warning label; A. a host section; B. an air supply section; C. a cooling reheating section; D. a mixing and filtering section; E. an air exhaust section; F. and an air return section.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-3, the utility model provides a technical solution: the utility model provides a heat recovery unit airs exhaust for dehumidification air conditioning system, includes main machine section A, air supply section B, cooling reheating section C, mixes filter segment D, air exhaust section E and return air section F, air supply section B inner chamber is equipped with forced draught blower 1, air exhaust section E inner chamber is equipped with exhaust fan 2, air exhaust department of air exhaust section E is equipped with heat pipe heat recovery evaporation zone 3, the new trend department of mixing filter segment D installs heat pipe heat recovery condensation section 4, main machine section A outside surface top installs central processing unit 5, heat pipe heat recovery evaporation zone 3 with separate through heat pipe heat recovery heat insulation section 6 in the middle of heat pipe heat recovery condensation section 4, main machine section A, air supply section B, cooling reheating section C, mix filter segment D, air exhaust section E and return air section F outer wall surface all are equipped with heat preservation mechanism 7, heat preservation mechanism 7 includes aluminium foil foam soundproof cotton 701, ceramic fiber heat preservation cotton 702 and adhesive linkage 703, the device utilizes the physical characteristic of heat pipe heat recovery unit self to airing exhaust and carry out energy recuperation, need not external energy and power of giving for swimming pool dehumidification air conditioner operation process satisfies the humiture requirement in pond room space, and simultaneously, heat in the heat pipe heat recovery unit recovery pond room of installing additional through new air exit is aired exhaust is used for heating outdoor introduction new trend, reaches energy-conserving purpose.

The air supply section B is arranged on the left side of the main machine section A, the cooling reheating section C is arranged on the left side of the air supply section B, the mixing filtering section D is arranged on the left side of the cooling reheating section C, the air exhaust section E is arranged on the left side of the mixing filtering section D, and the air return section F is arranged on the left side of the air exhaust section E.

The main machine section A, the air supply section B, the cooling reheating section C, the mixing filtering section D, the air exhaust section E and the air return section F are sequentially connected through bolts to form a closed box body, and therefore integrated equipment can be achieved.

The central processing unit 5 is electrically connected with the air feeder 1 and the exhaust fan 2 through wires respectively, so that the central processing unit 5 can flexibly control the operation of the air feeder 1 and the exhaust fan 2.

Ceramic fibre thermal insulation cotton 702 sets up in the cotton soundproof cotton 701 top surface of aluminium foil bubble, the adhesive linkage 703 is scribbled and is spouted in the cotton 702 top surface of ceramic fibre thermal insulation to can play dual heat preservation effect through the cotton soundproof cotton 701 of aluminium foil bubble, the cotton 702 of ceramic fibre thermal insulation, reduce the heat and run off at heat recovery unit, improve the utilization ratio of heat energy, through adhesive linkage 703, can bond heat preservation mechanism 7 at the equipment outer wall again, and then make things convenient for the construction in later stage.

Host computer section A, air supply section B, cooling reheat section C, mixed filter segment D, the section E of airing exhaust and return air section F outer wall surface bottom all are equipped with warning subsides 8 to can play the warning effect through warning subsides 8, and then prevent that non-staff from touching.

It should be noted that, in operation, because the main machine section a, the air supply section B, the cooling and reheating section C, the mixing filter section D, the air exhaust section E and the air return section F form a closed box body by using bolts, and all related accessories such as the air supply machine 1, the air exhaust machine 2, the heat pipe heat recovery evaporation section 3, the heat pipe heat recovery condensation section 4, the central processing unit 5 and the heat pipe heat recovery heat insulation section 6 are installed in the corresponding equipment sections according to design, so as to achieve the integrated equipment, because the air exhaust section E is provided with the air exhaust machine 2 in the inner cavity, and the air exhaust port of the air exhaust section E is provided with the heat pipe heat recovery evaporation section 3, and the new air port of the mixing filter section D is provided with the heat pipe heat recovery condensation section 4, the surface top of the main machine section a is provided with the central processing unit 5, and the heat pipe heat recovery evaporation section 3 is separated from the heat pipe heat recovery condensation section 4 by the heat recovery heat insulation section 6, therefore, the operation process of the dehumidifying air conditioner for the swimming pool can meet the temperature and humidity requirement of the pool and hall space, and the heat in the exhaust air of the heat pipe heat recovery device recovery pool and hall added at the new exhaust port is used for heating the fresh air introduced outdoors, thereby achieving the purpose of energy saving, because the device is an integrated device, the volume is larger, the heat pipe heat recovery device is flexible and convenient to install, the occupied space is small, only the upper part of the new exhaust section of the device is needed to be installed, the device volume is not increased, the valuable machine room area is not excessively occupied, moreover, the air of the swimming pool space contains chlorine-containing air, which belongs to a dense place of personnel, the air can contain some bacteria, viruses and other harmful substances, if the traditional plate type heat recovery device or the rotating wheel heat recovery device is used, the new exhaust air can contact, the cross pollution of the new exhaust air can be caused, and the new exhaust channel of the heat pipe, the central processing unit 5 is respectively electrically connected with the air feeder 1 and the exhaust fan 2 through leads, so that the central processing unit 5 can flexibly control the air feeder 1 and the exhaust fan 2 to operate, the outer wall surfaces of the main machine section A, the air feeding section B, the cooling and reheating section C, the mixing and filtering section D, the air discharging section E and the air returning section F are respectively provided with a heat insulation mechanism 7, the heat insulation mechanism 7 comprises aluminum foil foam soundproof cotton 701, ceramic fiber heat insulation cotton 702 and an adhesive layer 703, meanwhile, the ceramic fiber heat insulation cotton 702 is arranged on the top surface of the aluminum foil foam soundproof cotton 701, and the adhesive layer 703 is coated on the top surface of the ceramic fiber heat insulation cotton 702, so that double heat insulation effects can be achieved through the aluminum foil foam soundproof cotton 701 and the ceramic fiber heat insulation cotton 702, the loss of heat in a heat recovery device is reduced, and the utilization rate of heat energy is improved, through adhesive linkage 703, can bond heat preservation mechanism 7 at the equipment outer wall again, and then make things convenient for the construction in later stage, through all being equipped with warning subsides 8 in host computer section A, air supply section B, cooling reheating section C, mixed filter segment D, section E and the return air section F outer wall surface bottom of airing exhaust to can play the warning effect through warning subsides 8, and then prevent that non-operating personnel from touching.

Claims (6)

1. The utility model provides a be used for dehumidification air conditioning system heat recovery unit that airs exhaust which characterized in that: the air-conditioning system comprises a main machine section (A), an air supply section (B), a cooling reheating section (C), a mixed filtering section (D), an air exhaust section (E) and an air return section (F), wherein an air feeder (1) is arranged in the inner cavity of the air supply section (B), an exhaust fan (2) is arranged in the inner cavity of the air exhaust section (E), a heat pipe heat recovery evaporation section (3) is arranged at an air exhaust port of the air exhaust section (E), a heat pipe heat recovery condensation section (4) is arranged at a fresh air port of the mixed filtering section (D), a central processing unit (5) is arranged at the top of the outer surface of the main machine section (A), a heat pipe heat recovery heat insulation section (6) is arranged between the heat pipe heat recovery evaporation section (3) and the heat pipe heat recovery condensation section (4), and heat insulation mechanisms (7) are arranged on the outer wall surfaces of the main machine section (A), the air supply section (B), the cooling reheating section (C), the mixed filtering section (D), the air exhaust, the heat preservation mechanism (7) comprises aluminum foil foam soundproof cotton (701), ceramic fiber heat preservation cotton (702) and a bonding layer (703).

2. An exhaust heat recovery device for a desiccant air conditioning system according to claim 1, wherein: air supply section (B) sets up in main machine section (A) left side, cooling reheating section (C) sets up in air supply section (B) left side, mix filter segment (D) and set up in cooling reheating section (C) left side, air exhaust section (E) sets up in mixing filter segment (D) left side, return air section (F) sets up in air exhaust section (E) left side.

3. An exhaust heat recovery device for a desiccant air conditioning system according to claim 1, wherein: the main machine section (A), the air supply section (B), the cooling reheating section (C), the mixing filtering section (D), the air exhaust section (E) and the air return section (F) are sequentially connected through bolts to form a closed box body.

4. An exhaust heat recovery device for a desiccant air conditioning system according to claim 1, wherein: the central processing unit (5) is electrically connected with the air feeder (1) and the exhaust fan (2) through wires respectively.

5. An exhaust heat recovery device for a desiccant air conditioning system according to claim 1, wherein: the ceramic fiber heat-insulation cotton (702) is arranged on the top surface of the aluminum foil foam sound-insulation cotton (701), and the bonding layer (703) is sprayed on the top surface of the ceramic fiber heat-insulation cotton (702).

6. An exhaust heat recovery device for a desiccant air conditioning system according to claim 1, wherein: and warning stickers (8) are arranged at the bottoms of the outer wall surfaces of the main machine section (A), the air supply section (B), the cooling reheating section (C), the mixing filtering section (D), the air exhaust section (E) and the air return section (F).

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