CN205505240U - Dehumidification ventilation system suitable for kiln occupies building - Google Patents

Abstract

The utility model relates to a dehumidification ventilation system suitable for kiln occupies building, including solid adsorption formula dehumidification runner, forced draught blower, full heat exchanger, solar energy water tank, heat exchanger I and II, be equipped with outdoor new trend entry, damp and hot exhaust emission mouth and dry air export on the dehumidification runner, dry air export and forced draught blower entry linkage, the forced draught blower is connected with heat exchanger I, and heat exchanger I is connected with full heat exchanger, be equipped with intercommunication in blast pipe and backwind tube and the kiln room on the full heat exchanger, be equipped with exhaust pipe and heat exchanger II entirely on the heat exchanger and upward be connected the gas access, gas outlet and dehumidification runner intercommunication are gone up to heat exchanger II, it is connected with inside coil pipe to be equipped with secret well water conveyer pipe on the heat exchanger I, be equipped with hot water delivery pipe and II inside coil pipe entry linkages on the heat exchanger on the solar energy water tank, be equipped with the wet return in the II inside coil pipe exports on the heat exchanger and be connected with the solar energy water tank. The utility model discloses guarantee that the air supply temperature satisfies the comfortable requirement of people's body heat, can reduce the humidity of room air, reach energy -conserving purpose.

Description

A kind of kiln that is applicable to occupies the dehumidifying ventilating system of building

Technical field

This utility model belongs to construction engineering technical field, is specifically related to a kind of kiln that is applicable to and occupies the dehumidifying ventilating system of building.

Background technology

China is vast in territory, and wherein area, west, Henan, due to the geographical physical features of its complexity, causes kiln to occupy building and be widely used.The reasons such as although kiln occupies building has variform feature cool in summer and warm in winter of Denging, but its spatial shape is single, dark moist, air quality difference, cause Summer the most uncomfortable in the life of kiln room.Accordingly, it would be desirable to take way to occupy the ventilation in building and dehumidifying problem to solve kiln.And at present kiln occupies the ventilation of building is all to solve by opening shutter and air channel, even abandons kiln and occupy building and build brick mixed building, freeze by dress split-type air conditioner or warm oneself, it is done so that power consumption can be caused to increase severely, being unfavorable for the saving energy.

Summary of the invention

The technical problems to be solved in the utility model overcomes above-mentioned the deficiencies in the prior art exactly, and provide a kind of kiln that is applicable to occupy the dehumidifying ventilating system of building, while ensureing that wind pushing temperature meets human thermal comfort requirement, and reduce the humidity of room air, effectively utilize solar energy resources, groundwater resources to reach energy-conservation purpose.

For solving above-mentioned technical problem, the technical solution adopted in the utility model is:

Design a kind of kiln that is applicable to and occupy the dehumidifying ventilating system of building, including solid adsorption type desiccant wheel, pressure fan, total-heat exchanger, solar water container, heat exchanger I and II；Described desiccant wheel is provided with outdoor new wind entrance, damp and hot Waste gas outlet and dry air outlet, and wherein dry air outlet is connected with air blower inlet；

The outlet of described pressure fan is connected with gas access in heat exchanger I, and in heat exchanger I, gas outlet is connected with gas access on total-heat exchanger；Described total-heat exchanger is provided with ajutage and connects with in kiln room with backwind tube, and total-heat exchanger is provided with exhaust duct and is connected with gas access in heat exchanger II；

In described heat exchanger II, gas outlet connects with desiccant wheel；Described heat exchanger I is provided with underground well water conveying pipe and is connected with internal coil pipe, and in the return pipe of this heat exchanger, water can be as hot water of living；Described solar water container is provided with hot water feeding pipe and is connected with heat exchanger II inner disk tube inlet, and the internal coil outlets of heat exchanger II is provided with return pipe and is connected with solar water container.

Preferably, occupying the dehumidifying ventilating system of building above-mentioned be applicable to kiln, described solar water container is provided with groundwater supply pipeline and connects underground well water, and this pipeline is simultaneously provided with valve.

Preferably, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, the damp and hot Waste gas outlet of described desiccant wheel is provided with exhaust blower.

Preferably, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, described heat exchanger I and II is dividing wall type heat exchanger.

Preferably, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, the described air-supply mouth of pipe is located at the bottom in kiln room, and the return air mouth of pipe is located at the top in kiln room.

Operation principle of the present utility model is:

Desiccant wheel is combined by this utility model with complete heat-recovery heat exchanger, and utilizes solar energy to provide thermal source for desiccant wheel regeneration air stream, utilizes underground well water wind new to outdoor to carry out pre-cooling, reaches outdoor fresh air dehumidification and the purpose lowered the temperature.Utilize desiccant wheel wind new to outdoor to carry out dehumidifying specifically and obtain dry air, solar water container is utilized to prepare hot water, by heat exchanger II desiccant wheel regeneration air stream heated and make adsorbent in runner obtain regeneration, utilizing underground well water to carry out pre-cooling cooling by heat exchanger I wind new to outdoor, the return air utilizing complete heat-recovery heat exchanger to make indoor temperature relatively low carries out heat exchange with the new wind in outdoor dry air after processed.

The Advantageous Effects of technical solutions of the utility model is:

1, solar energy is prepared hot water and can be made full use of the natural resources, and provides heat for regeneration air stream, and in making desiccant wheel, solid absorbent obtains regeneration.The cold making full use of underground well water makes outdoor temperature reduce, and utilizes complete heat-recovery heat exchanger to make the cold of indoor return air be fully utilized.Thus while ensureing that wind pushing temperature meets human thermal comfort requirement, and reduce the humidity of room air, effectively utilize solar energy resources, groundwater resources and reach energy-conservation purpose.

Although 2, this system is compared split-type air conditioner and added initial investment, but at later stage running, operating cost is extremely low, and power consumption is little, and comfort level is high, it is possible to makes natural resources be fully used, reaches the purpose of energy-saving and emission-reduction.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described in further detail, wherein:

Fig. 1 is the structural representation that this utility model is applicable to that kiln occupies the dehumidifying ventilating system of building；

Sequence number in figure: 1, valve, 2, hot water feeding pipe, 3, heat exchanger II, 4, desiccant wheel, 5, return pipe, 6, pressure fan, 7, heat exchanger I, 8, total-heat exchanger, 9, ajutage, 10, backwind tube, 11, exhaust duct, 12, solar water container, 13, exhaust blower, 14, kiln room, 15, underground well water conveying pipe, 16, groundwater supply pipeline.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model; technical scheme in this utility model embodiment is carried out the most complete description; the most described embodiment is only this utility model schematic part detailed description of the invention; it is not limited to scope of the present utility model; any those skilled in the art, in the equivalent variations conceived without departing from this utility model and made on the premise of principle and amendment, all should belong to the scope of this utility model protection.

Seeing Fig. 1, in figure, this utility model is applicable to kiln and occupies the dehumidifying ventilating system of building, including desiccant wheel 4, pressure fan 6, total-heat exchanger 8, solar water container 12, heat exchanger I 7 and II 3.

Desiccant wheel is provided with outdoor new wind entrance, damp and hot Waste gas outlet and dry air outlet, and wherein dry air outlet is connected with air blower inlet；Pressure fan outlet is connected with gas access in heat exchanger I, and in heat exchanger I, gas outlet is connected with gas access on total-heat exchanger.

Total-heat exchanger is provided with ajutage 9 and connects with indoor, kiln room 14 with backwind tube 10, and total-heat exchanger is provided with exhaust duct 11 and is connected with gas access in heat exchanger II；In heat exchanger II, gas outlet connects with desiccant wheel.

Heat exchanger I is provided with underground well water conveying pipe 15 and is connected with internal coil pipe；Solar water container is provided with hot water feeding pipe 2 and is connected with heat exchanger II inner disk tube inlet, and the internal coil outlets of heat exchanger II is provided with return pipe 5 and is connected with solar water container.

Further, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, solar water container is provided with groundwater supply pipeline 16 and connects underground well water, and this pipeline is simultaneously provided with valve 1.

Further, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, the damp and hot Waste gas outlet of desiccant wheel is provided with exhaust blower 13.

Preferably, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, heat exchanger I and II is dividing wall type heat exchanger.

Preferably, occupying the dehumidifying ventilating system of building be applicable to kiln above-mentioned, the described air-supply mouth of pipe is located at the bottom in kiln room, and the return air mouth of pipe is located at the top in kiln room.

Time specifically used, valve 1 is opened when system is initially run, close after solar water container full water, summer, outdoor temperature was higher, water in solar water container can be heated to more than 60 DEG C, this part hot water is sent into dividing wall type heat exchanger I 3(along feed pipe 2 and is acted primarily as air heat effect) in, regeneration air stream (by the air draft of total-heat exchanger) is then by then skimming over from heating coil, during this, hot water makes air themperature raise air heating, in this partial air enters the renewing zone of desiccant wheel 4 afterwards, solid absorbent is made to regenerate, air is drained into after becoming damp and hot waste gas.And after the water in coil pipe completes to add the process of hot-air, water temperature reduces, entering solar water container along return pipe 5 is heated again, the most again completes the process of adsorbent reactivation.Outdoor new wind then completes dehumidifying by desiccant wheel, become the dry air that temperature is higher, pressurize through pressure fan 6, enter heat exchanger II 7(and act primarily as air cooling effect) in, it is chilled water coil in heat exchanger, this portion of cold water takes from rural area underground well water, temperature is relatively low, can be used to cool down air makes air themperature reduce, and cold water temperature raises, and this part water can be as hot water of living.After air themperature reduces, enter total-heat exchanger 8, the return air relatively low with indoor temperature carries out heat exchange, temperature sends into indoor along ajutage 9 after reducing further, and enters desiccant wheel along exhaust duct as regeneration air stream after the dry air heat exchange that return air and the new wind in outdoor are after processed and complete the process of solid absorbent regeneration.The air-supply mouth of pipe is located at the bottom in kiln room, and the return air mouth of pipe is located at the top in kiln room, uses the form of replacement aeration, makes human body obtain bigger thermal comfort sensation.

In this specification, each embodiment uses the mode gone forward one by one to be described, and what each embodiment stressed is the difference with other embodiments, and between each embodiment, identical similar part is cross-referenced.

Described above to disclosed embodiment, makes those skilled in the art be capable of or uses this utility model.Revising apparent to those skilled in the art to the many places of these embodiments, generic principles defined herein can realize on the premise of without departing from the spirit or scope of utility model in other embodiments.Therefore, this utility model will be not restricted to these embodiments illustrated herein, and be to fit to the widest range consistent with principles disclosed herein and features of novelty.

Claims (5)

1. it is applicable to kiln and occupies a dehumidifying ventilating system for building, it is characterized in that: include solid adsorption type desiccant wheel, pressure fan, total-heat exchanger, solar water container, heat exchanger I and II；Described desiccant wheel is provided with outdoor new wind entrance, damp and hot Waste gas outlet and dry air outlet, and wherein dry air outlet is connected with air blower inlet；

The outlet of described pressure fan is connected with gas access in heat exchanger I, and in heat exchanger I, gas outlet is connected with gas access on total-heat exchanger；Described total-heat exchanger is provided with ajutage and connects with in kiln room with backwind tube, and total-heat exchanger is provided with exhaust duct and is connected with gas access in heat exchanger II；

In described heat exchanger II, gas outlet connects with desiccant wheel；Described heat exchanger I is provided with underground well water conveying pipe and is connected with internal coil pipe；Described solar water container is provided with hot water feeding pipe and is connected with heat exchanger II inner disk tube inlet, and the internal coil outlets of heat exchanger II is provided with return pipe and is connected with solar water container.

The kiln that is applicable to the most according to claim 1 occupies the dehumidifying ventilating system of building, it is characterized in that: described solar water container is provided with groundwater supply pipeline and connects underground well water, and this pipeline is simultaneously provided with valve.

The kiln that is applicable to the most according to claim 1 occupies the dehumidifying ventilating system of building, it is characterized in that: the damp and hot Waste gas outlet of described desiccant wheel is provided with exhaust blower.

The kiln that is applicable to the most according to claim 1 occupies the dehumidifying ventilating system of building, it is characterized in that: described heat exchanger I and II is dividing wall type heat exchanger.

The kiln that is applicable to the most according to claim 1 occupies the dehumidifying ventilating system of building, it is characterized in that: the described air-supply mouth of pipe is located at the bottom in kiln room, and the return air mouth of pipe is located at the top in kiln room.