CN205261791U - Solution heat recovery unit structure - Google Patents

Abstract

The utility model relates to a solution heat recovery unit structure, including regenerating unit and dehumidification unit, wind accuse unit, and set up the solution pump on the solution return circuit between regenerating unit and dehumidification unit, the solution pump includes actified solution pump and dehumidification solution pump, regenerating unit and dehumidification unit all include follows a supreme album liquid case, filler, the cloth liquid device of being equipped with in proper order down, collection liquid bottom of the case portion among the regenerating unit passes through pipe connection dehumidification solution pump and links to each other with cloth liquid device in the dehumidification unit, the dehumidification unit in collection liquid bottom of the case portion pass through pipe connection actified solution pump with regenerating unit's cloth liquid device links to each other, wind accuse unit include that new trend fan and regenerated wind are quick -witted, regenerating unit, dehumidification unit place about for and adopt foam thermal insulation board sealed the wall to form two independent air duct separately between the two, be fresh air pipeline, the passageway of airing exhaust respectively, the pollution to causing fresh air is ganged up each other to effectual wet transmission of heat and the gas avoided.

Description

Solution heat recovery unit structure

Technical field

The utility model relates to a kind of solution heat recovery unit structure, relates in particular to and utilizes solution to dehumidify or the solution heat recovery air conditioner unit structure of damping, and the utility model belongs to field of heating ventilation air conditioning.

Background technology

Energy-saving and emission-reduction, build a resource-conserving society and become when last very important work, in life, because having accounted for, the energy consumption of central air-conditioning builds 40 ~ 60% of total energy consumption, so reducing central air conditioner system energy consumption becomes an important directions of whole society's energy-saving and emission-reduction; In HVAC industry and engineering use, except thermal and humidity environment, indoor air quality also receives increasing concern; Outdoor new wind is aspect getting rid of the germ that may exist in indoor CO2 and VOC and dilution chamber, obviously be better than indoor return air, but consider the operation energy consumption of new blower fan, making to increase resh air requirement is restricted, adopting full heat recovery method is the effective ways that reduce new wind and process energy consumption, but the full heat recovery devices such as rotary-type, plate-fin can not be avoided the cross pollution of new wind and indoor exhaust wind; The general employing up and down of solution recuperation of heat in traditional solution dehumidification system arranged, filler regeneration above, filler dehumidifying below, solution two fillers of need to flowing through from top to down of regeneration complete a circulation, so new wind and air exhaust passage utilize the one-way of filler to cut off, easily cause the crossfire between air, cannot ensure the cleanliness factor of new wind.

Along with the Application and Development of solution dehumidification system, solution system improves and the further energy-conservation problem instantly that also becomes, simultaneously for further energy-saving and cost-reducing, in dehumidifier inside, heat recovery function section can be set, extraneous new wind carries out the wet exchange of heat with indoor exhaust wind in heat-recovery section, carries out energy recovery, sends into next stage treating apparatus be further processed through pretreated air, can effectively reduce the configuration of next stage treating apparatus, reach the object of saving initial investment cost and operating cost.

Therefore, improve indoor air quality and the contradiction that reduces new wind processing energy consumption in order to solve, solution heat recovery type fresh air machine has been proposed, the new blower fan of this kind of form has higher total heat recovery efficiency, and solution has sterilization dustproof function, can avoid the cross pollution of new wind and indoor exhaust wind, when reducing energy consumption, the volume that reduces unit, facilitates installation and debugging, solves the problem and shortage of aforementioned schemes by following technical proposals design improvement.

Summary of the invention

The object of the technical program is to overcome the deficiencies in the prior art, a kind of solution heat recovery unit structure is provided, adopt foaming insulation board sealing to cut off to form two air ducts independently separately, Dehumidifying element and regeneration unit solution adopt independent loops, effectively avoid hot wet transmission and gas mutually to gang up, can solve the problem of the air crossfire in solution heat recycle process, stop exhaust air mixing and in fresh air, fresh air has been polluted.

The object of the technical program, will be achieved by the following technical programs:

Solution heat recovery unit structure, comprises regeneration unit and Dehumidifying element, wind control unit, and is arranged on the solution pump on the solution loop between regeneration unit and Dehumidifying element, and described solution pump comprises actified solution pump and dehumidification solution pump; Described regeneration unit and Dehumidifying element include and are provided with successively from bottom to up catch box, filler, liquid distributor, and the catch box bottom in described regeneration unit connects dehumidification solution pump by pipeline and is connected with the liquid distributor in Dehumidifying element; Catch box bottom in described Dehumidifying element connects actified solution pump by pipeline and is connected with the liquid distributor of described regeneration unit; Described wind control unit comprises new wind blower fan and regeneration blower fan; It is characterized in that: described regeneration unit, Dehumidifying element is that left and right is placed and adopts foaming insulation board sealing to cut off to form two air ducts independently separately between the two, is respectively new wind passage, air exhaust passage; Described Dehumidifying element and regeneration unit solution adopt independent loops, can independently control as required liquid inventory.

The application of the technical program structure, its outstanding effect shows as:

1, the regeneration unit of the technical program and Dehumidifying element adopt independent ventiduct, the middle foaming insulation board sealing partition that adopts, has effectively avoided the crossfire between new air draft, has stopped exhaust air mixing and in fresh air, fresh air has been polluted, reduce energy consumption, promoted overall efficiency.

2, in the technical program, the regeneration unit of unit and Dehumidifying element are respectively an independent entirety, all adopt the mounting means of console mode, effectively reduce the load-bearing of frame, reduce the production cost of frame, ensure unit performance, reduce work on the spot amount.

3, the technical program and the comparison of prior art scheme, the advantage also having is that the solution of described regeneration unit, Dehumidifying element is by different solution pump control, is conducive to the independent flow of controlling solution, convenient control.

Below in conjunction with embodiment accompanying drawing, detailed description of the invention of the present utility model is done further to decompose, so that the technical program is easier to understand, grasp.

Brief description of the drawings

Fig. 1 is that the schematic diagram master of the utility model solution heat recovery unit structure looks part;

Fig. 2 is that the schematic diagram of the utility model solution heat recovery unit structure is overlooked part;

In figure, the implication of Reference numeral is:

1-actified solution pump, 2-dehumidification solution pump, 3-regeneration blower fan, the new wind blower fan of 4-, 5-catch box, 6-filler, 7-liquid distributor, 8-foaming insulation board, 201-regeneration unit, 301-Dehumidifying element, 401-wind control unit.

Detailed description of the invention

As shown in Figure 1, solution heat recovery unit structure, comprise regeneration unit 201 and Dehumidifying element 301, wind control unit 401, and be arranged on the solution pump on the solution loop between regeneration unit 201 and Dehumidifying element 301, described solution pump comprises actified solution pump 1 and dehumidification solution pump 2; Described regeneration unit 201 and Dehumidifying element 301 include and are provided with successively from bottom to up catch box 5, filler 6, liquid distributor 7, and catch box 5 bottoms in described regeneration unit 201 connect dehumidification solution pump 2 by pipeline and are connected with the liquid distributor 7 in Dehumidifying element 301; Catch box 5 bottoms in described Dehumidifying element 301 connect actified solution pump 1 by pipeline and are connected with the liquid distributor 7 of described regeneration unit 201; Described wind control unit 401 comprises new wind blower fan 4 and regeneration blower fan 3.

Described regeneration unit 201, Dehumidifying element 301 are placed and adopt foaming insulation board 8 sealings to cut off to form two air ducts independently separately between the two for left and right, are respectively new wind passage, air exhaust passage; Effectively avoid hot wet transmission and gas mutually to gang up; Described Dehumidifying element 301 and regeneration unit 201 solution adopt independent loops, can independently control as required liquid inventory.

Described regeneration unit 201 is driven by actified solution pump 1, and Dehumidifying element 301 is driven by dehumidification solution pump 2, and two solution pumps are independently controlled; Described regeneration unit 201, Dehumidifying element 301 all contain salting liquid.

Further, the concentrated solution that contains salting liquid carries out with extraneous fresh air through pressurize Dehumidifying element 301 that lifting enters recuperation of heat of dehumidification solution pump 2 that heat is wet to be exchanged, absorb moisture in air and heat, solution becomes weak solution that temperature is slightly high gets back to the liquor box 5 of Dehumidifying element, hot and humid new eolianly sends into next step processing unit by new wind blower fan 4 for comparatively nice and cool dry wind; Through actified solution pump 1, the lifting of pressurizeing enters the regeneration unit 201 of recuperation of heat to weak solution after temperature raises, carry out the wet exchange of heat with the air draft air of indoor low temperature low humidity, wet to air releasing heat, solution becomes the lower slightly concentrated solution of temperature gets back to the liquor box 5 of regeneration unit, the air draft air of low temperature and low humidity becomes Hot wet air heating and is discharged to outdoorly, and solution completes a complete solution dehumidification regeneration cycle.

Further, described wind control unit 401 comprises new wind blower fan 4 and 3 two autonomous systems of regeneration blower fan, and the middle foaming insulation board 8 that adopts cuts off; Described new wind blower fan 4 is sent outdoor new wind into Dehumidifying element 301, in Dehumidifying element 301 fillers 6, carries out the wet exchange of heat with the concentrated solution of relative low temperature, sends into next step processing unit after dehumidifying and cooling; Simultaneously, utilize regeneration blower fan 3 that indoor exhaust wind is sent into regeneration unit 201, in regeneration unit 201 fillers 6, carry out the wet exchange of heat with the weak solution of relatively-high temperature, Hot wet air heating is discharged from outdoor, regeneration wind is taken away the moisture in weak solution, to reach the object of regeneration of waste liquor.

Described regeneration unit 201 and Dehumidifying element 301 include and are provided with successively from bottom to up catch box 5, filler 6, liquid distributor 7; Catch box 5 bottoms in described regeneration unit 201 connect dehumidification solution pump 2 by pipeline and are connected with the liquid distributor 7 in Dehumidifying element 301; Catch box 5 bottoms in Dehumidifying element 301 connect actified solution pump 1 by pipeline and are connected with the liquid distributor 7 of described regeneration unit 201.

Finally it should be noted that; above embodiment is in order to illustrate preferred embodiment of the present utility model; this technical scheme is not done to restriction further; in this area, this technical scheme modified and be equal to replacement, and the routine that this technical scheme is carried out changes and the replacement of unsubstantiality all should be included in the protection domain of present patent application.

Claims (4)

1. solution heat recovery unit structure, comprise regeneration unit (201) and Dehumidifying element (301), wind control unit (401), and being arranged on the solution pump on the solution loop between regeneration unit (201) and Dehumidifying element (301), described solution pump comprises actified solution pump (1) and dehumidification solution pump (2); Described regeneration unit (201) and Dehumidifying element (301) include and are provided with successively from bottom to up catch box (5), filler (6), liquid distributor (7), and catch box (5) bottom in described regeneration unit (201) connects dehumidification solution pump (2) by pipeline and is connected with the liquid distributor (7) in Dehumidifying element (301); Catch box (5) bottom in described Dehumidifying element (301) connects actified solution pump (1) by pipeline and is connected with the liquid distributor (7) of described regeneration unit (201); Described wind control unit (401) comprises new wind blower fan (4) and regeneration blower fan (3); It is characterized in that: described regeneration unit (201), Dehumidifying element (301) are placed and adopt foaming insulation board (8) sealing to cut off to form two air ducts independently separately between the two for left and right, are respectively new wind passage, air exhaust passage; Described Dehumidifying element (301) and regeneration unit (201) solution adopt independent loops, can independently control as required liquid inventory.

2. the solution heat recovery unit structure of stating according to claim 1, is characterized in that: described regeneration unit (201), Dehumidifying element (301) all contain salting liquid.

3. the solution heat recovery unit structure of stating according to claim 1, is characterized in that: described regeneration unit (201) is driven by actified solution pump (1), and Dehumidifying element (301) is driven by dehumidification solution pump (2), and two solution pumps are independently controlled.

4. the solution heat recovery unit structure of stating according to claim 1, it is characterized in that: described new wind blower fan (4) is sent outdoor new wind into Dehumidifying element (301), in Dehumidifying element (301) filler (6), carry out the wet exchange of heat with the concentrated solution of relative low temperature, after dehumidifying and cooling, send into next step processing unit; Meanwhile, utilize regeneration blower fan (3) that indoor exhaust wind is sent into regeneration unit (201), in regeneration unit (201) filler (6), carry out the wet exchange of heat with the weak solution of relatively-high temperature, Hot wet air heating is discharged from outdoor, and regeneration wind is taken away the moisture in weak solution.