Solution dehumidification unit and air-conditioning system with it
Technical field
The present invention relates to air-conditioning equipment fields, in particular to a kind of solution dehumidification unit and with its air-conditioning system
System.
Background technology
Common solution dehumidification unit arranges that generally distributary form, air flow in the horizontal direction, solution for convenience
It is flowed along gravity direction, the heat and mass form of solution and air is distributary.Heat-recovery section is distinguished with dehumidifying section and regenerator section
It connects together, in order to improve the performance of device, each processing section generally can all be divided into multistage, and every grade all configures a solution pump.
The solution dehumidification unit of the distributary form of plural serial stage, is primarily present following problem:
1) the solution dehumidification unit heat and mass of distributary form is less efficient, causes the decline of entire unit operation performance;
2) every grade of each processing section is required for one solution pump of configuration, causes unit solution pump quantity more, operation control
System is complicated, and reliability reduces, and unit cost increases;
3) for the solution dehumidification unit of distributary form in order to reduce unit volume, distance is close between adjacent level, can cause molten
The liquid leakage of liquid, for example solution is from recuperation of heat to dehumidifying section or regenerator section string, the section that dehumidifies or regenerator section it is not at the same level between go here and there, lead
The solution blending for causing different temperatures, causes certain heat loss, influences unit working efficiency.
Invention content
It is existing to solve the main purpose of the present invention is to provide a kind of solution dehumidification unit and with its air-conditioning system
The less efficient problem of the solution dehumidification unit heat and mass of distributary form in technology.
To achieve the goals above, according to the first aspect of the invention, a kind of solution dehumidification unit is provided, including is removed
Wet device and regenerator, dehumidifier include dehumidifying tower body and the Dehumidifying element in dehumidifying tower body inner cavity are arranged, and regenerator includes regeneration
Tower body has interconnected fresh wind port and air outlet, fresh air with the regeneration unit in regenerator intracoelomic cavity, dehumidifying tower body is arranged
Mouth is opened in the bottom of dehumidifying tower body, and air outlet is opened in the top of dehumidifying tower body, so that outdoor fresh air is entered by fresh wind port
The inner cavity of dehumidifying tower body is simultaneously vertically flowed from the bottom to top, and makes outdoor fresh air when passing through Dehumidifying element and Dehumidifying element
Interior dehumidification solution mass transfer heat exchange;And/or there is regeneration tower body interconnected return air inlet and exhaust outlet, return air inlet to be opened in again
The bottom of raw tower body, exhaust outlet are opened in the top of regeneration tower body, so that indoor return air enters regeneration tower body by return air inlet
Inner cavity is simultaneously vertically flowed from the bottom to top, and keeps indoor return air molten with the dehumidifying in regeneration unit when passing through regeneration unit
Liquid mass transfer exchanges heat.
Further, dehumidifier further includes:First solution separation layer is arranged in the inner cavity of dehumidifying tower body with the tower body that will dehumidify
Inner cavity be divided into superposed dehumidifying chamber and the first recuperation of heat chamber positioned at lower part, Dehumidifying element setting is in dehumidifying chamber
It is interior;First heat recovery units, setting is in the first recuperation of heat intracavitary, for recycling into the outdoor fresh air of the first recuperation of heat intracavitary
Heat;Wherein, fresh wind port is connected to the first recuperation of heat chamber, and air outlet is connected to dehumidifying chamber.
Further, regenerator further includes:Second solution separation layer is arranged in the inner cavity of regeneration tower body will regenerate tower body
Inner cavity be divided into superposed regeneration chamber and the second recuperation of heat chamber positioned at lower part, regeneration unit setting is in regeneration chamber
It is interior;Second heat recovery units, setting is in the second recuperation of heat intracavitary, for recycling into the indoor return air of the second recuperation of heat intracavitary
Heat;Wherein, return air inlet is connected to the second recuperation of heat chamber, and exhaust outlet is connected to regeneration chamber.
Further, the second heat recovery units include:Second recuperation of heat filling block, setting is in the second recuperation of heat intracavitary and incites somebody to action
Second recuperation of heat chamber is divided into upper space and lower space;Second recuperation of heat liquid distributor is arranged in the upper of the second recuperation of heat chamber
Portion space, the second recuperation of heat liquid distributor are used to spray dehumidification solution to the second recuperation of heat filling block;Wherein, return air inlet and the second heat
The lower space of reclaiming chamber is connected to, with guide indoor return air enter the second recuperation of heat chamber and be sprayed at the second recuperation of heat filling block
On dehumidification solution mass transfer heat exchange.
Further, the second heat recovery units further include:Second solution line, one end of the second solution line and the second heat
Reclaiming chamber is connected to, and the other end of the second solution line is connected to the first heat recovery units;Second solution pump is arranged in the second solution
On pipeline, the dehumidification solution of the second recuperation of heat intracavitary is pumped to the first heat recovery units.
Further, the first heat recovery units include:First recuperation of heat filling block, setting is in the first recuperation of heat intracavitary and incites somebody to action
First recuperation of heat chamber is divided into upper space and lower space;First recuperation of heat liquid distributor is arranged in the upper of the first recuperation of heat chamber
Portion space, the first recuperation of heat liquid distributor are used to spray dehumidification solution to the first recuperation of heat filling block;Wherein, fresh wind port and the first heat
The lower space of reclaiming chamber is connected to, with guide outdoor fresh air enter the first recuperation of heat chamber and be sprayed at the first recuperation of heat filling block
On dehumidification solution mass transfer heat exchange.
Further, the first heat recovery units further include:First solution line, one end of the first solution line and the first heat
Reclaiming chamber is connected to, and the other end of the first solution line is connected to the second heat recovery units;First solution pump is arranged in the first solution
On pipeline, the dehumidification solution of the first recuperation of heat intracavitary is pumped to the second heat recovery units.
Further, the first solution separation layer includes:First isolation board, be provided on the first isolation board the first solution tank and
First air-permeating hole, the first solution tank and the setting of the first air-permeating hole interval, the first solution tank is for storing by being fallen in Dehumidifying element
Dehumidification solution, the first air-permeating hole be used for for outdoor fresh air pass through with enters dehumidify intracavitary.
Further, the first solution separation layer further includes:First blast cap is arranged above the first air-permeating hole, the first blast cap
Edge extend towards the first solution tank so that fallen directly into the first solution tank by the dehumidification solution of Dehumidifying element or
It is fallen under the guide functions of first blast cap in the first solution tank.
Further, the first solution tank, the first air-permeating hole and the first blast cap are multiple, multiple first solution tanks and multiple
The interlaced setting of first air-permeating hole, each first blast cap are arranged correspondingly in the top of each first air-permeating hole.
Further, Dehumidifying element includes:Dehumidify filling block, and setting is divided into top sky in dehumidifying intracavitary and by dehumidifying chamber
Between and lower space;Dehumidify liquid distributor, and the upper space in dehumidifying chamber is arranged, and dehumidifying liquid distributor is used for dehumidifying filling block sprinkling
Dehumidification solution;Wherein, air outlet with dehumidifying chamber upper space be connected to so that the outdoor fresh air after recuperation of heat be sprayed at
The dehumidification solution mass transfer to dehumidify on filling block exchanges heat to dehumidify to outdoor fresh air.
Further, Dehumidifying element further includes:Third solution line, one end of third solution line connect with the first solution tank
Logical, the other end of third solution line is connected to dehumidifying liquid distributor;Third solution pump is arranged on third solution line, third
Solution pump is used to the dehumidification solution in the first solution tank being pumped to dehumidifying liquid distributor.
Further, Dehumidifying element further includes:Solution line between the first order, one end of solution line and third between the first order
Solution line is connected to, and the other end of solution line is connected to regeneration unit between the first order.
Further, solution dehumidification unit further includes:Heat pump system, heat pump system include evaporator;Wherein, evaporator is set
It sets on third solution line, evaporator is for cooling down the dehumidification solution for flowing through third solution line.
Further, heat pump system is two sets, on the third solution line that the evaporators of two sets of heat pump systems is arranged at.
Further, the second solution separation layer includes:Second isolation board, be provided on the second isolation board the second solution tank and
Second air-permeating hole, the second solution tank and the second air-permeating hole interval are arranged, and the second solution tank is for storing by being fallen in regeneration unit
Dehumidification solution, the second air-permeating hole be used for for indoor return air pass through with enters regenerate intracavitary.
Further, the second solution separation layer further includes:Second blast cap is arranged above the second air-permeating hole, the second blast cap
Edge extend towards the second solution tank so that fallen directly into the second solution tank by the dehumidification solution of regeneration unit or
It is fallen under the guide functions of second blast cap in the second solution tank.
Further, the second solution tank, the second air-permeating hole and the second blast cap are multiple, multiple second solution tanks and multiple
The interlaced setting of second air-permeating hole, each second blast cap are arranged in a one-to-one correspondence in the top of multiple second air-permeating holes.
Further, regeneration unit includes:Regeneration filler block, setting are divided into top sky in regeneration intracavitary and by regeneration chamber
Between and lower space;Liquid distributor is regenerated, the upper space in regeneration chamber is set, regeneration liquid distributor is used to spray to regeneration filler block
Dehumidification solution;Wherein, exhaust outlet with regeneration chamber upper space be connected to so that the indoor return air by recuperation of heat be sprayed at again
Dehumidification solution mass transfer on raw filling block exchanges heat so that indoor return air takes away the moisture in dehumidification solution.
Further, regeneration unit further includes:4th solution line, one end and the second solution tank of the 4th solution line connect
Logical, the other end of the 4th solution line is connected to regeneration liquid distributor;4th solution pump is arranged on the 4th solution line, the 4th
Solution pump is used to the dehumidification solution in the second solution tank being pumped to regeneration liquid distributor.
Further, regeneration unit further includes:Solution line between the second level, between the second level one end and the 4th of solution line
Solution line is connected to, and the other end of solution line is connected to Dehumidifying element between the second level.
Further, solution dehumidification unit further includes:Heat pump system, heat pump system include condenser;Wherein, condenser is set
It sets on the 4th solution line, condenser is for heating the dehumidification solution for flowing through the 4th solution line.
Further, heat pump system is two sets, on the 4th solution line that the condensers of two sets of heat pump systems is arranged at.
According to the second aspect of the invention, a kind of air-conditioning system, including solution dehumidification unit, the solution dehumidification are provided
Unit is the above solution dehumidification unit.
Using the solution dehumidification unit of technical solution of the present invention, including dehumidifier and regenerator, dehumidifier includes dehumidifying tower
Body includes regeneration tower body and the regeneration in regenerator intracoelomic cavity is arranged with the Dehumidifying element in dehumidifying tower body inner cavity, regenerator is arranged
There is be interconnected fresh wind port and air outlet, fresh wind port to be opened in the bottom of dehumidifying tower body for unit, dehumidifying tower body, and air outlet opens up
At the top of dehumidifying tower body, so that outdoor fresh air enters the inner cavity and vertically from the bottom to top of dehumidifying tower body by fresh wind port
It exchanges heat with dehumidification solution mass transfer in Dehumidifying element when flowing, and outdoor fresh air being made to pass through Dehumidifying element;And/or regeneration tower body has
Interconnected return air inlet and exhaust outlet, return air inlet are opened in the bottom of regeneration tower body, and exhaust outlet is opened in the top of regeneration tower body
Portion so that indoor return air enters the inner cavity of regeneration tower body by return air inlet and vertically flows from the bottom to top, and makes interior
It exchanges heat with the dehumidification solution mass transfer in regeneration unit when return air passes through regeneration unit.To realize dehumidification solution and outdoor fresh air or
Indoor return air carries out mass transfer heat exchange with countercurrent flow.The solution dehumidification unit heat transfer for solving distributary form in the prior art passes
The less efficient problem of matter.
Description of the drawings
The accompanying drawings which form a part of this application are used to provide further understanding of the present invention, and of the invention shows
Meaning property embodiment and its explanation are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings:
Fig. 1 is optional a kind of structural schematic diagram of solution dehumidification unit according to embodiments of the present invention.
Wherein, above-mentioned attached drawing includes the following drawings label:
10, dehumidifier;11, dehumidify tower body;111, fresh wind port;112, air outlet;113, dehumidify chamber;114, the first recuperation of heat
Chamber;12, Dehumidifying element;121, dehumidify filling block;122, dehumidify liquid distributor;123, third solution line;124, third solution pump;
125, solution line between the first order;13, the first solution separation layer;131, the first isolation board;132, the first blast cap;133, first is molten
Liquid bath;14, the first heat recovery units;141, the first recuperation of heat filling block;142, the first recuperation of heat liquid distributor;143, the first solution
Pipeline;144, the first solution pump;20, regenerator;21, tower body is regenerated;211, return air inlet;212, exhaust outlet;213, chamber is regenerated;
214, the second recuperation of heat chamber;22, regeneration unit;221, regeneration filler block;222, liquid distributor is regenerated;223, the 4th solution line;
224, the 4th solution pump;225, solution line between the second level;23, the second solution separation layer;231, the second isolation board;232, second
Blast cap;233, the second solution tank;24, the second heat recovery units;241, the second recuperation of heat filling block;242, the second recuperation of heat cloth liquid
Device;243, the second solution line;244, the second solution pump;30, heat pump system;31, evaporator;32, condenser.
Specific implementation mode
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
Solution dehumidification unit according to the ... of the embodiment of the present invention, as shown in Figure 1, including dehumidifier 10 and regenerator 20, dehumidifying
Device 10 includes dehumidifying tower body 11 and the Dehumidifying element 12 in 11 inner cavity of dehumidifying tower body is arranged, and regenerator 20 includes regeneration 21 He of tower body
Regeneration unit 22 in 21 inner cavity of regeneration tower body is set, and dehumidifying tower body 11 has interconnected fresh wind port 111 and air outlet
112, fresh wind port 111 is opened in the bottom of dehumidifying tower body 11, and air outlet 112 is opened in the top of dehumidifying tower body 11, so that outdoor
Fresh air enters the inner cavity of dehumidifying tower body 11 by fresh wind port 111 and vertically flows from the bottom to top, and outdoor fresh air is made to exist
By exchanging heat with the dehumidification solution mass transfer in Dehumidifying element 12 when Dehumidifying element 12;And/or regeneration tower body 21 is with interconnected
Return air inlet 211 and exhaust outlet 212, return air inlet 211 be opened in the bottom of regeneration tower body 21, exhaust outlet 212 is opened in regenerator
The top of body 21, so that indoor return air enters the inner cavity and vertically from the bottom to top of regeneration tower body 21 by return air inlet 211
Flowing, and indoor return air is made to exchange heat with the dehumidification solution mass transfer in regeneration unit 22 when by regeneration unit 22.
Include using the solution dehumidification unit of technical solution of the present invention, including dehumidifier 10 and regenerator 20, dehumidifier 10
Dehumidifying tower body 11 and the Dehumidifying element 12 in dehumidifying tower body 11 inner cavity is set, regenerator 20 includes regeneration tower body 21 and is arranged again
The regeneration unit 22 of 21 inner cavity of raw tower body, dehumidifying tower body 11 have be interconnected fresh wind port and air outlet, and fresh wind port, which is opened in, to be removed
The bottom of wet tower body 11, air outlet is opened in the top of dehumidifying tower body 11, so that outdoor fresh air enters dehumidifying tower by fresh wind port
The inner cavity of body 11 is simultaneously vertically flowed from the bottom to top, and when outdoor fresh air being made to pass through Dehumidifying element 12 in Dehumidifying element 12
Dehumidification solution mass transfer exchanges heat;And/or there is regeneration tower body 21 interconnected return air inlet and exhaust outlet, return air inlet to be opened in regeneration
The bottom of tower body 21, exhaust outlet is opened in the top of regeneration tower body 21, so that indoor return air enters regeneration tower body by return air inlet
21 inner cavity is simultaneously vertically flowed from the bottom to top, and when indoor return air being made to pass through regeneration unit 22 in regeneration unit 22
Dehumidification solution mass transfer exchanges heat.To realize that dehumidification solution carries out mass transfer heat exchange with outdoor fresh air or indoor return air with countercurrent flow.
Solve the problems, such as that the solution dehumidification unit heat and mass of distributary form in the prior art is less efficient.
When it is implemented, dehumidifier 10 further includes the first solution separation layer 13 and the first heat recovery units 14, the first solution
Separation layer 13 be arranged dehumidifying tower body 11 inner cavity with by dehumidify tower body 11 inner cavity be divided into superposed dehumidifying chamber 113 with
And the first recuperation of heat chamber 114 positioned at lower part, wherein fresh wind port 111 is connected to the first recuperation of heat chamber 114, air outlet 112 with remove
Wet chamber 113 is connected to.Dehumidifying element 12 is arranged in the dehumidifying chamber 113 on top, and the first heat recovery units 14 are arranged the of lower part
In one recuperation of heat chamber 114, the first heat recovery units 14 are used to recycle the heat of the outdoor fresh air into the first recuperation of heat chamber 114
Amount dehumidifies to make outdoor fresh air progress recuperation of heat be sent again to Dehumidifying element 12, improves the operational efficiency of unit.
Further, regenerator 20 further includes the second solution separation layer 23 and the second heat recovery units 24, the second solution every
Absciss layer 23 be arranged regeneration tower body 21 inner cavity with by regenerate tower body 21 inner cavity be divided into superposed regeneration chamber 213 and
The second recuperation of heat chamber 214 positioned at lower part, wherein return air inlet 211 is connected to the second recuperation of heat chamber 214, exhaust outlet 212 and regeneration
Chamber 213 is connected to.Regeneration unit 22 is arranged in the regeneration chamber 213 on top;Second heat recovery units 24 are arranged the second of lower part
In recuperation of heat chamber 214, the second heat recovery units 24 are used to recycle the heat of the indoor return air into the second recuperation of heat chamber 214,
To be sent again to regeneration unit 22 and regenerated to dehumidification solution after so that indoor return air is carried out recuperation of heat, the operation effect of unit is improved
Rate.
Specifically, the first heat recovery units 14 include the first recuperation of heat filling block 141, the first recuperation of heat liquid distributor 142, the
One solution line 143 and the first solution pump 144, the setting of the first recuperation of heat filling block 141 is in the first recuperation of heat chamber 114 and by the
One recuperation of heat chamber 114 is divided into upper space and lower space;First recuperation of heat liquid distributor 142 is arranged in the first recuperation of heat chamber
114 upper space and the top for being located at the first recuperation of heat filling block 141, the first recuperation of heat liquid distributor 142 are used for the first heat
It recycles filling block 141 and sprays dehumidification solution;Wherein, fresh wind port 111 is connected to the lower space of the first recuperation of heat chamber 114, to draw
Outdoor fresh air is led into the first recuperation of heat chamber 114 and is changed with the dehumidification solution mass transfer being sprayed on the first recuperation of heat filling block 141
Heat;One end of first solution line 143 is connected to the first recuperation of heat chamber 114, the other end of the first solution line 143 and the second heat
Recovery unit 24 is connected to;First solution pump 144 is arranged on the first solution line 143, by removing in the first recuperation of heat chamber 114
Wet solution is pumped to the second heat recovery units 24.
Second heat recovery units 24 include the second recuperation of heat filling block 241, the second recuperation of heat liquid distributor 242, the second solution
Pipeline 243 and the second solution pump 244, the setting of the second recuperation of heat filling block 241 are returned in the second recuperation of heat chamber 214 and by the second heat
It receives chamber 214 and is divided into upper space and lower space;Second recuperation of heat liquid distributor 242 is arranged in the upper of the second recuperation of heat chamber 214
Portion space and the top for being located at the second recuperation of heat filling block 241, the second recuperation of heat liquid distributor 242 are used for the second recuperation of heat filler
Block 241 sprays dehumidification solution;Wherein, return air inlet 211 is connected to the lower space of the second recuperation of heat chamber 214, is returned so that guiding is indoor
Wind enters the second recuperation of heat chamber 214 and exchanges heat with the dehumidification solution mass transfer being sprayed on the second recuperation of heat filling block 241.Second is molten
One end of liquid pipeline 243 is connected to the second recuperation of heat chamber 214, the other end and the first heat recovery units of the second solution line 243
14 connections;Second solution pump 244 is arranged on the second solution line 243, and the dehumidification solution in the second recuperation of heat chamber 214 is pumped
It send to the first heat recovery units 14.
In specific installation, the dehumidification solution in the first heat recovery units 14 accumulates in the bottom of the first recuperation of heat chamber 114,
One end of first solution line 143 is connected to the bottom of the first recuperation of heat chamber 114, the other end of the first solution line 143 and
Second recuperation of heat liquid distributor 242 of two heat recovery units 24 is connected to, to realize the first heat recovery units 14 and the second recuperation of heat
The interstage flow of solution is dynamic between unit 24;Dehumidification solution in second heat recovery units 24 accumulates in the second recuperation of heat chamber 214
Bottom, the second solution line 243 are connected to the bottom of the second recuperation of heat chamber 214, the other end and first of the second solution line 243
First recuperation of heat liquid distributor 142 of heat recovery units 14 is connected to, to realize the second heat recovery units 24 and the first recuperation of heat list
The interstage flow of solution is dynamic between member 14.
Further, the first solution separation layer 13 includes the first isolation board 131, the first blast cap 132, the first solution tank 133
With the first air-permeating hole, the first isolation board 131 is mounted on along the cross-sectional direction of dehumidifying tower body 11 in 11 inner cavity of dehumidifying tower body
Portion by the inner cavity for the tower body 11 that dehumidifies so that be divided into superposed dehumidifying chamber 113 and positioned at the first recuperation of heat chamber of lower part
114.In order to while enabling that outdoor fresh air normally circulates between dehumidifying chamber 113 and the first recuperation of heat chamber 114, ensure dehumidifying chamber
113 and first dehumidification solution between recuperation of heat chamber 114 be effectively isolated, avoid the solution blending from causing thermal loss, first every
From the first solution tank 133 and the first air-permeating hole is provided on plate 131, the first solution tank 133 and the first air-permeating hole interval are arranged, the
One solution tank 133 is used to store the dehumidification solution by being fallen in Dehumidifying element 12, and the first air-permeating hole is returned for making by the first heat
The outdoor fresh air after 114 recuperation of heat of chamber is received to pass through to enter dehumidifying chamber 113;First blast cap 132 is arranged above the first air-permeating hole,
The edge of first blast cap 132 extends towards the first solution tank, so as to fall directly into first by the dehumidification solution of Dehumidifying element 12
In solution tank 133 or fallen into the first solution tank under the guide functions of the first blast cap 132.
Specifically, the first solution tank 133, the first air-permeating hole and the first blast cap 132 are multiple, multiple first solution tanks
133 it is spaced be arranged in the top of the first isolation board 131, multiple first air-permeating holes are opened on the first isolation board 131, often
Gap between a first air-permeating hole and adjacent two the first solution tanks 133 is opposite, to make multiple first solution tank, 133 Hes
Multiple interlaced settings of first air-permeating hole, each first blast cap 132 are arranged correspondingly in the upper of each first air-permeating hole
Side.Each first solution tank 133 is fallen directly by the dehumidification solution of Dehumidifying element 12, or is fallen in each first blast cap 132
On further along the upper surface of the first blast cap 132 flow into the first solution tank 133 barrier realized to 12 dehumidification solution of Dehumidifying element;
Outdoor fresh air after 114 recuperation of heat of the first recuperation of heat chamber passes through the first blast cap 132 and phase after penetrating each first air-permeating hole
Gap between two adjacent the first solution tanks 133 enters dehumidifying chamber 113, ensure the first recuperation of heat chamber 114 and dehumidifying chamber 113 it
Between outdoor fresh air it is unimpeded.
Second solution separation layer 23 is ventilative including the second isolation board 231, the second blast cap 232, the second solution tank 233 and second
Hole, the second isolation board 231 are mounted on the middle part of 21 inner cavity of regeneration tower body to regenerate along the cross-sectional direction of regeneration tower body 21
The inner cavity of tower body is divided into superposed regeneration chamber 213 and the second recuperation of heat chamber 214 positioned at lower part.In order to make regeneration chamber
213 and second indoor return air between recuperation of heat chamber 214 while can normally circulate, ensure regeneration chamber 213 and the second recuperation of heat
Dehumidification solution is effectively isolated between chamber 214, is avoided solution blending from causing thermal loss, is provided on the second isolation board 231
Second solution tank 233 and the second air-permeating hole, the second solution tank 233 and the second air-permeating hole interval are arranged, and the second solution tank 233 is used for
By the dehumidification solution fallen in regeneration unit 22, the second air-permeating hole is used to pass through for indoor return air regenerates chamber 213 to enter for storage
It is interior.Second blast cap 232 is arranged above the second air-permeating hole, and the edge of the second blast cap 232 extends towards the second solution tank 233, with
The dehumidification solution by regeneration unit 22 is set to fall directly into 233 guide functions interior or in the second blast cap 232 of the second solution tank
Under fall into the second solution tank 233.
Specifically, the second solution tank 233, the second air-permeating hole and the second blast cap 232 are multiple, multiple second solution tanks
233 it is spaced be arranged in the top of the second isolation board 231, multiple second air-permeating holes are opened on the second isolation board 231, often
Gap between a second air-permeating hole and adjacent two the second solution tanks 233 is opposite, to make multiple second solution tank, 233 Hes
Multiple interlaced settings of second air-permeating hole, each second blast cap 232 are arranged in a one-to-one correspondence in the top of each second air-permeating hole.
The second solution tank 233 is fallen directly by the dehumidification solution of regeneration unit 22, or is fallen on each second blast cap 232 again along
The upper surface of two blast caps 232, which flows into the second solution tank 233, to be realized to the barrier of 22 dehumidification solution volume of regeneration unit;By the second heat
Indoor return air after 214 recuperation of heat of reclaiming chamber is through passing through the second blast cap 232 and adjacent two the after each second air-permeating hole
Gap between two solution tanks 233 enters regeneration chamber 213, ensures indoor return air between the second recuperation of heat chamber 214 and regeneration chamber 213
It is unimpeded.
Further, Dehumidifying element 12 includes dehumidifying filling block 121, dehumidifying liquid distributor 122, third solution line 123, the
Solution line 125 between three solution pumps 124 and the first order, dehumidifying filling block 121 is arranged in dehumidifying chamber 113 and the chamber 113 that will dehumidify
It is divided into upper space and lower space;The upper space in dehumidifying chamber 113, third solution line is arranged in dehumidifying liquid distributor 122
123 one end is connected to the first solution tank 133, and the other end of third solution line 123 is connected to dehumidifying liquid distributor 122;Third
Solution pump 124 is arranged on third solution line 123, and third solution pump 124 is used for the dehumidification solution in the first solution tank 133
It is pumped to dehumidifying liquid distributor 122, dehumidifying liquid distributor 122 is used to spray dehumidification solution to dehumidifying filling block 121;Wherein, air outlet
112 with dehumidifying chamber 113 upper space be connected to so that the outdoor fresh air after recuperation of heat and be sprayed at dehumidify filling block 121
On dehumidification solution mass transfer exchange heat to be delivered to the interior space by air outlet after dehumidifying to outdoor fresh air.
One end of solution line 125 is connected to third solution line 123 between the first order, solution line 125 between the first order
The other end is connected to the second solution tank 233 of the second solution separation layer 23, to which the dehumidification solution of Dehumidifying element 12 to be delivered to
Regeneration unit 22, dehumidification solution exchanges between realization Dehumidifying element 12 and regeneration unit 22.
Further, regeneration unit 22 includes regeneration filler block 221, regeneration liquid distributor 222, the 4th solution line 223, the
Solution line 225 between four solution pumps 224 and the second level, the setting of regeneration filler block 221 is in regeneration chamber 213 and will regenerate chamber 213
It is divided into upper space and lower space;The upper space in regeneration chamber 213, the 4th solution line is arranged in regeneration liquid distributor 222
223 one end is connected to the second solution tank 233, and the other end of the 4th solution line 223 is connected to regeneration liquid distributor 222;4th
Solution pump 224 is arranged on the 4th solution line 223, and the 4th solution pump 224 is used to pump the dehumidification solution in the second solution tank
It send to regeneration liquid distributor 222, regeneration liquid distributor 222 is used to spray dehumidification solution to regeneration filler block 221;Wherein, exhaust outlet 212
With regeneration chamber 213 upper space be connected to so that the indoor return air by recuperation of heat be sprayed at removing on regeneration filler block 221
Wet solution mass transfer exchanges heat so that indoor return air is taken away the moisture in dehumidification solution and by 212 row of exhaust outlet to outside atmosphere.
One end of solution line 225 is connected to the 4th solution line 223 between the second level, solution line 225 between the second level
The other end is connected to the first solution tank 133 of the first solution separation layer 13, to which the dehumidification solution of regeneration unit 22 to be delivered to
Dehumidifying element 12, dehumidification solution exchanges between realization regeneration unit 22 and Dehumidifying element 12.
Further, solution dehumidification unit further includes heat pump system 30, and heat pump system 30 includes evaporator 31 and condenser
32, evaporator 31 is arranged on third solution line 123, and condenser 32 is arranged on the 4th solution line 223, and evaporator 31 is used
It is cooled down in the dehumidification solution for flowing through third solution line 123;Condenser 32 is used for flowing through the 4th solution line 223
Dehumidification solution is heated.
Further, heat pump system 30 is two sets, the third solution that the evaporators 31 of two sets of heat pump systems 30 is arranged at
On pipeline 123;On the 4th solution line 223 that the condenser 32 of two sets of heat pump systems 30 is arranged at.
Solution dehumidification unit according to the ... of the embodiment of the present invention, including dehumidifier 10 and regenerator 20.It is upper that dehumidifier 10, which divides,
Lower layer, upper layer are Dehumidifying element 12, and lower layer is the first heat recovery units 14, and levels are isolated molten by the first solution separation layer 13
Liquid, but air can be passed through.Regenerator 20 is equally divided into levels, and upper layer is regeneration unit 22, and lower layer is the second recuperation of heat list
Solution is isolated by the second solution separation layer 23 in member 24, levels, but can be by air, and collects the solution of upper layer reflux.
Dehumidifying element 12, the first heat recovery units 14, regeneration unit 22 and the second heat recovery units 24 need to be only with a solution pump
It can.
When unit operation, dehumidifying side room external air inlet enters the first recuperation of heat list from the fresh wind port 111 of 11 bottom of dehumidifying tower body
Member 14, flows up, and heat recovery solution countercurrent heat-transfer mass transfer, then by the first solution separation layer 13 after, it is single into dehumidifying
Member 12 sends out unit after dehumidification solution countercurrent heat-transfer mass transfer by the air outlet at 11 top of tower body of dehumidifying.It regenerates in side room and returns
Wind enters the second heat recovery units 24 from the return air inlet 211 of the bottom of regeneration tower body 21, flows up, with heat recovery solution adverse current
Then heat and mass enters regeneration unit 22 by the second solution separation layer 23.
The second heat recovery units 24 for being sent into regeneration side after flowing back except wet side heat recovery solution by the first solution pump 144 spray
Leaching is sent into except the first heat recovery units 14 of wet side spray by the second solution pump 244 after reflux, realizes following for heat recovery solution
Ring.
Cool down except the dehumidification solution of wet side is introduced into evaporator 31 after third solution pump 124, enters back into Dehumidifying element
12 sprays flow into the first solution tank 133, avoid enter into the first heat recovery units 14 after air heat and mass.Finally, pass through
Third solution line 123 is again introduced into circulated sprinkling after evaporator 31.
The dehumidification solution of regeneration side is introduced into the heating of condenser 32 after the 4th solution line 223, and it is single to enter back into regeneration
Member 22 sprays, and after air heat and mass, flows into the second solution tank 233, avoids enter into the second heat recovery units 24.Finally, lead to
It crosses the 4th solution line 223 and is again introduced into circulated sprinkling after condenser 32.
Third solution line 123 and the 4th solution line 223 respectively separate a branch as interstage flow solution, flow to respectively
Second solution tank 233 and the first solution tank 133.
Heat pump system 30 can make a set of or more sets, when covering heat pump system 30 more, solution side series connection.When air side does not have
When having recuperation of heat value, the first heat recovery units 14 and the second heat recovery units 24 can be closed, as without recuperation of heat
Solution dehumidifier operation.
The present invention is by being arranged the first solution separation layer 13 and the second solution separation layer 23, the processing of solution dehumidification unit
Flow makes countercurrent flow into, optimizes heat and mass transfer performance, improves unit performance.Reduce the quantity of solution pump simultaneously, reduces
Units consumption.Cap structure also avoids solution blending problem, reduces the blending heat loss of unit, further increases unit
Energy.Compared with conventional distributary dehumidifying unit, this counterflow configuration unit has performance high, and low energy consumption, advantage at low cost.
According to the second aspect of the invention, a kind of air-conditioning system, including solution dehumidification unit, the solution dehumidification are provided
Unit is the solution dehumidification unit of above-described embodiment.Using the air-conditioning system of the solution dehumidification unit of above-described embodiment, Neng Goushi
Existing dehumidification solution carries out mass transfer heat exchange with outdoor fresh air or indoor return air with countercurrent flow.Solves distributary shape in the prior art
The less efficient problem of the solution dehumidification unit heat and mass of formula.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.