A kind of dehumidifier
Technical field
Air dewetting field is the utility model is related to, is specifically related to a kind of dehumidifier.
Background technology
Dehumidifier is also known as dehumidifier, drying machine, dehumidifier, generally can be divided into civilian dehumidifier and industrial dehumidifier two is big
Class, the part belonged in air-conditioning family.Generally, conventional dehumidifier is by compressor, heat exchanger, fan, water container, casing
And controller composition.Its operation principle is:By fan by humid air suction machine, by heat exchanger, now in air
Hydrone is condensed into the globule, and outside the dry air discharge machine after treating, so circulation makes indoor humidity be maintained at suitable phase
To humidity.
In order to ensure higher heat exchanger effectiveness and higher dehumidifying rate, existing dehumidifier is generally provided with longer
Air channel.The time that can extend air by extending air channel and cool down, condense, but longer air channel necessarily causes whole dehumidifier
Bulky, operating power accordingly raises.Inevitably produce some energy wastes.
In addition, existing dehumidifier maximum operating temperature is generally 40 ° or so.When temperature be higher than 40 ° when, due to volume compared with
Greatly, the temperature of whole body raises, and temperature also accordingly raises in air channel, and longer air channel limits the heat exchange effect of air on the contrary
Fruit and effect on moisture extraction.
Utility model content
(1) technical problems to be solved
In view of the deficienciess of the prior art, the utility model provides a kind of small volume, efficiency high, maximum operating temperature height
Dehumidifier.
(2) technical scheme
To reach above-mentioned purpose, the utility model provides a kind of dehumidifier, including upper air duct, lower air duct, runner heat accumulation
Body, evaporator, condenser, driving motor and blower fan;
The upper air duct and lower air duct are isolated by median septum, and the right-hand member of the upper air duct is provided with air inlet, the leeward
The right-hand member in road is provided with air outlet, and the left end of the upper air duct is connected with lower air duct left end;
The upper end of the runner thermal store is located in the upper air duct, and the lower end of the runner thermal store is under described
In air channel, the driving motor drives the runner thermal store to rotate;
The evaporator, condenser and blower fan are from left to right sequentially arranged in the lower air duct, and the evaporator is located at
The left side of the runner thermal store is simultaneously mutually close with the lower end of the runner thermal store, and the condenser is located at the runner heat accumulation
The right side of body.
Further, air enters from the air inlet passes sequentially through the runner thermal store upper end, evaporator, runner heat accumulation
Body lower end, condenser, blower fan, and left from the air outlet.
Further, in addition to chain, the driving motor are connected with the runner thermal store by the chain drive.
Further, in addition to compressor, the compressor and the evaporator, condenser cooperating.
(3) beneficial effect
The utility model dehumidifier has advantages below:
1st, dehumidifier efficiency is substantially improved the rising of wet down degree at temperature after air precooling.
2nd, cool-heat-exchanger reduces 30% than conventional area, and compressor model also diminishes, and has saved cost.
3rd, operating ambient temperature is can further improve, 55 DEG C are brought up to from original 40 DEG C.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model dehumidifier;
Wherein, 1 is median septum, and 2 be rear board, and 3 be top panel, and 4 be thermal store fixed frame, and 5 be runner thermal store, and 6 are
Front panel, 7 be bottom plate, and 8 be evaporator, and 9 be driving motor, and 10 be chain, and 11 be condenser, and 12 be compressor, and 13 be blower fan,
14 be upper air duct, and 15 be lower air duct, and 30 be air inlet, and 31 be gas outlet, and 5a is runner thermal store upper end, and 5b is runner thermal store
Lower end.
Embodiment
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Embodiment is used to illustrate the utility model, but is not limited to the scope of the utility model.
A kind of structure of dehumidifier of the present utility model is as shown in figure 1, including upper air duct 14, lower air duct 15, runner heat accumulation
Body 5, evaporator 8, condenser 11, driving motor 9 and blower fan 13;
The upper air duct 14 and lower air duct 15 are isolated by median septum 1, and the right-hand member of the upper air duct 14 is provided with air inlet 30,
The right-hand member of the lower air duct 1 is provided with air outlet 31, and the left end of the upper air duct 14 is connected with the left end of lower air duct 15;
The upper end of the runner thermal store 5 is located in the upper air duct 14, and the lower end of the runner thermal store 5 is located at institute
State in lower air duct 15, the driving motor 9 drives the runner thermal store 5 to rotate;
The evaporator 8, condenser 11 and blower fan 13 are from left to right sequentially arranged in the lower air duct 15, the evaporation
Device 8 is located at the left side of the runner thermal store 5 and mutually close with the lower end of the runner thermal store 5, and the condenser 11 is located at
The right side of the runner thermal store 5.Arrow represents gas flow in figure.
Above-mentioned direction " left and right ", " upper and lower " merely for convenience of description with understand technical side of the present utility model
Case, it is not excluded that implement the utility model in the form of other directions arrange.It is readily apparent that for those skilled in the art, will be upper
State and swap left and right, technical solutions of the utility model can also be implemented up and down by exchanging.Because the selection that this side up can be it is arbitrary, only
Want the mutual position relationship of each component and the present embodiment describe it is consistent.
Specifically, the utility model dehumidifier includes top panel 3, median septum 1, bottom plate 7, front panel 6 and rear board 2,
Upper air duct 14 wherein is formed among top panel 3 and median septum 1, lower air duct 15 is formed between median septum 1 and bottom plate 7.The He of top panel 3
The thermal store fixed frame 4 across median septum 1 is provided between bottom plate 7, runner thermal store 5 is arranged on thermal store fixed frame 4.Above
Plate 6 be mounted above the left end of plate 3 and bottom plate 7 and with median septum 1 distance away, so as to realize upper air duct 14 and leeward
The connection in road 15.Rear board 2 then connects with top panel 3, median septum 1, bottom plate 7 simultaneously, for separating upper air duct 14 and lower air duct
15 right-hand member.Air inlet 30 is arranged above the right-hand member of plate 3, and air outlet 31, which is then arranged on rear board 2, is located at median septum 1 and bottom
Between plate 7.
During work, air enters from the air inlet 30 to be passed sequentially through the runner thermal store upper end 5a, evaporator 8, turns
Thermal store lower end 5b, condenser 11, blower fan 13 are taken turns, and is left from the air outlet 31.
Different from traditional dehumidifier, the water condensation in the utility model in air is directly to be carried out on evaporator 8.
The water condensed out is discharged from 8 default pipeline of evaporator.Before air enters evaporator, air is first via on runner thermal store
Hold 5a precoolings.And the cold air of the drying from evaporator 8 out then passes through runner thermal store lower end 5b, runner thermal store is cooled down
Lower end 5b.And runner thermal store lower end 5b and runner thermal store upper end 5a changes further through driving motor 9.After realizing condensation
Cold air and room temperature hot-air realize heat exchange.Above heat exchange structure compared to the heat exchange structure in conventional dehumidification machine,
Volume is smaller, and heat exchanger effectiveness is higher.Runner thermal store 5 realizes first thermal cycle of air.
Evaporator 8 and the corresponding work of condenser 11 simultaneously, air is cooled by evaporator 8, and is heated by condenser 11, so as to
Condensed air is set to reach in room temperature horizontal row enters the room.Evaporator 8 and condenser 11 realize second thermal cycle of air.
Two above thermal cycle can greatly improve the heat exchanger effectiveness and dehumidification rate of dehumidifier, so that simplifying air channel
It is possibly realized.Whole product structure is compacter, compact, and substantially reduces the influence that environment temperature works dehumidifier, carries
The maximum operating temperature of high dehumidifier.
In the present embodiment, in addition to chain 10, the driving motor 9 pass through the chain with the runner thermal store 5
10 transmissions are connected.
In the present embodiment, in addition to compressor 12, the compressor 12 coordinate work with the evaporator 8, condenser 11
Make.
The beneficial effects of the utility model:
1. dehumidifier efficiency is substantially improved the rising of wet down degree at temperature after air precooling.
2. cool-heat-exchanger reduces 30% than conventional area, compressor model also diminishes, and has saved cost.
3. can further improve operating ambient temperature, 55 DEG C are brought up to from original 40 DEG C.
Described above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art
For art personnel, on the premise of the utility model technical principle is not departed from, some improvements and modifications can also be made, these change
Enter and retouch and also should be regarded as the scope of protection of the utility model.