CN203928154U - A kind of wet device of control with rotary door structure - Google Patents
A kind of wet device of control with rotary door structure Download PDFInfo
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- CN203928154U CN203928154U CN201420322669.8U CN201420322669U CN203928154U CN 203928154 U CN203928154 U CN 203928154U CN 201420322669 U CN201420322669 U CN 201420322669U CN 203928154 U CN203928154 U CN 203928154U
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Abstract
The utility model relates to the wet device technique of control field, especially a kind of wet device of control with rotary door structure.It comprises control wet wind logos and utensils and air inlet/outlet controller; In air inlet/outlet controller, be provided with CD-ROM drive motor, the tail end of the output shaft of CD-ROM drive motor is connected with revolving door, offers several the first air ports on described revolving door; Air inlet/outlet controller is connected in the front end of control wet wind logos and utensils by brace, offer rotating hole position on brace, and revolving door contraposition is entrenched in rotating hole position; After CD-ROM drive motor control revolving door rotates with respect to rotating hole position, the first air port is connected with the part air channel of control wet wind logos and utensils.The utility model can be realized the switching in the turnover air channel in control wet wind logos and utensils by the revolving door arranging, and by coordinating air inlet/outlet controller to realize the wet speed of air control and on off control, and then realize the accurate control of humidity; Its simple and ingenious structure, air gap is little, be difficult for gas leakage, fast response time, safety and reliability are high, has very strong practicality.
Description
Technical field
The utility model relates to the wet device technique of control field, especially a kind of wet device of control with rotary door structure.
Background technology
Moistureproof and waterproof is basic conditions for electric elements, moisture vapor can be accelerated the corrosion, defective insulation, loose contact of components and parts, the service life of leaking electricity, slowing down electric elements, but also can cause uncontrollable action, bring great hidden danger to safe operation.
At present, mostly need to carry out moistureproof and waterproof processing for most of precisions or common electrical control cubicles, to ensure air humidity control in certain volume space, and generally there is following situation in this kind equipment: 1, wet device is not controlled in assembling accordingly; 2, realize simple control wet process by install fan on the sidewall of electrical control cubicles; 3, installing complex structure, bulky dehumidifier; So, not only cannot realize the wet effect of good control, and can have a strong impact on the advanced electrical equipment or the sensitive equipment that are installed in electrical control cubicles.
Therefore, be necessary to provide a kind of control wet device, think that electrical control cubicles provides a safe and reliable running environment.
Utility model content
The deficiency existing for above-mentioned prior art, the purpose of this utility model be to provide a kind of simple in structure, wet effect of control significantly, fast response time, the controlled wet device of the control with rotary door structure of the wet process of control.
To achieve these goals, the utility model adopts following technical scheme:
Have the wet device of control of rotary door structure, it comprises that be used to air mobile provides the control wet wind logos and utensils of the circulation path of turning back and for guiding air to control the air inlet/outlet controller of wet process via control wet wind logos and utensils;
In described air inlet/outlet controller, be provided with CD-ROM drive motor, the tail end of the output shaft of described CD-ROM drive motor is connected with revolving door, offers several the first air ports on described revolving door;
Described air inlet/outlet controller is connected in the front end of control wet wind logos and utensils by brace, offer rotating hole position on described brace, and described revolving door contraposition is entrenched in rotating hole position;
After described CD-ROM drive motor control revolving door rotates with respect to rotating hole position, described the first air port is connected with the part air channel of control wet wind logos and utensils.
Preferably, between described control wet wind logos and utensils and brace, be provided with heat insulating mattress between air inlet/outlet controller and brace, on described heat insulating mattress, offer sleeve joint hole and several second air ports that can be connected with the first air port for the output shaft of accommodating CD-ROM drive motor.
Preferably, it also comprises that one for regulating and controlling the electric controller of CD-ROM drive motor and other electric components, and described electric controller is connected in the front end of air inlet/outlet controller.
Preferably, described control wet wind logos and utensils comprises one section of cavity housing, in described one section of cavity housing, be provided with front molecular sieve bag end cap and rear molecular sieve bag end cap, described front molecular sieve bag end cap and rear molecular sieve bag end cap are divided into the inner space of one section of cavity housing the turnover air compartment, chamber, air channel and the transporting room that distribute successively from front to back;
The indoor first spatial separation part that is provided with in described air channel, between described the first spatial separation part and the inwall of one section of cavity housing, be formed with some separate axial ducts, in described axial ducts, be equipped with drier, described front molecular sieve bag end cap with on rear molecular sieve bag end cap, all offer several the 3rd air ports with the corresponding connection of axial ducts;
The indoor horizontal demarcation strip that is provided with of described air inlet/outlet, described horizontal demarcation strip is divided into the inner space of turnover air compartment the inlet air plenum that can be connected with the first air inlet and goes out air compartment.
Preferably, what described the first spatial separation part comprised sleeve pipe and several ring week is connected in axially demarcation strip of first on sleeve outer wall, on the inwall of described one section of cavity housing, the position corresponding with the first axial demarcation strip be provided with the first axial socket, the outer face of the described first axial demarcation strip is contained in the first axial socket;
Described axial ducts are formed between the inwall and adjacent two first axial demarcation strips of the outer wall of sleeve pipe, one section of cavity housing.
Preferably, be also provided with several second axial socket on the outer wall of described sleeve pipe, be plugged with the second axial demarcation strip in described the second axial socket, the described second axial demarcation strip is between two first adjacent axial demarcation strips.
Preferably, described sleeve pipe comprises main sleeve pipe and several auxiliary set pipes, and described auxiliary set pipe is connected on the outer wall of main sleeve pipe, the inner chamber of described auxiliary set pipe and the intracavity inter-connection of main sleeve pipe;
The described first axial demarcation strip is connected on the outer wall of main sleeve pipe and/or auxiliary set pipe; In described auxiliary set pipe, be also socketed with heating rod.
Preferably, described air inlet/outlet controller comprises two sections of cavity housings, in described two sections of cavity housings, be provided with second space separator, between described second space separator and the inwall of two sections of cavity housings, be formed with several separate and can be connected with the first air port air intake district and wind outlet areas; Described CD-ROM drive motor is contained in second space separator.
Preferably, on the sidewall of described two sections of cavity housings, corresponding to offering respectively air inlet and air outlet on the position of air intake district and wind outlet area, on described air inlet and/or air outlet, be equiped with fan.
Owing to having adopted such scheme, the utility model can be realized the switching in the turnover air channel in control wet wind logos and utensils by the revolving door arranging, and by coordinating air inlet/outlet controller to realize the wet speed of air control and on off control, and then realize the accurate control of humidity; And the electrical equipment that adopts rotary door structure to make to control wet device remains static all the time, can effectively evade traditional moisture control device because electrical equipment causes short, the problem such as security is low in electrical equipment service life with the version of drive motors rotation; Its simple and ingenious structure, air gap is little, be difficult for gas leakage, fast response time, safety and reliability are high, has very strong practicality and market popularization value.
Brief description of the drawings
Fig. 1 is the overall structure schematic diagram of the utility model embodiment;
Fig. 2 is the decomposition texture schematic diagram of the utility model embodiment;
Fig. 3 is the overall structure schematic diagram of the control wet wind logos and utensils of the utility model embodiment;
Fig. 4 is that the control wet wind logos and utensils of the utility model embodiment is at the internal structure schematic diagram of cutting open under state;
Fig. 5 is the planar structure schematic diagram of the internal structure of the control wet wind logos and utensils of the utility model embodiment;
Fig. 6 is the structural representation () of the air inlet/outlet controller of the utility model embodiment;
Fig. 7 is the structural representation (two) of the air inlet/outlet controller of the utility model embodiment;
Fig. 8 is the planar structure schematic diagram of the revolving door of the utility model embodiment;
Fig. 9 is the planar structure schematic diagram of the brace of the utility model embodiment;
Figure 10 is the planar structure schematic diagram of the heat insulating mattress of the utility model embodiment;
Figure 11 is the front molecular sieve bag end cap of the utility model embodiment and the planar structure schematic diagram of rear molecular sieve bag end cap.
In figure:
A, control wet wind logos and utensils; B, air inlet/outlet controller; C, electric controller; 1, CD-ROM drive motor; 2, revolving door; 2-1, the first air inlet; 3, brace; 3-1, rotating hole position; 4, heat insulating mattress; 4-1, sleeve joint hole; 4-2, the second air port; 5, one section of cavity housing; 5-1, turnover air compartment; 5-2, transporting room; 5-3, axial ducts; 5-4, the first axial socket; 6, front molecular sieve bag end cap; 6-1, the 3rd air port; 7, rear molecular sieve bag end cap; 7-1, the 3rd air port; 8, the first spatial separation part; 8-1, sleeve pipe; 8-1-1, main sleeve pipe; 8-1-2, auxiliary set pipe; 8-2, the first axial demarcation strip; 8-3, the second axial socket; 9, horizontal demarcation strip; 10, the second axial demarcation strip; 11, heating rod; 12, two sections of cavity housings; 12-1, air inlet; 12-2, air outlet; 13, second space separator; 14, three sections of cavity housings; 15, first end surface cover; 16, the second end face cover plate.
Detailed description of the invention
Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.
As shown in Figure 1 to 11, a kind of wet device of control with rotary door structure that the utility model provides, it comprise be used to air mobile the control wet wind logos and utensils a of the circulation path of turning back is provided, for guiding air to control the air inlet/outlet controller b of wet process via control wet wind logos and utensils a and for driving the electric controller c of the electric component in control wet wind logos and utensils a and air inlet/outlet controller b, air inlet/outlet controller b is connected between control wet wind logos and utensils a and electric controller c; In air inlet/outlet controller b, be provided with CD-ROM drive motor 1, be connected with revolving door 2 at the tail end of the output shaft of CD-ROM drive motor 1, on revolving door 2, offer several first air ports 2-1; Air inlet/outlet controller b is connected in the front end of control wet wind logos and utensils a by brace 3, on brace 3, offer the rotating hole position 3-1 matching with the shape of revolving door 2, when after control wet wind logos and utensils a and air inlet/outlet controller b assembling, revolving door 2 contrapositions are entrenched in the 3-1 of rotating hole position.So, can utilize CD-ROM drive motor 1 to control revolving door 2 rotates with respect to rotating hole position 3-1, the first air port 2-1 is connected with the part air channel (being air inlet duct or exhaust passage) in control wet wind logos and utensils a, to realize the switching in the turnover air channel of controlling wet wind logos and utensils a; After wet the control of the present embodiment device is assembled in the devices such as electrical control cubicles, air in cabinet enters in control wet wind logos and utensils a and controls after wet process (humidification or dehumidifying) via air inlet/outlet controller b and the first air port 2-1, got rid of by its exhaust passage, the first air port 2-1 and the air inlet/outlet controller b corresponding with exhaust passage again, finally to complete the work for the treatment of of air in cabinet.
For ensureing that brace 3 can be firmly fixed between control wet wind logos and utensils a and air inlet/outlet controller b, thereby realize the operating stably of revolving door 2, between control wet wind logos and utensils a and brace 3, (heat insulating mattress 4 can carry out material Choice and design according to actual design situation between air inlet/outlet controller b and brace 3, to be provided with heat insulating mattress 4, as use single nonmetallic materials, the preferred heat insulating mattress 4 of the present embodiment has metallic plate and non-metal board stack to form), on heat insulating mattress 4, offer sleeve joint hole 4-1 and several second air port 4-2 that can be connected with the first air port 2-1 for the output shaft of accommodating CD-ROM drive motor 1 behind revolving door 2 rotation location.
For optimizing the structure of whole control wet wind logos and utensils a, ensure that in cabinet, air enters the wet effect of rear control, the control wet wind logos and utensils a of the present embodiment comprises one section of cavity housing 5, molecular sieve bag end cap 6 and rear molecular sieve bag end cap 7 before the leading section of one section of cavity housing 5 inside and rearward end are provided with respectively; So, can utilize front molecular sieve bag end cap 6 and rear molecular sieve bag end cap 7 inner space of one section of cavity housing 5 to be divided into the turnover air compartment 5-1, chamber, air channel and the transporting room 5-2 that distribute successively from front to back; Simultaneously, the indoor first spatial separation part 8 that is provided with in air channel, between the inwall (being the inwall of chamber, air channel) of the first spatial separation part 8 and one section of cavity housing 5, be formed with some separate axial ducts 5-3, front molecular sieve bag end cap 6 with on rear molecular sieve bag end cap 7, all offer several the 3rd air port 6-1 and 7-1 with the corresponding connection of axial ducts 5-3; So, the front end of axial ducts 5-3 can be realized and being interconnected in transporting room 5-2 by each self-corresponding the 3rd air port 7-1 by be connected with the air inlet/outlet controller b rear end of each axial ducts 5-3 of the 3rd air port 6-1, the second air port 4-2 and the first air port 2-1; In addition, in turnover air compartment 5-1, be provided with a horizontal demarcation strip 9, utilize horizontal demarcation strip 9 that the inner space of turnover air compartment 5-1 is divided into the inlet air plenum that can be connected with the first air inlet 2-1, the second air port 4-2 and goes out air compartment.So, axial ducts 5-3, the transporting room 5-2 that can be connected with inlet air plenum by part and part with go out axial ducts 5-3 that air compartment is connected one section of Zigzag type air communication channel that the interior formation of cavity housing 5 is complete, and realize the wet function of control of control wet wind logos and utensils a by place drier (not shown, i.e. molecular sieve bag) in axial ducts 5-3.
For further optimizing the air channel structure in control wet wind logos and utensils a, the first spatial separation part 8 of the present embodiment comprises the first axial demarcation strip 8-2 (sleeve pipe 8-1 and the first axial demarcation strip 8-2 adopt integrated formed structure) on sleeve pipe 8-1 outer wall that is connected in sleeve pipe 8-1 and several ring weeks, on the inwall of one section of cavity housing 5, the position corresponding with the first axial demarcation strip 8-2 is provided with the first axial socket 5-4, axial ducts 5-3 is formed at the outer wall of sleeve pipe 8-1, between the inwall of one section of cavity housing 5 (being the inwall of chamber, air channel) and adjacent two first axial demarcation strip 8-2, so, the outer face of the first axial demarcation strip 8-2 can be contained in the first axial socket 5-4, thereby realize the detachable assembling (also can realize the assembling of front molecular sieve bag end cap 6 and rear molecular sieve bag end cap 7 based on this structure) of the first spatial separation part 8 and one section of cavity housing 5, facilitate the dismounting between parts and change in time drier.For further axial ducts 5-3 being divided into multiple more tiny air channels to form air channel group, ensure the wet effect of control, on the outer wall of sleeve pipe 8-1, be also provided with several second axial socket 8-3, in the second axial socket 8-3, be plugged with the second axial demarcation strip 10, the second axial demarcation strip 10 between two first adjacent axial demarcation strip 8-1 and the inwall of its outer face and one section of cavity housing 5 (being the inwall of chamber, air channel) connect, utilize the second axial demarcation strip 10 that Further Division is made in the space of axial ducts 5-3 with this, form more air channel.
For strengthening the effect on moisture extraction of control wet wind logos and utensils a, the moisture that drier is adsorbed discharges, the sleeve pipe 8-1 of the present embodiment comprises that main sleeve pipe 8-1-1 and several auxiliary set pipes 8-1-2, auxiliary set pipe 8-1-2 are connected on the outer wall of main sleeve pipe 8-1-1 and the inner chamber of auxiliary set pipe 8-1-2 and the intracavity inter-connection of main sleeve pipe 8-1-1; And the first axial demarcation strip 8-2 is connected on the outer wall of main sleeve pipe 8-1-1 and/or auxiliary set pipe 8-1-2, in auxiliary set pipe 8-1-2, be also socketed with heating rod 11, to utilize heating rod 11 to heat the drier in axial ducts 5-3, make it be discharged into adsorbed moisture.
For optimizing the overall structure of air inlet/outlet controller b, ensure that in cabinet, air can enter smoothly and reasonably or be discharged by the wet device of control, the air inlet/outlet controller b of the present embodiment comprises two sections of cavity housings 12, in two sections of cavity housings 12, be provided with second space separator 13 (second space separator 13 can adopt and the first spatial separation part 8 same structure forms), between second space separator 13 and the inwall of two sections of cavity housings 12, be formed with several separate and can be connected with the first air port 2-1 air intake district and wind outlet areas; CD-ROM drive motor 1 is contained in second space separator 13, also can realize rational space utilization with this.
For improving the control wet process efficiency of the wet device of control, on the sidewall of two sections of cavity housings 12, corresponding to offering respectively air inlet 12-1 and air outlet 12-2 on the position of air intake district and wind outlet area, and can on air inlet 12-1 and/or air outlet 12-2, install fan (not shown), to utilize fan to realize the pressure drainage of air in cabinet, air is entered in the wet device of control and control wet process.
In addition, the electric controller c of the present embodiment can be made up of three sections of cavity housings 14 and first end surface cover 15, so control panel, electric interfaces etc. can be installed in three sections of cavity housings 14 or on first end surface cover 15, utilize control panel to realize the control of the electrical equipments such as CD-ROM drive motor 1, heating rod 11 and fan, realize the work of the rotation (being the switching in air channel) of revolving door 2, the action of fan (controlling the start and stop of wet speed and the wet action of control) or heating rod 11 with this.And one section of cavity housing 5 can adopt the version of both ends open, the rear end face of one section of cavity housing 5 carries out capping by the second end face cover plate 16, so that the dismounting of the first spatial separation part 8 or other build-in components is safeguarded.
The wet device of control of the present embodiment can be controlled wet process to the air in certain volume space, in electrical control cubicles; Its operating principle is taking dehumidifying as example, utilize electric controller c to control fan and CD-ROM drive motor 1, so that the first air port 2-1 of revolving door 2 communicates with the axial ducts 5-3 that part is used as air inlet duct, extraneous air passes through the drier in axial ducts 5-3 with predefined paths, thereby reaches the object that reduces humidity; After drier moisture absorption is saturated, electric controller c controls CD-ROM drive motor 1 driven rotary door 2 and switches air flue, can control heating rod 11 heat drying agent, be discharged to the outside of the wet device of control to discharge moisture or moisture by the axial ducts 5-3 using as exhaust passage, air outlet 12-2 simultaneously; After moisture is lived moisture release, air flue switches, and enters next circulation; Humidification flow process is contrary with dehumidifying flow process.
The control wet wind logos and utensils a of the present embodiment and the shell structure of air inlet/outlet controller b (i.e. one section of cavity housing 5, two sections of cavity housings 12 and inner spatial separation parts thereof) can be formed by the housing cutting of one, according to the dimensional requirement of actual design, any one position of housing incision perpendicular to axial direction (forming mirror image switch structure), just can connect by centre braces such as brace 3 or heat insulating mattress 4 convenient making.It is simple in structure, it is ingenious to design, the wet fast response time of control, the wet action of control is controlled, safety and reliability is high, has very strong practicality and market popularization value.
The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.
Claims (9)
1. the wet device of control with rotary door structure, is characterized in that: it comprises that be used to air mobile provides the control wet wind logos and utensils of the circulation path of turning back and for guiding air to control the air inlet/outlet controller of wet process via control wet wind logos and utensils;
In described air inlet/outlet controller, be provided with CD-ROM drive motor, the tail end of the output shaft of described CD-ROM drive motor is connected with revolving door, offers several the first air ports on described revolving door;
Described air inlet/outlet controller is connected in the front end of control wet wind logos and utensils by brace, offer rotating hole position on described brace, and described revolving door contraposition is entrenched in rotating hole position;
After described CD-ROM drive motor control revolving door rotates with respect to rotating hole position, described the first air port is connected with the part air channel of control wet wind logos and utensils.
2. a kind of wet device of control with rotary door structure as claimed in claim 1, it is characterized in that: between described control wet wind logos and utensils and brace, be provided with heat insulating mattress between air inlet/outlet controller and brace, on described heat insulating mattress, offer sleeve joint hole and several second air ports that can be connected with the first air port for the output shaft of accommodating CD-ROM drive motor.
3. a kind of wet device of control with rotary door structure as claimed in claim 1, is characterized in that: it also comprises that one for regulating and controlling the electric controller of CD-ROM drive motor and other electric components, and described electric controller is connected in the front end of air inlet/outlet controller.
4. a kind of wet device of control with rotary door structure as claimed in claim 1, it is characterized in that: described control wet wind logos and utensils comprises one section of cavity housing, in described one section of cavity housing, be provided with front molecular sieve bag end cap and rear molecular sieve bag end cap, described front molecular sieve bag end cap and rear molecular sieve bag end cap are divided into the inner space of one section of cavity housing the turnover air compartment, chamber, air channel and the transporting room that distribute successively from front to back;
The indoor first spatial separation part that is provided with in described air channel, between described the first spatial separation part and the inwall of one section of cavity housing, be formed with some separate axial ducts, in described axial ducts, be equipped with drier, described front molecular sieve bag end cap with on rear molecular sieve bag end cap, all offer several the 3rd air ports with the corresponding connection of axial ducts;
The indoor horizontal demarcation strip that is provided with of described air inlet/outlet, described horizontal demarcation strip is divided into the inner space of turnover air compartment the inlet air plenum that can be connected with the first air inlet and goes out air compartment.
5. a kind of wet device of control with rotary door structure as claimed in claim 4, it is characterized in that: what described the first spatial separation part comprised sleeve pipe and several ring week is connected in axially demarcation strip of first on sleeve outer wall, on the inwall of described one section of cavity housing, the position corresponding with the first axial demarcation strip be provided with the first axial socket, the outer face of the described first axial demarcation strip is contained in the first axial socket;
Described axial ducts are formed between the inwall and adjacent two first axial demarcation strips of the outer wall of sleeve pipe, one section of cavity housing.
6. a kind of wet device of control with rotary door structure as claimed in claim 5, it is characterized in that: on the outer wall of described sleeve pipe, be also provided with several the second axial socket, in described the second axial socket, be plugged with the second axial demarcation strip, the described second axial demarcation strip is between two first adjacent axial demarcation strips.
7. a kind of wet device of control with rotary door structure as claimed in claim 5, it is characterized in that: described sleeve pipe comprises main sleeve pipe and several auxiliary set pipes, described auxiliary set pipe is connected on the outer wall of main sleeve pipe, the inner chamber of described auxiliary set pipe and the intracavity inter-connection of main sleeve pipe;
The described first axial demarcation strip is connected on the outer wall of main sleeve pipe and/or auxiliary set pipe; In described auxiliary set pipe, be also socketed with heating rod.
8. a kind of wet device of control with rotary door structure as described in any one in claim 1-7, it is characterized in that: described air inlet/outlet controller comprises two sections of cavity housings, in described two sections of cavity housings, be provided with second space separator, between described second space separator and the inwall of two sections of cavity housings, be formed with several separate and can be connected with the first air port air intake district and wind outlet areas; Described CD-ROM drive motor is contained in second space separator.
9. a kind of wet device of control with rotary door structure as claimed in claim 8, it is characterized in that: on the sidewall of described two sections of cavity housings, corresponding to offering respectively air inlet and air outlet on the position of air intake district and wind outlet area, on described air inlet and/or air outlet, be equiped with fan.
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CN201420322669.8U CN203928154U (en) | 2014-06-17 | 2014-06-17 | A kind of wet device of control with rotary door structure |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106989473A (en) * | 2017-05-19 | 2017-07-28 | 珠海格力电器股份有限公司 | Vmc |
CN109092022A (en) * | 2018-11-06 | 2018-12-28 | 王东杰 | A kind of inner-outer circulation air duct switching construction and its wet device of control |
CN111662527A (en) * | 2020-05-09 | 2020-09-15 | 惠州市沃瑞科技有限公司 | Humidity-control hydrophilic polymer, preparation method thereof and humidity-control device |
WO2022067471A1 (en) * | 2020-09-29 | 2022-04-07 | 京东方科技集团股份有限公司 | Temperature control device and temperature control system |
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2014
- 2014-06-17 CN CN201420322669.8U patent/CN203928154U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106989473A (en) * | 2017-05-19 | 2017-07-28 | 珠海格力电器股份有限公司 | Vmc |
CN106989473B (en) * | 2017-05-19 | 2023-06-20 | 珠海格力电器股份有限公司 | Fresh air system |
CN109092022A (en) * | 2018-11-06 | 2018-12-28 | 王东杰 | A kind of inner-outer circulation air duct switching construction and its wet device of control |
CN109092022B (en) * | 2018-11-06 | 2023-11-24 | 王东杰 | Internal and external circulation air duct switching structure and humidity control device thereof |
CN111662527A (en) * | 2020-05-09 | 2020-09-15 | 惠州市沃瑞科技有限公司 | Humidity-control hydrophilic polymer, preparation method thereof and humidity-control device |
WO2022067471A1 (en) * | 2020-09-29 | 2022-04-07 | 京东方科技集团股份有限公司 | Temperature control device and temperature control system |
CN114585987A (en) * | 2020-09-29 | 2022-06-03 | 京东方科技集团股份有限公司 | Temperature control device and temperature control system |
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