CN207132642U - Natural dehumidifying drying system - Google Patents
Natural dehumidifying drying system Download PDFInfo
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- CN207132642U CN207132642U CN201720485936.7U CN201720485936U CN207132642U CN 207132642 U CN207132642 U CN 207132642U CN 201720485936 U CN201720485936 U CN 201720485936U CN 207132642 U CN207132642 U CN 207132642U
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Abstract
The utility model provides a kind of natural dehumidifying drying system, includes the cyclic drying system and circulation dehumidification system of interconnection;The cyclic drying system includes heat pump dryer, drying room structure, and the circulating gas pipe of the connection heat pump dryer and drying room structure;The circulation dehumidification system includes the spray cell structure being arranged in the circulating gas pipe, and the cooling water supply unit with the spray chamber fabric connectivity.Natural dehumidifying drying system provided by the utility model, it is possible to reduce drying time, improve production efficiency, save the energy.
Description
Technical field
Drying plant technical field is the utility model is related to, more particularly to a kind of natural dehumidifying drying system.
Background technology
The condensed blower fan of hot blast caused by heat pump dryer is sent into drying room, and hot blast is in the inswept fresh material table of material frame interlayer
Face, its moisture is constantly absorbed, untill the stoving process requirement of material is reached.In the overall drying process, it is constantly be generated
Hot and humid gas and condensate, condensate are discharged outdoor by osculum.But because the humid air in drying room is not easy to change into
Condensate, so the time needed for drying materials is longer, so as to cause low production efficiency, heat pump dryer compares power consumption.In addition,
Common heat pump dryer can only provide less than 75 DEG C of hot blast, can not meet some drying materials requirements for needing high-temperature baking.
Utility model content
Based on this, to solve the above problems, the utility model provides a kind of natural dehumidifying drying system, it is possible to reduce drying
Time, production efficiency is improved, save the energy.
Its technical scheme is as follows:
A kind of natural dehumidifying drying system, include the cyclic drying system and circulation dehumidification system of interconnection;
The cyclic drying system includes heat pump dryer, drying room structure, and the connection heat pump dryer and drying room
The circulating gas pipe of structure;The circulation dehumidification system includes being arranged at spray cell structure in the circulating gas pipe, and with institute
State the cooling water supply unit of spray chamber fabric connectivity;
The heat pump dryer includes dryer housing, the evaporator and condenser being arranged in the dryer housing,
It is opened in the air outlet and return air inlet of the dryer housing both sides respectively, the condensation fan being arranged at the air outlet, with
And the return wind transom on the dryer housing is arranged at, the evaporator and condenser are respectively arranged at the return wind transom both sides;
The heat pump dryer also includes being arranged at reheater at the air outlet, the reheater by the air inlet pipe with
The air inlet connection of the drying room structure;
The drying room structure includes the drying room main body of cavity-like, the material frame being arranged in the drying room main body, Yi Jifen
Air inlet and the gas outlet of the drying room main body both sides are not opened in;
The circulating gas pipe includes the air inlet pipe for connecting the air outlet and air inlet, and the connection gas outlet and institute
The muffler of return air inlet is stated, and the spray chamber structure setting is on the muffler.
Further technical scheme is illustrated below:
Further, the evaporator and condenser are arranged between the air outlet and return air inlet, and the condenser
Close to the air outlet, the evaporator is close to the return air inlet.
Further, the heat pump dryer also includes the air outlet for being arranged at the dryer housing opposite side, and
The evaporation fan being arranged at the air outlet;
The evaporator and condenser are arranged between the air outlet and air outlet, and the condenser is sent close to described
Air port, close to the air outlet, the return air inlet is arranged between the evaporator and condenser the evaporator.
Further, the air inlet is arranged at the drying room body side bottom, and the gas outlet is arranged at the baking
At the top of house-owner's body opposite side, at least material frame described in a row is arranged between the air inlet and gas outlet.
Further, the drying room structure also includes the gear being arranged between the material frame and the drying room main body inner wall
Aerofoil.
Further, the cooling water supply unit includes cooling source, and the water inlet pipe connected with the cooling source;
The spray cell structure includes the spray chamber main body of cavity-like, is arranged at the sprinkling of the spray chamber main body inner top
Water pond, the water-collecting tray of the spray chamber main body inner bottom part being arranged at, the spray chamber main body connection is arranged on the muffler,
The water inlet pipe is connected with the sprinkling water pond.
Further, hot air intake, the spray chamber main body opposite side bottom are offered at the top of the spray chamber body side
Portion offers cold air outlet, and the sprinkling water pond and water-collecting tray may be contained between the hot air intake and cold air outlet;
The muffler includes the first muffler and the second muffler, first muffler connect the hot air intake and
Gas outlet, second muffler connect the cold air outlet and return air inlet.
Further, the cooling source is arranged to cooling tower.
Further, the cooling tower includes tower body, is arranged at the heat exchanger at middle part in the tower body, is arranged at the tower
Water inlet at the top of body, and it is arranged at the delivery port of the tower body bottom;
The spray cell structure also includes the drainpipe being connected with the water-collecting tray, the drainpipe and the cooling tower
Water inlet connects, and the water inlet pipe connects the delivery port of the cooling tower and the sprinkling water pond.
Further, the cooling source is arranged to underground water or surface water supply device, and the underground water or the surface water supply
Device is answered to be connected by the water inlet pipe with the sprinkling water pond;
The spray cell structure also includes the drainpipe being connected with the water-collecting tray, and the drainpipe is in communication with the outside.
The utility model has beneficial effect prominent as follows:Cell structure is sprayed by setting, can produce material in drying room
Raw moisture is quickly discharged, and so as to shorten the drying time of material, improves production efficiency;Heat is reclaimed by heat pump dryer
Amount, improves its Energy Efficiency Ratio, makes heat pump dryer more energy efficient, more environmentally friendly;Reheater is set, with electrical heating or high-temperature steam to heat
Wind reheats, and meets the drying materials requirement for needing high-temperature baking.
Brief description of the drawings
Fig. 1 is the structural schematic block diagram of natural dehumidifying drying system described in the utility model embodiment;
Fig. 2 is that the heat pump dryer of natural dehumidifying drying system described in the utility model embodiment (is not provided with cold wind outlet
When) structural representation frame;
Fig. 3 is the heat pump dryer of natural dehumidifying drying system described in the utility model embodiment (when setting reheater)
Structural representation frame;
Fig. 4 is that the chilled water unit of natural dehumidifying drying system described in the utility model embodiment (sets surface water or ground
When lower water is low-temperature receiver) structural representation frame.
Description of reference numerals:
100- heat pump dryers, 102- return air inlets, 110- return wind transoms, 120- condensers, 122- air outlets, 130- evaporations
Device, 132- air outlets, 140- air inlet pipe, 150- reheaters, 200- drying room structures, 210- material frames, 220- deep beads, 230-
First muffler, 300- spray cell structures, 310- sprinkling water ponds, 320- water-collecting trays, the mufflers of 330- second, 332- water fenders,
400- cooling water supply units, 410- water inlet pipes, 412- feed pumps, 420- drainpipes, 422- back water pumps.
Embodiment
Embodiment of the present utility model is described in detail below:
As shown in figure 1, the utility model proposes a kind of natural dehumidifying drying system, include the cyclic drying system of interconnection
System and circulation dehumidification system.Cyclic drying can be carried out to material using the cyclic drying system, recycle heat, save
Environmental protection.It moreover, caused moisture in drying process can be removed by the circulation dehumidification system, can produce material in drying room
Moisture quickly discharge, so as to shorten the drying time of material, improve production efficiency.
Specifically, the cyclic drying system includes heat pump dryer 100, drying room structure 200, and the connection heat pump
The circulating gas pipe of dryer 100 and drying room structure 200.Using circulating gas pipe by the heat pump dryer 100 and drying room structure 200
Connection is got up, and forms a cyclic drying system.The heat pump dryer 100 is that the drying room structure 200 provides heat, to drying
Material in room structure 200 is dried, and the heat pump dryer 100 can also recycle to dried hot gas,
The material in drying room structure 200 is dried again, recycles heat, economical environment-protective.In addition, the circulation dehumidification system
Supplied including the spray cell structure 300 being arranged in the circulating gas pipe, and with the cooling water that the spray cell structure 300 connects
Answer device.Using cooling water supply unit to it is described spray cell structure cooling water supply, spray cell structure spray cooling water with
The hot and humid gas exported from drying room structure 200 in circulating gas pipe carries out heat exchange, rapidly removes in hot and humid gas
The return air that moisture is more dried, then return air that the circulating gas pipe will be above environment temperature are re-fed into the heat pump drying
Machine 100 reclaims heat.
Moreover, the heat pump dryer 100 includes dryer housing, the evaporator being arranged in the dryer housing
130 and condenser 120, the air outlet 122 and return air inlet 102 of the dryer housing both sides are opened in respectively, are arranged at described
Condensation fan at air outlet 122, and the return wind transom 110 being arranged on the dryer housing, the evaporator 130 and cold
Condenser 120 is respectively arranged at the both sides of return wind transom 110.In addition, the drying room structure 200 includes the drying room main body of cavity-like,
The material frame 210 being arranged in the drying room main body, and the air inlet and outlet of the drying room main body both sides are opened in respectively
Mouthful.The circulating gas pipe includes the air inlet pipe 140 for connecting the air outlet and air inlet, and the connection gas outlet and described
The muffler of return air inlet, and the spray cell structure 300 is arranged on the muffler.
The hot blast that the condenser 130 of the heat pump dryer 100 is made, the condensating wind set by the air outlet 122
Machine is sent in drying room structure 200 by the air inlet of the air inlet pipe 140 and the drying room main body.Into the drying room structure
Hot blast in the drying room main body of 200 cavity-like, it is first-class to the material frame 210 that is set in the drying room main body to be dried fresh
Material is toasted, untill the stoving process requirement of material is reached.Moreover, in baking process, in the drying room main body
Substantial amounts of hot and humid gas can be produced, which part changes into condensate and discharged outside the drying room main body, and most height
Warm high humidity gas is sent in the spray cell structure 300 by the gas outlet and backwind tube of the drying room main body, utilizes the spray
The cooling water sprayed in leaching cell structure 300 carries out heat exchange with hot and humid gas, rapidly removes moisture therein and obtains
More dry return air.The return air higher than environment temperature after dehumidifying, from the opposite side for spraying cell structure 300 by return air
Pipe sends the hot blast return air inlet of the heat pump dryer 100 back to again, reclaims its heat by the evaporator 130, and pass through described time
Air regulator 110 absorbs component environment air, then is heated to obtain hot blast by condenser 120, and pass through the condensation fan will
Hot blast is conveyed to the drying room structure 200 by the air inlet pipe 140, completes the circulation of a hot-air system.
Further, as shown in figure 3, the heat pump dryer 100 also includes being arranged at again adding at the air outlet 122
Hot device 150, the reheater 150 are connected by the air inlet pipe 140 with the air inlet of the drying room structure 200.By
The reheater 150 is set between the heat pump dryer 100 and the drying room structure 200, can be to passing through the condensation
The hot blast that device 120 heats further is heated, to meet the high temperature drying requirement of the drying room structure 200.Moreover, it is described again
Heater may be configured as electric heater or high-temperature steam device, i.e., using electric energy or high-temperature steam to from the heat pump dryer
100 hot blast out reheats, and further improves the hot blast temperature (providing the hot blast higher than 75 DEG C) for entering the drying room main body,
To meet to need the drying materials requirement of high-temperature baking.
In addition, in certain embodiments, as shown in Fig. 2 the evaporator 130 and condenser 120 are arranged at the air-supply
Between mouth 122 and return air inlet 102, and the condenser 120 returns close to the air outlet 122, the evaporator 130 close to described
Air port 102.So, return air can be caused after the return air inlet 102 enters the dryer housing, to first pass through the evaporation
Device 130 carries out cooling condensation and (carries out heat exchange with the evaporator 130, on the one hand can reclaim the heat in return air, cooling coagulates
Device 120 makes more heats;On the other hand cool-down dehumidification can be carried out to return air, is further lowered into drying room structure 200
The water capacity of air), the moisture in return air is further removed, then by the condenser 120 to returning after further dehumidifying
Wind is heated, the hot blast more dried, and is sent into the baking by the air inlet pipe 140 by the air outlet 122
In room structure 200.
In addition, in further embodiments, as shown in figure 3, the heat pump dryer 100 also includes being arranged at the drying
The air outlet 132 of casing body opposite side, and it is arranged at the evaporation fan at the air outlet 132.Moreover, the evaporator
130 and condenser 120 be arranged between the air outlet 122 and air outlet 132, and the condenser 120 is close to the air-supply
Mouth 122, for the evaporator 130 close to the air outlet 132, the return air inlet 102 is arranged at the evaporator 130 and condenser
Between 120.So, it can cause return air that after the return air inlet 102 enters the dryer housing, the evaporation can be passed through
Device 130 carries out cooling condensation, and the gas after cooling is discharged using evaporation fan, and further removes the moisture in return air,
Then the return air (and the air supplemented using return wind transom 110) after further dehumidifying is added by the condenser 120
Heat, the hot blast more dried, and the drying room structure 200 is sent into by the air inlet pipe 140 by the air outlet 122
In.
In addition, the air inlet of the drying room structure 200 is arranged at the drying room body side bottom, the gas outlet
Be arranged at the top of the drying room main body opposite side, at least described in a row material frame 210 be arranged at the air inlet and gas outlet it
Between.The hot gas being sent into by the air inlet pipe 140 and air inlet in the drying room main body, from a side bottom of the drying room main body
(thermal current can flow from bottom to top automatically) is flowed at the top of opposite side, can be to the material that is arranged in the middle part of the drying room main body
Fresh material on frame is sufficiently dried.Moreover, multiple material frames 210 can be installed, often in the drying room structure 200
The individual material frame 210 is separated into multilayer, can be put on every layer and set some metal-baking disks, waits fresh material to be dried to be laid in
On each drip pan, hot blast blows over surface of material in the interlayer of material frame 210, constantly absorbs its moisture, until reaching the baking of material
Untill dry technological requirement.It is arranged in addition, multiple material frames 210 can be spaced among the drying room main body.In addition, institute
State drying room structure 200 and may also include the deep bead 220 being arranged between the material frame 210 and the drying room main body inner wall.This
Sample can ensure that hot blast only flows through from the interlayer of the material frame 210, between material frame 210 and drying room main body
Clearance flow mistake, hot blast can be made full use of.
In addition, the cooling water supply unit 400 includes cooling source, and the water inlet pipe 410 connected with the cooling source.
The spray cell structure 300 includes the spray chamber main body of cavity-like, is arranged at the sprinkling water pond of the spray chamber main body inner top
310, the water-collecting tray 320 of the spray chamber main body inner bottom part is arranged at, the spray chamber main body connection is arranged at the muffler
On, the water inlet pipe 410 is connected with the sprinkling water pond.Caused by after material is dried in the drying room structure 200
Hot and humid gas, it is transported to by the muffler in the spray cell structure 300, what the spray chamber body top was set
Sprinkling water pond 310 by the cooling source by the water inlet pipe 410 convey come cooling water spray, to the spray chamber master
Hot and humid gas in body carries out cool-down dehumidification, can obtain return air of the temperature higher than environment temperature and by the muffler
Send back in the heat pump dryer 100, and the water-collecting tray 320 that the spray chamber bottom part body is set can be to the water that falls
Liquid is collected and discharged.
Moreover, offering hot air intake at the top of the spray chamber body side, another side bottom of spray chamber main body is opened
Provided with cold air outlet, the sprinkling water pond 310 and water-collecting tray 320 may be contained between the hot air intake and cold air outlet.This
Sample, the hot air intake of hot and humid gas from the spray chamber body top can be transported in spray chamber main body, and dehumidified
Return-air after cooling (can make use of hot gas to decline after cooling down from the cold air outlet discharge of another side bottom of spray chamber main body
Principle).Moreover, the sprinkling water pond 310 and water-collecting tray 320 are arranged between the hot air intake and cold air outlet, energy
It is enough just to obtain sufficiently spraying dehumidification cooling after hot and humid gas enters spray chamber main body, finally can be easily by dehumidifying
The gas of cooling is discharged by the muffler.
In addition, the muffler includes the first muffler 230 and the second muffler 330, first muffler 230 connects
The hot air intake and gas outlet, second muffler 330 connect the cold air outlet and return air inlet.Utilize described first time
Tracheae 230 can successfully drain into caused hot and humid gas in the drying room structure 200 in the spray chamber main body,
And successfully the return air after cooling and dehumidifying can be drained into the heat pump dryer 100 using second muffler 330.
Moreover, being additionally provided with air-introduced machine on first muffler 230, will more swimmingly can be produced in the drying room structure 200
Hot and humid gas successfully drain into the spray chamber main body.In addition, also on the madial wall of the spray chamber main body
Water fender 332 is provided projectingly, the water fender 332 is arranged at second muffler 330 and the cold air outlet connectivity part
Top, can avoid it is described sprinkling water pond 310 spray under aqueous be flowed into second muffler 330, keep return air
Dry.Moreover, the water fender 332 can tilt down setting, so second return-air can be entered not influenceing return air
In the case of pipe 330, aqueous is avoided to enter second muffler 330 as far as possible.
In addition, in certain embodiments, as shown in figure 1, the cooling source may be configured as cooling tower.The cooling tower includes
Tower body, the heat exchanger at middle part in the tower body, the water inlet being arranged at the top of the tower body are arranged at, and are arranged at the tower
The delivery port of body bottom.The spray cell structure 300 also includes the drainpipe 420 being connected with the water-collecting tray 320, the draining
Pipe 420 is connected with the water inlet of the cooling tower, and the water inlet pipe 410 connects the delivery port of the cooling tower and the spray water
Disk 310.The cooling tower provides cooling by sprinkling water pond 310 of the water inlet pipe 410 into the spray cell structure 300
Water, to carry out cooling and dehumidifying to the hot and humid gas entered in the spray chamber main body, caused high-temperature water can be by described
Water-collecting tray 320 is collected, and is sent back to by the drainpipe 420 in the cooling tower, utilizes changing in the cooling tower
Hot device is cooled down, and then the aqueous after cooling is transported in the spray cell structure 300 again, for the sprinkling water pond 310
Use, form circulating cooling dehumidification system.Moreover, high-temperature water enters at the top of the cooling tower, and from the cooling tower bottom
Discharge, the heat exchanger set in the middle part of the cooling tower can be utilized to be sufficiently cooled high-temperature water.In addition, the cooling tower
Top can be unlimited, and top set cooling fan, boundary's function of environment heat emission can be directed out.In addition, the water inlet pipe
Feed pump 412 is additionally provided with 410, is easy to the sprinkling water pond 310 into the spray chamber main body to supply water.And the drainpipe
Back water pump 422 is additionally provided with 420, is easy to carry out suction discharge to the aqueous that the water-collecting tray 320 is collected.
In addition, in further embodiments, as shown in figure 4, the cooling source may be configured as underground water or surface water supply
Device, the underground water or surface water supply device are connected by the water inlet pipe 410 with the sprinkling water pond 310.The spray
Leaching cell structure 300 also includes the drainpipe 420 being connected with the water-collecting tray, and the drainpipe 420 is in communication with the outside.Can be straight
Connect by underground water or the surface water be transported to it is described spray cell structure 300 sprinkling water pond 310 sprayed, directly utilize underground water
Or the surface water carries out dehumidifying and cooling to hot and humid gas, and the aqueous after dehumidifying and cooling is carried out using the water-collecting tray 320
Collect, the aqueous of collection is directly then discharged to the external world using the drainpipe 420, it is simple and convenient.
Natural dehumidifying drying system provided by the utility model, cell structure is sprayed by setting, can produce material in drying room
Raw moisture is quickly discharged, and so as to shorten the drying time of material, improves production efficiency;Heat is reclaimed by heat pump dryer
Amount, improves its Energy Efficiency Ratio, makes heat pump dryer more energy efficient, more environmentally friendly;Reheater is set, with electrical heating or high-temperature steam to heat
Wind reheats, and meets the drying materials requirement for needing high-temperature baking.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope that this specification is recorded all is considered to be.
Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed,
But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that the common skill for this area
For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to
The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.
Claims (10)
1. a kind of natural dehumidifying drying system, it is characterised in that cyclic drying system and circulating dehumidification system including interconnection
System;
The cyclic drying system includes heat pump dryer, drying room structure, and the connection heat pump dryer and drying room structure
Circulating gas pipe;The circulation dehumidification system includes being arranged at spray cell structure in the circulating gas pipe, and with the spray
Drench the cooling water supply unit of cell structure connection;
The heat pump dryer includes dryer housing, the evaporator and condenser being arranged in the dryer housing, difference
It is opened in the air outlet and return air inlet of the dryer housing both sides, the condensation fan being arranged at the air outlet, Yi Jishe
The return wind transom being placed on the dryer housing, the evaporator and condenser are respectively arranged at the return wind transom both sides;
The drying room structure includes the drying room main body of cavity-like, the material frame being arranged in the drying room main body, and opens respectively
Air inlet and gas outlet located at the drying room main body both sides;
The circulating gas pipe includes the air inlet pipe for connecting the air outlet and air inlet, and the connection gas outlet and described time
The muffler in air port, and the spray chamber structure setting is on the muffler;The heat pump dryer also includes being arranged at institute
The reheater at air outlet is stated, the reheater is connected by the air inlet pipe with the air inlet of the drying room structure.
2. natural dehumidifying drying system according to claim 1, it is characterised in that the evaporator and condenser are arranged at
Between the air outlet and return air inlet, and the condenser, close to the air outlet, the evaporator is close to the return air inlet.
3. natural dehumidifying drying system according to claim 1, it is characterised in that the heat pump dryer also includes setting
In the air outlet of the dryer housing opposite side, and it is arranged at the evaporation fan at the air outlet;
The evaporator and condenser are arranged between the air outlet and air outlet, and the condenser is close to the air-supply
Mouthful, close to the air outlet, the return air inlet is arranged between the evaporator and condenser the evaporator.
4. natural dehumidifying drying system according to claim 1, it is characterised in that the air inlet is arranged at the drying room
Body side bottom, the gas outlet are arranged at the top of the drying room main body opposite side, and at least material frame described in a row is arranged at
Between the air inlet and gas outlet.
5. natural dehumidifying drying system according to claim 4, it is characterised in that the drying room structure also includes setting
Deep bead between the material frame and the drying room main body inner wall.
6. the natural dehumidifying drying system according to claim 1-5 any one, it is characterised in that the chilled(cooling) water supply (CWS)
Device includes cooling source, and the water inlet pipe connected with the cooling source;
The spray cell structure includes the spray chamber main body of cavity-like, is arranged at the spray water of the spray chamber main body inner top
Disk, the water-collecting tray of the spray chamber main body inner bottom part is arranged at, the spray chamber main body connection is arranged on the muffler, institute
Water inlet pipe is stated to be connected with the sprinkling water pond.
7. natural dehumidifying drying system according to claim 6, it is characterised in that opened at the top of the spray chamber body side
Provided with hot air intake, another side bottom of spray chamber main body offers cold air outlet, and the sprinkling water pond and water-collecting tray are all provided with
It is placed between the hot air intake and cold air outlet;
The muffler includes the first muffler and the second muffler, and first muffler connects the hot air intake and outlet
Mouthful, second muffler connects the cold air outlet and return air inlet.
8. natural dehumidifying drying system according to claim 6, it is characterised in that the cooling source is arranged to cooling tower.
9. natural dehumidifying drying system according to claim 8, it is characterised in that the cooling tower includes tower body, sets
Heat exchanger in middle part in the tower body, the water inlet being arranged at the top of the tower body, and it is arranged at the tower body bottom
Delivery port;
The spray cell structure also includes the drainpipe being connected with the water-collecting tray, the water inlet of the drainpipe and the cooling tower
Mouth connection, the water inlet pipe connect the delivery port of the cooling tower and the sprinkling water pond.
10. natural dehumidifying drying system according to claim 6, it is characterised in that the cooling source is arranged to underground water
Or surface water supply device, the underground water or surface water supply device are connected by the water inlet pipe with the sprinkling water pond;
The spray cell structure also includes the drainpipe being connected with the water-collecting tray, and the drainpipe is in communication with the outside.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107036407A (en) * | 2017-05-03 | 2017-08-11 | 苏宇贵 | Natural dehumidifying drying system |
CN110319656A (en) * | 2019-06-28 | 2019-10-11 | 岭南中药饮片有限公司 | A kind of energy conservation carriage-type drying system |
-
2017
- 2017-05-03 CN CN201720485936.7U patent/CN207132642U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107036407A (en) * | 2017-05-03 | 2017-08-11 | 苏宇贵 | Natural dehumidifying drying system |
CN110319656A (en) * | 2019-06-28 | 2019-10-11 | 岭南中药饮片有限公司 | A kind of energy conservation carriage-type drying system |
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