CN109737705A - Energy-efficient drying unit - Google Patents
Energy-efficient drying unit Download PDFInfo
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- CN109737705A CN109737705A CN201811606869.5A CN201811606869A CN109737705A CN 109737705 A CN109737705 A CN 109737705A CN 201811606869 A CN201811606869 A CN 201811606869A CN 109737705 A CN109737705 A CN 109737705A
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Abstract
The present invention discloses energy-efficient drying unit, including body, is located at the intracorporal drying box of machine, for drying clothes, sewage sump positioned at drying box bottom, the heater box for collecting dirt, on rear side of body, for providing thermal energy, positioned at the pedestal of organism bottom, for carrying body, internal body vertical nest has drying box, organism bottom and rear side are respectively equipped with pedestal, heater box, and heater box and control switch are electrically connected.The device can dry clothes, improve the hygroscopicity of clothes while reducing clothes mildew, promote comfortable features of clothing.
Description
Technical field
The invention belongs to Garment Technology fields.More particularly to a kind of energy-efficient drying unit.
Background technique
With the improvement of living standards, requirement of the people to clothes is no longer limited to keep warm, style, wears effect.Clothes
Referred to as human body " the second skin ", therefore the performances such as comfortable and safety and sanitation of clothes receive more and more attention.
But clothes have many bacterial micro-organisms in the production process and are attached in face liber, cause clothing pollution, and
Clothes once make moist accumulation, also easily go mouldy, influence the storage of clothes, and therefore, clothes drying becomes in clothes process
A kind of indispensable a part, it is desirable to provide energy-efficient clothes drying unit.
Summary of the invention
The purpose of the present invention is to provide a kind of energy-efficient drying unit, which can dry clothes, reduce
The hygroscopicity for improving clothes while clothes go mouldy, promotes comfortable features of clothing.
The scheme that the present invention is taken to achieve the above object are as follows: energy-efficient drying unit, including body are located at machine
Intracorporal drying box, for drying clothes, sewage sump positioned at drying box bottom, for collecting dirt, on rear side of body
Heater box, for providing thermal energy;Positioned at the pedestal of organism bottom, for carrying body, internal body vertical nest has drying box,
Organism bottom and rear side are respectively equipped with pedestal, heater box, and heater box and control switch are electrically connected.When device works, by clothes
It is put into the drying box in body, the heater box on rear side of body is started by control switch and is worked, heater box and air inlet mechanism phase
Mutually cooperation, promotes hot wind to enter in drying cavity, and at the same time, driving device cooperates transmission device to drive drying unit and air inlet fan
Structure movement, under the action of turning over clothing rolling wheel, clothes is stirred, and realization drying is uniformly contacted with hot wind, and sewage sump is used to collect drying
The impurity generated in the process, convenient for centralized processing, after the completion of drying work, the hot gas in drying cavity can be arranged by air outlet mechanism
Out, realization recycles, and reduces energy waste;The occupied area of whole device is small, easy to remove, and flexibility is higher, and seals
Better performances can avoid lost, reduction drying efficiency and the energy utilization rate, wherein in air inlet mechanism of heat in drying course
Heat can suitably be heated equipped with heater again, improve the temperature for entering hot wind in drying cavity, reach a high temperature and sterilize purpose,
It prevents bacterium to be attached on clothes, is beneficial to improve safety and the comfort of clothes, provides necessary guarantee for human health.
Further, drying box includes driving device, transmission device, air inlet mechanism, drying unit, air outlet mechanism, driving
Transmission device is connected with by main shaft on the right side of device, air inlet mechanism is connected on the right side of transmission device, air inlet mechanism perforation connects
It connects in drying cavity, drying unit is equipped in drying cavity, perforation is connected with air outlet mechanism at the top of drying cavity.Clothes are put into drying box
Afterwards, driving device is by main shaft drives transmission operation, and then drives air inlet mechanism, drying unit work, realizes to clothes
Drying, the hot gas in drying cavity is remained in after drying, can be recycled by air outlet mechanism, reduce energy waste, the structure
Design it is simple to operation, realize to clothes flash baking while can reasonable energy utilization.
Further, transmission device includes driver, planetary gear set, the total bar of transmission, the planet that driver passes through bottom
Gear set and the total bar of transmission are mechanically connected.Driving device is worked by main shaft drives driver, and driver drives with its machinery even
The planetary gear set work connect, and then drive and be driven total bar movement, it realizes and expands drying range while drying to clothes.
Further, driver includes tripod, runs through on tripod and is connected with the straight-tooth bar connecting with spindle machine, directly
Ratch passes through the conveyer belt and output circle wheel clearance fit on surface, and output circle wheel is in a straight line with planetary gear set axle center,
Output circle wheel is connect by conveyer belt with planetary gear, and planetary gear passes through the driving chain on its surface and the output worm gear of bottom
Mechanical connection, output worm gear right side mechanical are connected with worm screw, and worm screw bottom is connect with total bar top is driven.Structure design cooperation
It is close to realize that Oscillation Amplitude is small while transmission, avoids body in drying course from high vibration occur, influences drying effect.
Further, being driven total bar includes transmission stock, bearing base, is equipped at intervals with rotation column on transmission stock etc..Transmission
Stock is fixed in drying box intracavity bottom by bearing base, on the right side of rotation column rotation column with turn over clothing rolling wheel and connect, convenient for turning over clothing rolling wheel
Stir the clothes in drying cavity.
Further, air inlet mechanism includes air inlet frame, installation having heaters on the left of air inlet lower portion, on the right side of heater
It is connected with electric fan, filter screen in turn.Heater can suitably increase hot blast temperature, reached by high temperature and sterilize mesh to clothes
, it prevents bacterium to be attached on clothes, is beneficial to improve safety and the comfort of clothes, provides necessary guarantor for human health
While barrier, electric fan can accelerate hot wind and enter drying cavity speed, by hot wind it is evenly dispersed after enter in drying cavity, increase
The diffusional area of hot wind and contact area with clothes, and filter screen can prevent particulate matter from entering drying cavity to be adhered in drying cavity
Wall or clothing surface influence clothes post-production while reducing drying effect, in addition, the design of entire air inlet mechanism can pass through
Temperature is improved to increase the hygroscopic capacity and moisture pick-up properties of high humidity clothes, and then improves the comfort of clothes.
Further, air outlet mechanism includes outlet air frame, and insulating layer, outlet air frame upper and lower port point are equipped in outlet air frame
Not She You air outlet, air inlet, filter core is installed in air inlet, is equipped with exhaust fan in air outlet, air outlet upper end is connected with out
Air piping.After the completion of drying work, the hot wind in drying cavity recycles after being discharged by air outlet mechanism, wherein in air inlet
The filter core of installation can filter out the particulate matter in hot wind, avoid it from entering and be adhered to outlet air frame inner wall, and filter core is detachable peace
Dress is cleaned or is replaced convenient for staff, and the insulating layer of outlet frame frame setting can reduce heat loss, saves energy consumption, air outlet
The exhaust fan of interior setting can accelerate hot wind conveying speed, reduce transmission process thermal losses.
Further, drying unit includes turning over clothing rolling wheel, turns over and is connected with connecting column, connecting column one end at left and right sides of clothing rolling wheel
It is connect with rectangle rolling wheel main body, four right angles of rectangle rolling wheel main body are equipped with column spinner, and column spinner surface is squeezed equipped with platform shape
Column.Turn over clothing rolling wheel during rotation, clothes is stirred in realization, forms gap during stirring, increases hot wind and clothes
Contact area, during clothes agitating, column spinner elder generation and contact with clothing, and cooperate rolling wheel ontology to form four and help hot wind circulation
Channel, increase the contact area of hot wind flow and itself and clothes, avoid the occurrence of the uneven influence drying effect kimonos of drying
Packing quality;During column spinner and contact with clothing, the platform shape squeezing rod and clothes on surface, which are formed, to be squeezed, in extrusion process,
Pressure dissipation to clothing different location, the cooperation of four squeezing rods can be beneficial to logical while increasing clothes agitating by platform shape bottom surface
The hole between rotary squeezing increase clothes gap is crossed, increases clothes while increasing capillary synergistic effect and specific surface area to water
The absorption divided and transmission capacity, and then increase the hygroscopicity of clothes, promote comfortable features of clothing.
Compared with prior art, energy-efficient drying unit of the invention has the advantage that accounting for for 1) whole device
Ground area is small, easy to remove, and flexibility is higher, and sealing performance is preferable, can avoid lost, the reduction baking of heat in drying course
Dry efficiency and energy utilization rate;2) transmission structures are simply convenient for operating, and Oscillation Amplitude is small, avoid machine in drying course
There is high vibration in body, influences drying effect;3) drying unit drying course can avoid the uneven influence drying effect of drying occur
Fruit and apparel quality are beneficial to increase flesh comfortable features of clothing;4) heater is equipped in air inlet mechanism suitably to add heat again
Heat improves the temperature for entering hot wind in drying cavity, reaches a high temperature and sterilize purpose, bacterium is prevented to be attached on clothes, be beneficial to mention
The safety of high clothes and comfort provide necessary guarantee for human health;5) air outlet mechanism can be residual in centralized collection drying cavity
Remaining heat realizes energy recycling, reduces energy waste.
Detailed description of the invention
Fig. 1 is energy-efficient drying unit structural schematic diagram;
Fig. 2 is energy-efficient drying unit schematic diagram of internal structure;
Fig. 3 is air inlet mechanism structural schematic diagram;
Fig. 4 is air outlet mechanism structural schematic diagram;
Fig. 5 is transmission structures schematic diagram;
Fig. 6 is to turn over clothing rolling wheel structural schematic diagram;
Fig. 7 is column spinner side diagram.
It is attached in the figure, it is marked as 1 control switch, 2 drying boxes, 201 driving devices, 2011 transmission main shafts, 202 planetary gears
Group, 2021 worm screws, 2022 output worm gears, 2023 driving chains, 2024 planetary gears, 203 drivers, 2031 output circle wheel,
2032 straight-tooth bars, 2033 tripods, 2034 conveyer belts, 204 air outlet mechanisms, 2041 wind pipes, 2042 air outlets, 2043 outlet air
Clothing rolling wheel, 2051 connecting columns, volume 2052 are turned in frame, 2044 exhaust fans, 2045 filter cores, 2046 air inlets, 2047 insulating layers, 205
Wheel body, 2053 column spinners, 2054 squeeze tooth, 206 air inlet mechanisms, 2061 air inlet frames, 2062 filter screens, 2063 electronic wind
Fan, 2064 heaters, 207 bearing bases, 208 rotation columns, 209 transmission stocks, 3 sewage sumps, 4 bodies, 5 pedestals, 6 heater boxes.
Specific embodiment
Present invention is further described in detail with attached drawing with reference to embodiments:
Embodiment 1:
As shown in figs. 1-7, energy-efficient drying unit, including body 4;Drying box 2 in body 4, for drying clothes
Dress;Sewage sump 3 positioned at 2 bottom of drying box, for collecting dirt;Positioned at the heater box 6 of 4 rear side of body, for providing thermal energy;
Pedestal 5 positioned at 4 bottom of body, for carrying body 4;4 internal vertical of body is nested with drying box 2,4 bottom of body and rear side
It is respectively equipped with pedestal 5, heater box 6, heater box 6 and control switch 1 are electrically connected.When device works, clothes are put into body 4
Drying box 2 in, worked by the heater box 6 that control switch 1 starts the rear side of body 4, heater box 6 and air inlet mechanism 206 are mutual
Cooperation, promotes hot wind to enter in drying cavity, and at the same time, driving device 201 cooperates transmission device to drive drying unit and air inlet
Mechanism 206 moves, and under the action of turning over clothing rolling wheel 205, clothes is stirred, and realization drying is uniformly contacted with hot wind, and sewage sump 3 is used to
The impurity generated in drying course is collected, convenient for centralized processing, after the completion of drying work, the hot gas in drying cavity can pass through outlet air
Mechanism 204 is discharged, and realization recycles, and reduces energy waste;The occupied area of whole device is small, easy to remove, flexibility compared with
Height, and sealing performance is preferable, can avoid lost, reduction drying efficiency and the energy utilization rate of heat in drying course, wherein into
Heater is equipped in blower structure 206 suitably to heat heat again, improve the temperature for entering hot wind in drying cavity, reach high
Temperature sterilization purpose, prevents bacterium to be attached on clothes, is beneficial to improve safety and the comfort of clothes, provide for human health
Necessary guarantee.
Drying box 2 includes driving device 201, transmission device, air inlet mechanism 206, drying unit, air outlet mechanism 204, driving
Transmission device is connected with by main shaft 2011 on the right side of device 201, is connected with air inlet mechanism 206 on the right side of transmission device, is entered the wind
The perforation of mechanism 206 is connected in drying cavity, and drying unit is equipped in drying cavity, and perforation is connected with air outlet mechanism at the top of drying cavity
204.After clothes are put into drying box 2, driving device 201 is worked by 2011 driving transmission device of main shaft, and then drives air inlet fan
Structure 206, drying unit work, realize the drying to clothes, the hot gas in drying cavity are remained in after drying, can pass through air outlet mechanism
204 recycle, and reduce energy waste, and structure design is simple to operation, can be reasonable while realization to clothes flash baking
Utilize the energy.
Transmission device includes driver 203, planetary gear set 202, the total bar of transmission, the planet that driver 203 passes through bottom
Gear set 202 and the total bar of transmission are mechanically connected.Driving device 201 drives driver 203 to work by main shaft 2011, driver
The planetary gear set 202 of 203 drive mechanical connections works, and then drives and be driven total bar movement, what clothes were dried in realization
Expand drying range simultaneously.
Driver 203 includes tripod 2033, runs through on tripod 2033 and is connected with the straight-tooth bar connecting with spindle machine
2032, straight-tooth bar 2032 exports circle wheel 2031 and planet by the conveyer belt 2034 and output circle 2031 clearance fits of wheel on surface
202 axle center of gear set is in a straight line, exports circle wheel 2031 and is connect by conveyer belt 2034 with planetary gear 2024, planet tooth
Wheel 2024 is mechanically connected by the driving chain 2023 on its surface and the output worm gear 2022 of bottom, exports 2022 right side machine of worm gear
Tool is connected with worm screw 2021, and 2021 bottom of worm screw is connect with total bar top is driven.The close realization transmission of structure design cooperation
Oscillation Amplitude is small simultaneously, avoids body 4 in drying course from high vibration occur, influences drying effect.
Being driven total bar includes transmission stock 209, bearing base 207, and rotation column 208 is equipped at intervals on transmission stock 209 etc..It passes
Dynamic stock 209 is fixed in 2 intracavity bottom of drying box by bearing base 207, and rotation column 208 revolves 208 right side of column and turns over clothing rolling wheel 205
Connection stirs clothes in drying cavity convenient for turning over clothing rolling wheel 205.
Air inlet mechanism 206 includes air inlet frame 2061, and air inlet 2061 inside left of frame installs having heaters 2064, heating
It is connected with electric fan 2063, filter screen 2062 on the right side of device 2064 in turn.Heater 2064 can suitably increase hot blast temperature, pass through
High temperature, which reaches, sterilizes purpose to clothes, and bacterium is prevented to be attached on clothes, is beneficial to improve safety and the comfort of clothes, is
Human health provides necessary guarantee and uniformly divides hot wind while electric fan 2063 can accelerate hot wind and enter drying cavity speed
Enter in drying cavity after dissipating, increase the diffusional area of hot wind and the contact area with clothes, and filter screen 2062 can prevent
Grain object enters drying cavity and is adhered to drying cavity wall or clothing surface, influences clothes post-production while reducing drying effect,
In addition, the design of entire air inlet mechanism 206 can increase the hygroscopic capacity and moisture pick-up properties of high humidity clothes by improving temperature, in turn
Improve the comfort of clothes.
Air outlet mechanism 204 includes outlet air frame 2043, is equipped with insulating layer 2047, outlet air frame 2043 in outlet air frame 2043
Upper and lower port is respectively equipped with air outlet 2042, air inlet 2046, is equipped with filter core 2045 in air inlet 2046, in air outlet 2042
Equipped with exhaust fan 2044,2042 upper end of air outlet is connected with wind pipe 2041.Hot wind after the completion of drying work, in drying cavity
It is recycled after being discharged by air outlet mechanism 204, wherein the filter core 2045 installed in air inlet 2046 can filter out in hot wind
Grain object avoids it from entering and is adhered to 2043 inner wall of outlet air frame, and filter core is detachable installation, cleans convenient for staff or more
It changes, the insulating layer 2047 that outlet air frame 2043 is arranged can reduce heat loss, save energy consumption, the exhausting being arranged in air outlet 2042
Machine 2044 can accelerate hot wind conveying speed, reduce transmission process thermal losses.
Drying unit includes turning over clothing rolling wheel 205, turns over and is connected with connecting column 2051, connecting column at left and right sides of clothing rolling wheel 205
2051 one end are connect with rectangle rolling wheel main body 2052, and 2,052 4 right angles of rectangle rolling wheel main body are equipped with column spinner 2053, rotation
2053 surface of rotary column is equipped with platform shape squeezing rod 2054.Turn over clothing rolling wheel 205 during rotation, clothes is stirred in realization, stirs
It forms gap in the process, increases the contact area of hot wind and clothes, during clothes agitating, column spinner 2053 is first connect with clothing
Touching, and rolling wheel ontology 2052 is cooperated to form four channels for helping hot wind circulation, increase hot wind flow and its connecing with clothes
Contacting surface product avoids the occurrence of the uneven influence drying effect of drying and apparel quality;During column spinner 2053 and contact with clothing,
The platform shape squeezing rod 2054 and clothes on surface, which are formed, to be squeezed, and in extrusion process, shape bottom surface can be by pressure dissipation to clothing not
Same position, the cooperation of four squeezing rods 2054 are beneficial to by between rotary squeezing increase clothes gap while increasing clothes agitating
Hole, increase capillary synergistic effect and increase absorption and transmission capacity of the clothes to moisture while specific surface area, in turn
Increase the hygroscopicity of clothes, promotes comfortable features of clothing.
Embodiment 2
Column spinner 2053, extruding 2054 surface of tooth are coated with high-temperaure coating, and the high-temperaure coating is by following component according to weight
Amount is than composition: 50-60 parts of epoxy resin modified organosilicon resin for adding nanoparticle, and 18-22 parts of polybenzimidazoles, high temperature resistant
It is 3-5 parts of inorganic non-metallic compound, 23-28 parts of high temperature resistant filler, 1-1.5 parts of curing agent, 0.1-0.3 parts of glycerol -2-13C, molten
12-22 parts of agent, above-mentioned nanoparticle is nano-titanium dioxide, and the weight ratio with epoxy resin modified organosilicon resin is 1:
8, epoxy resin modified organosilicon resin is FJN-9803 epoxy modified silicone resin;The specific steps of above-mentioned coating include:
(1) other raw materials apart from toluene are proportionally added into reaction kettle, 180min is stirred with the speed of 550r/min;(2) will
Above-mentioned uniformly mixed raw material is ground, and 70 meshes are crossed;(3) it is equal that toluene allotment will be proportionally added into the raw material after sieving
It is even that the coating has good solar heat protection heat insulation up to coating, can effective protection hot conditions flowering structure material intensity and
Rigidity, and the density of paint film is smaller, strong shock resistance, column spinner 2053, extruding tooth coated with the high-temperature resistant coating
2054 mechanical properties that can keep excellent under high temperature oven-dried condition itself, and good heat insulation can reduce column spinner
2053, the thermal conductivity of tooth 2054 is squeezed, heat loss is reduced, improves energy utilization rate and the drying efficiency to clothes, wherein sweet
The chemical component in coating is prevented to move to external diffusion while the addition of oil -2-13C is remarkably improved the wear resistance of coating
Move, corrosive medium is to being permeated inside coating, be beneficial to improve the corrosion resistance of coating, so improve column spinner 2053,
The corrosion resistance for squeezing tooth 2054, prolongs its service life, avoids long-term contact with high wet clothes and corrosion phenomenon occur, shadow
Ring clothes drying effect.
It is found by test of many times, by weight, when raw material forms are as follows: the epoxy resin modification for adding nanoparticle has
52 parts of machine silicone resin, 19 parts of polybenzimidazoles, 4.5 parts of high temperature resistant inorganic nonmetallic compound, 23-28 parts of high temperature resistant filler, Gu
At 1.2 parts of agent, 0.2 part of glycerol -2-13C, 15 parts of solvent, the better effect of coating obtained.
Embodiment 3:
Energy-efficient drying unit of the invention is in actual use: clothes being put into the drying box 2 in body 4, are passed through
The heater box 6 that control switch 1 starts 4 rear side of body works, and heater box 6 and air inlet mechanism 206 cooperate, and hot wind is promoted to enter
In drying cavity, at the same time, driving device 201 cooperates transmission device that drying unit and air inlet mechanism 206 is driven to move, and is turning over clothing
Under the action of rolling wheel 205, clothes is stirred, and realization drying is uniformly contacted with hot wind, and sewage sump 3 is used to collect in drying course to generate
Impurity, convenient for centralized processing, after the completion of drying work, the hot gas in drying cavity can be discharged by air outlet mechanism 204, and realization follows
Ring utilizes, and reduces energy waste;The occupied area of whole device is small, easy to remove, and flexibility is higher, and sealing performance is preferable,
It can avoid lost, reduction drying efficiency and the energy utilization rate of heat in drying course.
The above embodiments are only used to illustrate the present invention, and not limitation of the present invention, the ordinary skill people of this field
Member can also make a variety of changes and modification without departing from the spirit and scope of the present invention.Therefore, all equivalent
Technical solution also belong to scope of the invention, scope of patent protection of the invention should be defined by the claims.
Claims (8)
1. energy-efficient drying unit, including body (4);
Drying box (2) in body (4), for drying clothes;
Sewage sump (3) positioned at drying box (2) bottom, for collecting dirt;
Heater box (6) on rear side of body (4), for providing thermal energy;
Pedestal (5) positioned at body (4) bottom, for carrying body (4);
It is characterized by: body (4) internal vertical is nested with drying box (2), body (4) bottom and rear side are set respectively
There are pedestal (5), heater box (6), the heater box (6) and control switch (1) are electrically connected.
2. energy-efficient drying unit according to claim 1, it is characterised in that: the drying box (2) includes driving
Device (201), transmission device, air inlet mechanism (206), drying unit, air outlet mechanism (204);
It is connected with transmission device by main shaft (2011) on the right side of the driving device (201), is connected on the right side of the transmission device
It is connected to air inlet mechanism (206), air inlet mechanism (206) perforation is connected in drying cavity, and drying dress is equipped in the drying cavity
It sets, perforation is connected with air outlet mechanism (204) at the top of the drying cavity.
3. energy-efficient drying unit according to claim 2, it is characterised in that: the transmission device includes driver
(203), planetary gear set (202), the total bar of transmission, the planetary gear set (202) and transmission that the driver (203) passes through bottom
Total bar mechanical connection.
4. energy-efficient drying unit according to claim 3, it is characterised in that: the driver (203) includes three
Corner bracket (2033), through being connected with the straight-tooth bar (2032) connecting with spindle machine, the straight-tooth on the tripod (2033)
The conveyer belt (2034) and output circle wheel (2031) clearance fit, the output circle wheel (2031) and row that bar (2032) passes through surface
Star gear set (202) axle center is in a straight line, and the output circle wheel (2031) passes through conveyer belt (2034) and planetary gear
(2024) it connects, the planetary gear (2024) passes through the driving chain (2023) on its surface and the output worm gear (2022) of bottom
Mechanical connection, output worm gear (2022) right side mechanical are connected with worm screw (2021), worm screw (2021) bottom and transmission
Connection at the top of total bar.
5. energy-efficient drying unit according to claim 3 or 4, it is characterised in that: the total bar of transmission includes passing
Dynamic stock (209), bearing base (207), the transmission stock (209) is first-class to be equipped at intervals with rotation column (208).
6. energy-efficient drying unit according to claim 2, it is characterised in that: the air inlet mechanism (206) includes
It enters the wind frame (206), air inlet frame (206) inside left installs having heaters (2064), and the heater (2064) is right
Side is connected with electric fan (2063), filter screen (2062) in turn.
7. energy-efficient drying unit according to claim 2, it is characterised in that: the air outlet mechanism (204) includes
Outlet air frame (2043), the outlet air frame (2043) is interior to be equipped with insulating layer (2047), the outlet air frame upper and lower port difference
Equipped with air outlet (2042), air inlet (2046), filter core (2045), the air outlet are installed in the air inlet (2042)
(2042) exhaust fan (2044) are equipped in, air outlet (2042) upper end is connected with wind pipe (2041).
8. energy-efficient drying unit according to claim 2, it is characterised in that: the drying unit includes turning over clothing volume
It takes turns (205), described turn over is connected with connecting column (2051) at left and right sides of clothing rolling wheel (205), described connecting column (2051) one end and square
Shape rolling wheel main body (2052) connection, (2052) four right angles of the rectangle rolling wheel main body are equipped with column spinner (2053), described
Column spinner (2053) surface is equipped with platform shape squeezing rod (2054).
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CN201811606869.5A CN109737705A (en) | 2018-12-27 | 2018-12-27 | Energy-efficient drying unit |
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CN201811606869.5A CN109737705A (en) | 2018-12-27 | 2018-12-27 | Energy-efficient drying unit |
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Cited By (3)
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CN113997556A (en) * | 2021-11-08 | 2022-02-01 | 浙江三强塑胶有限公司 | Production equipment and method for preparing oxford fabric based on polyurethane solid waste |
CN114086400A (en) * | 2021-11-08 | 2022-02-25 | 浙江三强塑胶有限公司 | Production equipment and production process for preparing oxford based on polyurethane solid waste |
CN117387355A (en) * | 2023-12-13 | 2024-01-12 | 沈阳汇达丰生物科技有限公司 | Drying and conveying equipment for silicon-rich biochar organic fertilizer |
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CN107917605A (en) * | 2017-12-27 | 2018-04-17 | 苏州旺谦纺织科技有限公司 | A kind of weaving drying unit |
CN108532244A (en) * | 2018-06-21 | 2018-09-14 | 湖州卓豪丝绸有限公司 | A kind of clothes processing drying unit |
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JP2001000787A (en) * | 1999-06-21 | 2001-01-09 | Osaka Gas Co Ltd | Hot air type fiber dryer |
CN201476484U (en) * | 2009-09-11 | 2010-05-19 | 响水梦飞斯新型纤维材料科技有限公司 | Energy-saving type drying device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN113997556A (en) * | 2021-11-08 | 2022-02-01 | 浙江三强塑胶有限公司 | Production equipment and method for preparing oxford fabric based on polyurethane solid waste |
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CN117387355B (en) * | 2023-12-13 | 2024-02-09 | 沈阳汇达丰生物科技有限公司 | Drying and conveying equipment for silicon-rich biochar organic fertilizer |
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Application publication date: 20190510 |