CN220503493U - Dryer with incense deodorizing function and wardrobe comprising dryer - Google Patents

Abstract

The utility model relates to the technical field of clothes cabinets with dryers, and discloses a dryer with a fragrance deodorizing function and a clothes cabinet comprising the dryer.

Description

Dryer with incense deodorizing function and wardrobe comprising dryer

Technical Field

The utility model relates to the technical field of clothes cabinets with dryers, in particular to a dryer with incense deodorizing function and a clothes cabinet comprising the dryer.

Background

Most clothes dryers comprise a rotary drum, an inner drum is driven by a belt, hot air is arranged around the drum for evaporating water, the principle that the drum is positively and negatively rotated is adopted by the clothes dryer drum to achieve the non-winding effect of clothes drying objects, and the clothes dryer has the advantages of complex structure, high maintenance cost, large occupied space of the independent clothes dryer, single functionality of the traditional wardrobe, and capability of storing clothes only, however, the phenomena of easy wetting, mildew, worm damage and the like in long-term storage of more clothes, and the traditional wardrobe is difficult to meet the needs of modern people.

In the wardrobe with the mite removal and drying function, the electric fan in the air suction pipe can be used for sucking air and heating the air through the electric heating pipe, so that hot air is generated and discharged through the air outlet hole, and clothes in the wardrobe body are dried, so that the condition that the clothes are wetted due to long-term placement is effectively prevented; clothes are dried in a guest room by the clothes drying wardrobe with the application number of 202010074766.X, and the clothes drying wardrobe has the dual functions of accommodating and drying, so that occupied space is reduced.

However, in practice, when the dryer is used, the dryer can only dry clothes, but the current dryer cannot perform self-adaptive adjustment of output power according to humidity of the clothes, so that the aim of energy-saving and efficient drying cannot be achieved, and when the wardrobe is used, the adjustment of the output power of the dryer cannot be performed according to the weight of the clothes inside, so that the clothes in the wardrobe cannot perform the most efficient drying operation when being dried, and therefore, the energy efficiency of the wardrobe is poor when the wardrobe is used.

Disclosure of Invention

The utility model aims to provide a dryer with incense deodorizing function and a wardrobe comprising the dryer, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a drying-machine with incense deodorization function, includes the drying-machine subassembly, the drying-machine subassembly includes dry gas generator, dry gas generator input fixed mounting has the air-supply line, dry gas generator's output fixed mounting has the tuber pipe, the air-supply line other end and air intake intercommunication, dry gas generator's left side is provided with the condenser, the fixed mounting of input of condenser has the honeycomb duct, the other end and the return air inlet intercommunication of honeycomb duct, just fixed mounting has humidity transducer in the return air inlet, the fixed mounting of output of condenser has the drain pipe, the fixed mounting of other end of drain pipe has the amount of wind adjustment subassembly.

The air quantity adjusting assembly comprises a conical ventilation groove communicated with the drain pipe, a first electromagnet is fixedly arranged at the inner top of the conical ventilation groove, a reset spring is fixedly connected to the bottom of the first electromagnet, a windshield is fixedly arranged at the bottom end of the reset spring, and the windshield is matched with the conical ventilation groove.

The dryer assembly further includes a controller electrically connected to the drying gas generator, the condenser, the humidity sensor, the first electromagnet.

Preferably, the air inlet is internally provided with a protective filter screen in a clamping manner, the other end of the air outlet pipe is communicated with a heat conducting port, a blast fan electrically connected with a controller is fixedly arranged in the heat conducting port, and the heat conducting port and the air return port are internally provided with a hydrophobic rock wool board in a clamping manner.

The utility model provides a wardrobe, contains cabinet body subassembly and drying-machine subassembly, the water conservancy diversion subassembly is assembled in the cabinet body subassembly, the block terminal has been seted up in the cabinet body subassembly, drying-machine unit fixed mounting is in the block terminal, the bottom left and right sides all is provided with first receiving room in the cabinet body subassembly, the upside of block terminal is provided with the clothes-horse room, the clothes-horse room left and right sides all is provided with the second receiving room, the toper ventilation slot is seted up in cabinet body subassembly bottom left side, the air intake is seted up on cabinet body subassembly bottom right side, the heat-conducting mouth intercommunication goes out tuber pipe and clothes-horse room, the return air mouth intercommunication honeycomb duct and clothes-horse room, be fixed with in the clothes-horse room and put the thing board.

Preferably, the clothes hanging assembly is arranged in the clothes drying chamber, the clothes hanging assembly comprises a chute formed in the left side wall and the right side wall of the clothes drying chamber, a guide rod is fixed in the chute, a second electromagnet is fixed at the top end of the guide rod, a guide cylinder is slidably assembled on the guide rod, a support spring sleeved outside the guide rod is assembled at the bottom of the guide cylinder, the bottom of the support spring is fixed at the bottom in the chute, a pressure sensor is fixedly assembled at the top end of the support spring and the assembling position of the guide cylinder, a clothes hanging rod is fixedly installed between the two groups of guide cylinders, and the controller is electrically connected with the pressure sensor and the second electromagnet.

Preferably, the access door matched with the distribution room is hinged and assembled on the front side wall of the cabinet body assembly, the cabinet body assembly comprises a first cabinet door matched with the first storage room, a second cabinet door hinged and installed on the front side of the clothes drying room, and a third cabinet door hinged and assembled on the front side of the second storage room.

Preferably, the sliding grooves are oppositely arranged, the guide cylinder and the sliding grooves are assembled in a sliding manner, a guide through hole matched with the guide rod is formed in the guide cylinder, and an armature plate matched with the second electromagnet is embedded in the top of the guide cylinder.

Preferably, the size of the object placing plate is matched with the size of the clothes drying chamber, the air guide holes which are arranged in an array are uniformly formed in the clothes drying chamber, and the object placing plate corresponds to the heat conducting opening and the air return opening.

Preferably, the air quantity adjusting component is communicated with the drain pipe, the drain pipe is communicated with the conical ventilation groove, the outer side wall of the windshield is an inclined plane and is matched with the inner wall of the conical ventilation groove, and the ultimate tensile length of the return spring is the length from the bottom of the windshield to the bottom of the conical ventilation groove.

Preferably, the clothes airing room is internally provided with an aromatherapy component fixed on the object placing plate, the aromatherapy component is electrically connected with the controller, the rear side wall of the cabinet body component is provided with a flip heat dissipation port communicated with the distribution room, and the flip heat dissipation port corresponds to the drying gas generator.

Preferably, the guide assembly comprises guide plates which are assembled in the clothes drying chamber in a sliding manner, the guide plates are arranged right above the clothes hanging rods, clothes dispersing grooves corresponding to the clothes hanging rods are uniformly formed in the guide plates, sliding ways which are assembled with the guide plates in a sliding manner are formed in the left side wall and the right side wall of the clothes drying chamber, and third electromagnets which are matched with the guide plates are fixed at the inner top of the clothes drying chamber.

Preferably, the clothes guiding groove comprises a guiding through hole which is transversely formed and matched with the clothes hanging rod, the side wall of the guiding through hole is communicated with clothes guiding grooves which are formed in the front and back directions, the clothes guiding grooves are uniformly formed, and the guide plate is internally nested with an armature plate which is matched with the third electromagnet.

Compared with the prior art, the utility model has the beneficial effects that:

1. the humidity sensor can detect the humidity of the water in the cabinet body assembly at any time, so that the regulation and control of the drying gas generator can be realized according to the humidity of the water in the cabinet body assembly, the drying efficiency of the water in the cabinet body assembly can be improved, the water enters the guide pipe from the return air inlet after being dried, then the water vapor is condensed through the condenser, and then the water vapor is discharged out of the cabinet body assembly through the drain pipe, so that the water on clothes in the cabinet body assembly can be condensed into condensed water after being dried and discharged.

2. When the moisture content in the cabinet body assembly is gradually increased, the controller increases the output power of the drying gas generator, so that the gas generation amount of the drying gas generator can be increased, the hot air amount led into the cabinet body assembly in unit time is increased under the action of the blower fan, the carrying amount of the moisture in the hot air flowing process can be greatly improved, the moisture content in the cabinet body assembly can be neutralized, the moisture content in the cabinet body assembly can be effectively reduced, the moisture content in the cabinet body assembly can be regulated and controlled, the drying speed of clothes is prevented from being influenced due to overlarge moisture in the cabinet body assembly, meanwhile, the increase and decrease of the output power of the drying gas generator can be realized based on the increase and decrease of the moisture content in the cabinet body assembly, the drying speed of the clothes in the cabinet body assembly can be improved, the gas amount and the temperature of the drying gas generator can be regulated and controlled in real time according to the moisture content change of the humidity sensor, and the aim of regulating and controlling the moisture content in real time along with the moisture content change can be achieved, and the aim of maximum drying efficiency can be achieved.

3. When the moisture content in the cabinet body assembly is gradually increased, the controller controls the air quantity adjusting assembly to work, namely, the current led into the first electromagnet is gradually increased along with the increase of the moisture content, so that the magnetic repulsive force generated by the first electromagnet to the windshield is gradually increased, then the magnetic repulsive force overcomes the reset spring to push the windshield to move downwards in the conical ventilation groove, the opening between the windshield and the conical ventilation groove is gradually increased, the air quantity led out from the air return opening is also increased along with the downward movement of the windshield along with the increase of the hot air quantity led into the cabinet body assembly by the dry gas generator, the air flow quantity in the cabinet body assembly is also gradually increased, the moisture content in the cabinet body can be reduced, the air guide opening of the air quantity adjusting assembly is increased along with the increase of the gas production quantity of the dry gas generator, and the air flow quantity can be increased while the increase of the air flow quantity is increased.

4. The weight of the clothes can directly act on the pressure sensor, so that the weight of the clothes can be directly displayed by the pressure sensor, when the drying gas generator works, the hot gas introduced into the cabinet body assembly can take away the moisture on the clothes, then the moisture content in the clothes drying chamber is gradually increased, the pressure on the pressure sensor is reduced along with the reduction of the moisture content, and therefore the pressure value on the pressure sensor can also indirectly reflect the moisture content condition of the clothes during drying, and the moisture content condition of the clothes in the clothes drying chamber can be accurately monitored by matching with the use of the humidity sensor, so that the output control of the drying gas generator is conveniently realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

FIG. 2 is a schematic diagram of the overall internal structure of the present utility model.

Fig. 3 is a schematic view of the structure of the dryer assembly according to the present utility model.

Fig. 4 is an enlarged view of the structure of the portion B of the present utility model.

Fig. 5 is a schematic view of the overall horizontal sectional structure of the present utility model.

Fig. 6 is a schematic view of a partial assembly structure of the present utility model.

Fig. 7 is an enlarged schematic view of the portion a of the present utility model.

Fig. 8 is a schematic structural diagram of a second embodiment of the present utility model.

Fig. 9 is a schematic view of a first view assembly structure of the deflector assembly according to the present utility model.

Fig. 10 is a schematic view of a second view angle assembly structure of the flow guiding assembly of the present utility model.

In the figure: 1. a cabinet assembly; 11. a distribution room; 12. a first storage chamber; 13. a clothes drying room; 14. a second storage chamber; 15. an access door; 16. a first cabinet door; 17. a second cabinet door; 18. a third cabinet door; 2. a dryer assembly; 21. a dry gas generator; 22. an air inlet pipe; 23. an air inlet; 24. an air outlet pipe; 25. a heat conducting port; 26. a condenser; 27. a flow guiding pipe; 28. an air return port; 29. a humidity sensor; 210. a blower fan; 211. a drain pipe; 212. a storage plate; 3. an air quantity adjusting component; 31. a tapered vent slot; 32. a first electromagnet; 33. a return spring; 34. a wind shield; 4. a clothes hanging component; 41. a chute; 42. a guide rod; 43. a guide cylinder; 44. a pressure sensor; 45. a support spring; 46. a second electromagnet; 47. a clothes hanging rod; 5. a flow guiding assembly; 51. a deflector; 52. a clothes drain groove; 53. a slideway; 54. and a third electromagnet.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a drying-machine with incense deodorization function, including drying-machine subassembly 2, drying-machine subassembly 2 includes dry gas generator 21, dry gas generator 21 input fixed mounting has air-supply line 22, dry gas generator 21's output fixed mounting has air-out line 24, the air-supply line 22 other end and air intake 23 intercommunication, dry gas generator 21's left side is provided with condenser 26, condenser 26's input fixed mounting has honeycomb duct 27, honeycomb duct 27's the other end and return air inlet 28 intercommunication, and return air inlet 28 internal fixed mounting has humidity transducer 29, condenser 26's output fixed mounting has drain 211.

During the use, humidity transducer 29 can detect the moisture humidity in the cabinet body subassembly 1 constantly, can realize the regulation and control to dry gas generator 21 according to the inside moisture humidity of cabinet body subassembly 1 like this, can improve the inside moisture drying efficiency to cabinet body subassembly 1, and moisture enters into honeycomb duct 27 from return air inlet 28 after the stoving, then vapor condenses through condenser 26, then outside the cabinet body subassembly 1 is discharged through drain pipe 211, can be with the moisture on the clothing in the cabinet body subassembly 1 after the stoving condensed water discharge like this.

Referring to fig. 4, an air volume adjusting assembly 3 is fixedly mounted at the other end of the drain pipe 211, the air volume adjusting assembly 3 includes a conical ventilation slot 31 communicated with the drain pipe 211, a first electromagnet 32 is fixedly mounted at the top in the conical ventilation slot 31, a return spring 33 is fixedly connected to the bottom of the first electromagnet 32, a wind shield 34 is fixedly mounted at the bottom end of the return spring 33, and the wind shield 34 is adapted to the conical ventilation slot 31.

Dryer assembly 2 further includes a controller electrically connected to drying gas generator 21, condenser 26, humidity sensor 29, and first electromagnet 32.

When the clothes with moisture not dried are placed in the cabinet body assembly 1, the moisture sensor 29 detects that the moisture in the cabinet body assembly 1 does not reach the minimum threshold value because the water dispersion speed is low, the dry gas generator 21 does not work, the controller controls the dry gas generator 21 to start to work along with the increase of the moisture content when the moisture content reaches the minimum threshold value of the moisture sensor 29, the air inlet 23 can ensure the normal work of the dry gas generator 21, hot air generated by the dry gas generator 21 is led into the clothes drying chamber 13 through the air outlet pipe 24 and the heat conducting port 25, the water on the clothes can be dried by utilizing the hot air under the work of the blower fan 210, the air in the clothes drying chamber 13 flows along with the work of the blower fan 210, the contact area of the clothes and the hot air increases, the efficiency of drying the clothes is improved along with the flow of the hot air, the dried air carries water vapor along with the flow of the air to the inside the air inlet pipe 28, the air outlet pipe 211 is finally condensed through the condenser 26 and then is led into the clothes drying chamber 13, the clothes airing chamber is discharged through the water drain pipe 211, and the inside the clothes airing assembly 211 can be discharged through the air circulation assembly 1.

In the process of drying by the hot air generated by the drying gas generator 21, as the hot air is accumulated, the moisture on the clothes is increased by the hot air, so that the moisture content in the cabinet assembly 1 is gradually increased, which indicates that the clothes drying operation is being performed, however, when the moisture content in the cabinet assembly 1 is increased, the moisture humidity in the cabinet assembly 1 is increased, so that the moisture is easily adhered to the clothes for the second time, when the moisture humidity in the cabinet assembly 1 reaches the highest threshold value of the humidity sensor 29, the moisture humidity in the cabinet assembly 1 exceeds the preset threshold value, and the probability that the moisture in the air is adhered to the clothes again is increased, so that the drying efficiency of the clothes is seriously affected.

When the moisture content in the cabinet body assembly 1 is gradually increased, the controller increases the output power of the drying gas generator 21, so that the gas generation amount of the drying gas generator 21 can be increased, the hot air amount led into the cabinet body assembly 1 in unit time is increased under the action of the blower fan 210, the carrying amount of the moisture in the hot air flowing process can be greatly improved, the moisture content in the cabinet body assembly 1 can be neutralized, the moisture content in the cabinet body assembly 1 is effectively reduced, the moisture content in the cabinet body assembly 1 can be regulated and controlled, the drying speed of clothes is prevented from being influenced due to overlarge moisture in the cabinet body assembly 1, the increase and decrease of the output power of the drying gas generator 21 can be realized based on the increase and decrease of the moisture content in the cabinet body assembly 1, and the drying speed of the clothes in the cabinet body assembly 1 can be improved while energy is saved.

The air quantity adjusting component 3 is communicated with the drain pipe 211, the drain pipe 211 is communicated with the conical ventilation groove 31, the outer side wall of the windshield 34 is an inclined plane and is matched with the inner wall of the conical ventilation groove 31, and the ultimate tensile length of the return spring 33 is the length from the bottom of the windshield 34 to the bottom of the conical ventilation groove 31.

It should be noted that, when the moisture content in the cabinet assembly 1 increases gradually, the controller controls the air volume adjusting assembly 3 to operate, that is, as the moisture content increases, the current led into the first electromagnet 32 increases gradually, so that the magnetic repulsive force generated by the first electromagnet 32 to the windshield 34 increases gradually, and then the magnetic repulsive force overcomes the return spring 33 to push the windshield 34 to move down in the conical ventilation groove 31, so that the opening between the windshield 34 and the conical ventilation groove 31 increases gradually, so that as the amount of heat introduced into the cabinet assembly 1 by the drying air generator 21 increases, the amount of air led out from the air return opening 28 increases as the windshield 34 moves down, so that the air flow in the cabinet assembly 1 also increases gradually, the moisture content in the cabinet assembly 1 can be reduced, so that the size of the air guiding opening of the air volume adjusting assembly 3 increases as the amount of air generated by the drying air generator 21 increases, and the air flow rate can be increased.

It should be noted that, when the moisture content in the cabinet assembly 1 does not reach the threshold value and increases gradually, the output power of the drying gas generator 21 also increases gradually, so that the gas generation amount of the drying gas generator 21 can be increased, however, in this process, moisture on the clothes in the cabinet assembly 1 still is scattered, when the moisture content in the cabinet assembly 1 still increases, the increase amplitude is only reduced, which indicates that the gas generation amount of the drying gas generator 21 is insufficient to balance the moisture content in the cabinet assembly 1, so that the controller also increases the gas generation amount of the drying gas generator 21, when the moisture content in the cabinet assembly 1 remains unchanged, the gas generation amount of the drying gas generator 21 just neutralizes the outer scattering amount of the moisture on the clothes, which indicates that the gas generation amount of the drying gas generator 21 at the output power is adapted to the drying speed of the clothes at the temperature, and the output power of the drying gas generator 21 at the temperature can promote the clothes to reach the highest drying efficiency, so that the drying speed of the clothes can be represented by the moisture content in the cabinet assembly 1.

Under the premise of controlling the air quantity of the drying gas generator 21 to keep unchanged, the maximum moisture external dispersion quantity of clothes in the cabinet body assembly 1 can be ensured, the drying efficiency is the highest at the moment, thus, when the moisture content in the cabinet body assembly 1 is reduced, the speed of reducing the moisture content in the cabinet body assembly 1 is small at the moment along with the increase of the temperature, however, after the clothes are dried for a period of time, the moisture content in the clothes is greatly reduced, at the moment, the moisture content in the clothes is reduced in unit time, so that the moisture content in the cabinet body assembly 1 is detected to be reduced, at the moment, the controller controls the drying gas generator 21 to increase the temperature of the drying gas, so that the temperature in the cabinet body assembly 1 can be conveniently increased, and the drying speed of the moisture content in the cabinet body assembly 1 is reduced along with the increase of the temperature until the moisture content is not increased any more, at the moment, the maximum moisture content in the cabinet body assembly 1 is not increased along with the increase of the temperature, the maximum moisture content in the cabinet body assembly 1 is increased, the drying speed of the clothes at the moment, the maximum temperature and the temperature of the drying gas can be changed along with the maximum temperature, and the temperature of the drying gas can be controlled according to the maximum temperature, and the humidity of the drying gas can be changed in real time, and the drying efficiency of the drying gas can be controlled according to the maximum temperature and the maximum moisture content.

The air intake 23 internal joint is equipped with the protection filter screen, go out tuber pipe 24's the other end and heat conduction mouth 25 intercommunication, the fixed blast fan 210 that is equipped with and controller electric connection in the heat conduction mouth 25, equal joint is equipped with hydrophobic rock wool board in heat conduction mouth 25 and the return air mouth 28, the protection filter screen can filter external gas, improve leading-in gaseous clean degree, hydrophobic rock wool board can block the protection to heat conduction mouth 25 and return air mouth 28, can dredge the vapor and not influence moisture and flow along with gaseous circulation simultaneously.

The utility model provides a wardrobe, contain drying-machine subassembly 2 and cabinet body subassembly 1, set up distribution room 11 in the cabinet body subassembly 1, drying-machine subassembly 2 fixed mounting is in distribution room 11, the bottom left and right sides all is provided with first receiving room 12 in the cabinet body subassembly 1, the upside of distribution room 11 is provided with clothes-horse 13, clothes-horse 13 left and right sides all is provided with second receiving room 14, the toper ventilation groove 31 is seted up in cabinet body subassembly 1 bottom left side, the air intake 23 is seted up on cabinet body subassembly 1 bottom right side, heat-conducting port 25 intercommunication goes out tuber pipe 24 and clothes-horse 13, return air port 28 intercommunication honeycomb duct 27 and clothes-horse 13, clothes-horse 13 internal fixation has put thing board 212.

Referring to fig. 6-7, a clothes hanging assembly 4 is arranged in a clothes drying chamber 13, the clothes hanging assembly 4 comprises a sliding groove 41 formed in the left side wall and the right side wall of the clothes drying chamber 13, a guide rod 42 is fixed in the sliding groove 41, a second electromagnet 46 is fixed at the top end of the guide rod 42, a guide cylinder 43 is assembled on the guide rod 42 in a sliding manner, a support spring 45 sleeved on the outer side of the guide rod 42 is assembled at the bottom of the guide cylinder 43, the bottom end of the support spring 45 is fixed at the inner bottom of the sliding groove 41, a pressure sensor 44 is fixedly assembled at the assembling position of the top end of the support spring 45 and the guide cylinder 43, a clothes hanging rod 47 is fixedly installed between the two groups of guide cylinders 43, a controller is electrically connected with the pressure sensor 44 and the second electromagnet 46, the sliding groove 41 is arranged in a facing manner, a guide through hole matched with the guide rod 42 is formed in the guide cylinder 43 in a sliding manner, and an armature plate matched with the second electromagnet 46 is assembled at the top of the guide cylinder 43 in a sleeved manner.

When the clothes cabinet is used, people can hang clothes on the clothes hanging rod 47, when the clothes are hung on the clothes hanging rod 47, the weight of the clothes can act on the supporting spring 45 through the clothes hanging rod 47 and the guide cylinder 43, then the supporting spring 45 can be caused to be compressed, meanwhile, the weight of the clothes can directly act on the pressure sensor 44, and therefore the weight of the clothes can be directly displayed through the pressure sensor 44, in the actual use process, when the drying gas generator 21 works, hot air introduced into the cabinet body assembly 1 can take away the moisture on the clothes, then the moisture content in the clothes drying chamber 13 is gradually increased, the pressure on the pressure sensor 44 is reduced along with the reduction of the moisture content, and therefore the pressure value on the pressure sensor 44 can also indirectly reflect the moisture content condition of the clothes during drying, and the use of the humidity sensor 29 can be matched, so that the moisture content condition of the clothes in the clothes drying chamber 13 can be accurately monitored, and the output control of the drying gas generator 21 can be conveniently realized.

It should be noted that, when the pressure change rate of the pressure sensor 44 is smaller than the threshold value, the clothes are in a near-drying state, however, the humidity sensor 29 in the cabinet assembly 1 still can detect the moisture content after drying, the controller controls the second electromagnet 46 to be electrified, so that the pressure value on the pressure sensor 44 has no reference meaning, the detection of the drying degree of the moisture is not participated, and importantly, the current in the second electromagnet 46 is cyclically input from small to large and from large to small, so that the magnetic repulsive force generated by the second electromagnet 46 to the guide cylinder 43 also changes along with the change, and in the process that the humidity sensor 29 can detect the moisture content, the magnetic repulsive force can overcome the supporting force of the supporting spring 45 and slide in the sliding chute 41, and the hot air can be driven to reciprocate up and down in the drying chamber 13 by the clothes hanging rod 47, so that the clothes can move up and down, and the contact area of the clothes and the air is increased, and the thorough drying degree of the clothes is improved.

When the humidity sensor 29 detects that the moisture content is less than the threshold value, the controller controls the current led into the second electromagnet 46 to be 0, and simultaneously, the drying gas generator 21 is turned off to control the blower fan 210 to continuously work, and the moisture in the cabinet assembly 1 is discharged out of the cabinet assembly 1 along with the gas in the blowing state of the blower fan 210, so that the pressure sensor 44 is re-involved in the detection of the moisture drying degree.

When the pressure change rate of the pressure sensor 44 is 0 and the moisture content detected by the humidity sensor 29 is less than the threshold value, it indicates that the laundry is in a drying state, and at this time, the controller controls the electrical components in the device to stop working, so that the drying operation of the laundry in the wardrobe can be completed.

Referring to fig. 1, the front side wall of the cabinet body assembly 1 is hinged with an access door 15 adapted to the distribution room 11, the cabinet body assembly 1 comprises a first cabinet door 16 adapted to the first storage room 12, a second cabinet door 17 hinged to the front side of the clothes drying room 13, and a third cabinet door 18 hinged to the front side of the second storage room 14, so that the cabinet door can facilitate the switching operation on the distribution room 11, the first storage room 12, the clothes drying room 13 and the second storage room 14, and convenience is improved.

Put thing board 212 size and the adaptation of clothes-horse 13 size, and evenly offered the wind-guiding hole of array arrangement on the clothes-horse 13, and put thing board 212 and heat-conducting mouth 25, return air inlet 28 correspond, and the setting of wind-guiding hole can improve thermal distribution degree of consistency, and improves the stoving degree of consistency to the clothing, in the course of the work of dry gas generator 21, heat-conducting mouth 25 can realize the outer dispersion to the steam, and return air inlet 28 can carry out the backward flow with the gas after the stoving, improves the gas circulation smoothness of clothes-horse 13.

Examples

In the process of using the first embodiment, it is found that, in the process of drying the clothes hung on the clothes hanging assembly 4 by the dryer, the drying sequence of the moisture on the clothes is sequentially carried out from top to bottom, and because the space in the clothes drying chamber 13 is constant, the circulation process of the hot air introduced into the clothes drying chamber 13 by the drying gas generator 21 is carried out anticlockwise, thus the introduced hot air can rise to the top of the clothes drying chamber 13, the heat exchange is carried out again on the dried clothes, the circulation path of the hot air cannot be adjusted in real time according to the drying condition of the clothes, the utilization rate of the hot air is greatly reduced, the drying efficiency of the clothes is greatly reduced, and based on this, the following improvement scheme is proposed:

referring to fig. 8-10, a guide assembly 5 is assembled in the cabinet assembly 1, the guide assembly 5 comprises a guide plate 51 slidingly assembled in the clothes drying chamber 13, the guide plate 51 is arranged right above the clothes hanging rod 47, clothes guiding grooves 52 corresponding to the clothes hanging rod 47 are uniformly formed in the guide plate 51, sliding ways 53 slidingly assembled with the guide plate 51 are formed in the left side wall and the right side wall of the clothes drying chamber 13, and a third electromagnet 54 matched with the guide plate 51 is fixed at the inner top of the clothes drying chamber 13.

When the clothes airing device is used, the controller controls the third electromagnet 54 to be electrified and the current led into the third electromagnet 54 is maximum, so that the top position can be lifted to the guide plate 51, when clothes are hung in the clothes airing chamber 13, the clothes pass through the clothes hydrophobic groove 52 on the guide plate 51 and are hung on the clothes hanging rod 47, the weight of the clothes can act on the supporting spring 45 through the clothes hanging rod 47 and the guide cylinder 43, then the supporting spring 45 can be promoted to be compressed, meanwhile, the weight of the clothes can directly act on the pressure sensor 44, the weight of the clothes can be directly displayed through the pressure sensor 44, in the actual using process, the hot air led into the cabinet body assembly 1 can take away the moisture on the clothes when the drying gas generator 21 works, then the moisture content in the clothes airing chamber 13 is gradually increased, the pressure on the pressure sensor 44 is reduced along with the reduction of the moisture content, the change of the pressure on the pressure sensor 44 indicates that the moisture on the clothes is in a drying state, the pressure change speed on the pressure sensor 44 represents the drying speed on the clothes, the weight of the clothes can be directly displayed through the pressure sensor 44, and the humidity of the clothes can be accurately monitored when the pressure sensor 44 is matched with the humidity condition of the moisture content of the clothes in the drying chamber 13.

When the hot air is introduced into the clothes drying chamber 13 by the drying air generator 21, the hot air can move to the inner top of the clothes drying chamber 13 along with the rising of the hot air, and the air flow is accelerated under the blowing action of the blowing fan 210, so that the hot air and clothes can be subjected to heat exchange to realize the rapid drying of the clothes moisture, the moisture drying condition can be detected at any time along with the change of the pressure value on the pressure sensor 44, and when the upper part of the clothes is in a near-drying state, the moisture drying rate is reduced, the change speed of the pressure value on the pressure sensor 44 is reduced, however, the humidity sensor 29 in the clothes drying chamber 13 can monitor that the humidity is still higher, at the moment, the condition that the upper part of the clothes is in the near-drying state is indicated, the controller controls the current in the third electromagnet 54 to be gradually reduced, so that the magnetic attraction force of the third electromagnet 54 to the guide plate 51 is reduced, the guide plate 51 slides in the slide way 53 to move downwards, can realize the diversion flattening of clothes in the downward movement process of the diversion plate 51, can reduce the distance from the diversion plate 51 to the bottom of the clothes drying chamber 13, can block hot air due to the blocking effect of the diversion plate 51 when the air introduced into the clothes drying chamber 13 rises when the drying gas generator 21 works, can shorten the moving path of the hot air, can promote the hot air to adjust the drying position of the clothes along with the movement of the diversion plate 51 in the downward movement process of the diversion plate 51, can adjust the position of the diversion plate 51 according to the speed of drying the water on the clothes, can improve the water drying efficiency of the hot air when flowing, can realize the downward movement adjustment of the position of the diversion plate 51 according to the change rate of the pressure value on the pressure sensor 44, can promote the hot air to correspond to the position with larger water on the clothes, and the drying efficiency of the clothes moisture is improved.

The clothing dredging groove 52 comprises a guiding through hole which is transversely formed and matched with the clothes hanging rod 47, the side wall of the guiding through hole is communicated with clothing guiding grooves which are formed in the front and back directions, the clothing guiding grooves are uniformly formed, the clothing dredging groove 52 on the guiding plate 51 can flatten clothing, preparation can be made for clothing drying, and an armature plate matched with the third electromagnet 54 is nested in the guiding plate 51.

When the pressure change rate of the pressure sensor 44 is 0 and the moisture content detected by the humidity sensor 29 is less than the threshold value, it indicates that the laundry is in a drying state, and at this time, the controller controls the electrical components in the device to stop working, so that the drying operation of the laundry in the wardrobe can be completed.

The clothes drying room 13 is internally provided with the aromatherapy component fixed on the object placing plate 212, the aromatherapy component is electrically connected with the controller, the rear side wall of the cabinet body component 1 is provided with the inverted heat dissipation opening communicated with the power distribution room 11, the inverted heat dissipation opening corresponds to the drying gas generator 21, the controller controls the aromatherapy component to work when the drying gas generator 21 works, the aromatherapy operation can be carried out on clothes in the clothes drying room 13, and the fragrance degree of the clothes during drying is improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A dryer with incense deodorization function, includes dryer subassembly (2), its characterized in that: the dryer assembly (2) comprises a drying gas generator (21), an air inlet pipe (22) is fixedly arranged at the input end of the drying gas generator (21), an air outlet pipe (24) is fixedly arranged at the output end of the drying gas generator (21), the other end of the air inlet pipe (22) is communicated with an air inlet (23), a condenser (26) is arranged at the left side of the drying gas generator (21), a flow guide pipe (27) is fixedly arranged at the input end of the condenser (26), the other end of the flow guide pipe (27) is communicated with an air return opening (28), a humidity sensor (29) is fixedly arranged in the air return opening (28), a water outlet pipe (211) is fixedly arranged at the output end of the condenser (26), and an air quantity adjusting assembly (3) is fixedly arranged at the other end of the water outlet pipe (211).

The air quantity adjusting assembly (3) comprises a conical ventilation groove (31) communicated with a drain pipe (211), a first electromagnet (32) is fixedly arranged at the inner top of the conical ventilation groove (31), a return spring (33) is fixedly connected to the bottom of the first electromagnet (32), a wind shield (34) is fixedly arranged at the bottom end of the return spring (33), and the wind shield (34) is matched with the conical ventilation groove (31);

the dryer assembly (2) further comprises a controller electrically connected with the drying gas generator (21), the condenser (26), the humidity sensor (29) and the first electromagnet (32).

2. The dryer with incense deodorizing function according to claim 1, wherein: the air inlet (23) is internally provided with a protective filter screen in a clamping manner, the other end of the air outlet pipe (24) is communicated with the heat conducting port (25), a blower fan (210) electrically connected with the controller is fixedly arranged in the heat conducting port (25), and the heat conducting port (25) and the air return port (28) are internally provided with a hydrophobic rock wool plate in a clamping manner.

3. A wardrobe comprising a dryer with incense deodorizing function according to claim 2, characterized in that: the clothes airing device comprises a cabinet body assembly (1), a flow guide assembly (5) is assembled in the cabinet body assembly (1), a distribution chamber (11) is formed in the cabinet body assembly (1), a dryer assembly (2) is fixedly installed in the distribution chamber (11), first storage chambers (12) are formed in the left side and the right side of the inner bottom of the cabinet body assembly (1), a clothes airing chamber (13) is formed in the upper side of the distribution chamber (11), second storage chambers (14) are formed in the left side and the right side of the clothes airing chamber (13), a conical ventilation groove (31) is formed in the left side of the bottom of the cabinet body assembly (1), an air inlet (23) is formed in the right side of the bottom of the cabinet body assembly (1), a heat conducting opening (25) is communicated with an air pipe (24) and the clothes airing chamber (13), an air return opening (28) is communicated with a flow guide pipe (27) and the clothes airing chamber (13), and a storage plate (212) is fixedly arranged in the clothes airing chamber (13).

The clothes hanger comprises a clothes hanger body, a clothes hanger assembly (4) is arranged in a clothes hanger chamber (13), the clothes hanger assembly (4) comprises a sliding groove (41) formed in the left side wall and the right side wall of the clothes hanger body (13), a guide rod (42) is fixed in the sliding groove (41), a second electromagnet (46) is fixed at the top end of the guide rod (42), a guide cylinder (43) is slidably arranged on the guide rod (42), a supporting spring (45) sleeved outside the guide rod (42) is arranged at the bottom of the guide cylinder (43), the bottom of the supporting spring (45) is fixed at the inner bottom of the sliding groove (41), a pressure sensor (44) is fixedly arranged at the assembly position of the top end of the supporting spring (45) and the guide cylinder (43), a clothes hanger rod (47) is fixedly arranged between the two groups of the guide cylinders (43), and the controller is electrically connected with the pressure sensor (44) and the second electromagnet (46).

4. A wardrobe according to claim 3, wherein: the cabinet body assembly (1) is hinged to be equipped with access door (15) matched with power distribution room (11), cabinet body assembly (1) includes first cabinet door (16) matched with first storage room (12), second cabinet door (17) of bisecting are hinged to and installed to clothes-horse (13) front side, third cabinet door (18) are hinged to and equipped with to second storage room (14) front side.

5. A wardrobe according to claim 3, wherein: the sliding chute (41) is arranged oppositely, the guide cylinder (43) and the sliding chute (41) are assembled in a sliding mode, a guide through hole matched with the guide rod (42) is formed in the guide cylinder (43), and an armature plate matched with the second electromagnet (46) is arranged on the top of the guide cylinder (43) in an embedding mode.

6. A wardrobe according to claim 3, wherein: the size of the object placing plate (212) is matched with the size of the clothes drying chamber (13), the air guide holes distributed in an array are uniformly formed in the clothes drying chamber (13), and the object placing plate (212) corresponds to the heat conducting port (25) and the air return port (28).

7. A wardrobe according to claim 3, wherein: the air quantity adjusting assembly (3) is communicated with the drain pipe (211), the drain pipe (211) is communicated with the conical ventilation groove (31), the outer side wall of the windshield (34) is an inclined surface and is matched with the inner wall of the conical ventilation groove (31), and the ultimate stretching length of the return spring (33) is the length from the bottom of the windshield (34) to the bottom of the conical ventilation groove (31).

8. A wardrobe according to claim 3, wherein: the clothes drying room (13) is internally provided with an aromatherapy component fixed on the storage plate (212), the aromatherapy component is electrically connected with the controller, the rear side wall of the cabinet body component (1) is provided with a flip heat dissipation port communicated with the power distribution room (11), and the flip heat dissipation port corresponds to the drying gas generator (21).

9. A wardrobe according to claim 3, wherein: the clothes airing device is characterized in that the guide assembly (5) comprises a guide plate (51) which is slidably assembled in the clothes airing chamber (13), the guide plate (51) is arranged right above the clothes hanging rod (47), clothes guiding grooves (52) corresponding to the clothes hanging rod (47) are uniformly formed in the guide plate (51), sliding ways (53) which are slidably assembled with the guide plate (51) are formed in the left side wall and the right side wall of the clothes airing chamber (13), and a third electromagnet (54) which is matched with the guide plate (51) is fixed at the inner top of the clothes airing chamber (13).

10. A wardrobe according to claim 9, wherein: the clothes guiding groove (52) comprises a guiding through hole which is transversely formed and matched with the clothes hanging rod (47), clothes guiding grooves which are formed in the front and back are communicated with the side wall of the guiding through hole, the clothes guiding grooves are uniformly formed, and the guide plate (51) is internally nested with an armature plate which is matched with the third electromagnet (54).