The present disclosure belongs to the technical field of household appliances, specifically relates to a clothing treating device, and further relates to an air duct conversion device applied to the above clothing treating device.
The drying and washing all-in-one machine in the prior art generally adopts a condensing clothes drying manner in a drying mode, that is to say, a closed air duct is adopted. Heating drying air heated by a condenser is sent to a drum filled with clothes, moist air which seizes moisture from clothes is sent back to an evaporator for dehumidification, the dehumidified air is heated again by the condenser, and is sent to the drum, the process is repeated and moisture on the clothes is constantly brought away until the clothes are dry. After drying, cooling is required, the temperature in the drum is reduced to a proper temperature, to ensure that the user may not be scalded.
The drying and washing all-in-one machine in the prior art generally adopts a water-cooled type or a compressor type in a cooling mode, tap water or a compressor is utilized to drive, to lower the temperature in the drum. However, the tap water-type cooling method is low in cooling efficiency, the cooling time is long, and water resource is simultaneously wasted; and as to the condenser-type cooling mode, although the efficiency is high and the time is short, the cost is extremely high.
Further, the applicant designed a clothing treating device possessing two sets of clothing treating equipment before. The two sets of clothing treating equipment can respectively dry clothes; however, in the prior art, the drying equipment can only dry clothes in a single clothing treating equipment; therefore, when two sets of drying equipment are added on the clothing treating device, the size of the whole device structure is enlarged, the number of equipment is increased, thereby leading to increased product cost and increased occupied space.
In view of this, the present disclosure is hereby proposed.
A technical problem to be solved in the present disclosure is to overcome shortcomings of the prior art, and provide a clothing treating device, to achieve the purpose of sharing one drying air duct by two sets of clothing treating equipment. Another objective of the present disclosure is to provide an air duct conversion device, to achieve the purpose of correspondingly controlling the air flow reversal in the air duct.
In order to solve the above technical problem, a basic conception of the technical solution adopted in the present disclosure is as follows:
A clothing treating device includes a first clothing treating bucket, a second clothing treating bucket and an air duct, wherein an air inlet end of the air duct is respectively communicated with a first air inlet of the first clothing treating bucket and a second air inlet of the second clothing treating bucket through an air duct conversion device at the air inlet end, and the air duct conversion device at the air outlet end of the air duct is respectively communicated with a first air outlet of the first clothing treating bucket and the second air outlet of the second clothing treating bucket.
Further, the air duct conversion device at the air inlet end and the air duct conversion device at the air outlet end are both constituted by the air duct conversion device, and the air duct conversion device includes an air duct baffle which is installed on the air duct in a manner of being capable of rotating relatively; an output shaft of a motor is connected with the air duct baffle through a linkage mechanism, to drive the air duct baffle to rotate around the shaft through the linkage mechanism in the rotating process of the output shaft of the motor, such that the air duct baffle switches to move between a first position and a second position.
Further, the first position of the air duct baffle of the air duct conversion device at the air inlet end is a position at which the first air inlet is closed and the second air inlet is open, the first position of the air duct baffle of the air duct conversion device at the air outlet end is a position at which the first air outlet is closed and the second air outlet is open, the second position of the air duct baffle of the air duct conversion device at the air inlet end is a position at which the first air inlet is open and the second air inlet is closed, and the second position of the air duct baffle of the air duct conversion device at the air outlet end is a position at which the first air outlet is open and the second air outlet is closed.
Further, the first clothing treating bucket and the second clothing treating bucket are arranged up and down, the air duct is arranged horizontally between the first clothing treating bucket and the second clothing treating bucket; the axis of the first clothing treating bucket is set to be in parallel with the axis of the second clothing treating bucket, and clothes delivery openings of the first clothing treating bucket and the second clothing treating bucket are both arranged at the same end, and the end of the air duct at the clothes delivery opening side is the air outlet end, and the end of the air duct relatively far away from the clothes delivery opening side is the air inlet end.
Further, the air inlet end of the air duct is respectively provided with a first air inlet which is communicated with the first clothing treating bucket upward, and a second air inlet which is communicated with the second clothing treating bucket downwards, the air duct conversion device at the air inlet end is installed in the middle of the air inlet end of the air duct, such that the first air inlet is correspondingly closed when the air duct baffle of the air duct conversion device at the air inlet end is rotated upwards to the first position, and the second air inlet is correspondingly closed when the air duct baffle of the air duct conversion device at the air inlet end is rotated downwards to the second position. the air outlet end of the air duct is respectively provided with a first air outlet which is communicated with the first clothing treating bucket upward, and a second air outlet which is communicated with the second clothing treating bucket downwards, the air duct conversion device at the air outlet end is installed in the middle of the air outlet end of the air duct, such that the first air outlet is correspondingly closed when the air duct baffle of the air duct conversion device at the air outlet end is rotated upwards to the first position, and the second air outlet is correspondingly closed when the air duct baffle of the air duct conversion device at the air outlet end is rotated downwards to the second position.
Further, the air duct is successively internally installed with, along the direction of an air flow, a condensing device for condensing the air flow that flows through, and a heating device for heating the air flow that flows through.
Further, when clothes in the first clothing treating bucket are dried, the air duct baffle of the air duct conversion device at the air inlet end and the air duct baffle of the air duct conversion device at the air outlet end are both located in the second position, such that the air duct and the first clothing treating device form a circulating channel; when clothes in the second clothing treating bucket are dried, the air duct baffle of the air duct conversion device at the air inlet end and the air duct baffle of the air duct conversion device at the air outlet end are both located in the first position, such that the air duct and the second clothing treating device form a circulating channel.
Further, the linkage mechanism includes an adaptor and a connecting beam which can be connected in a manner of capable of rotating relatively, the connecting beam is in inserting connection with the output shaft of the motor in a manner of capable of relatively rotating around the output shaft of the motor, and the adaptor is in inserting connection with the baffle shaft of the air duct baffle in a manner of incapable of rotating relatively; and preferably, one end of the air duct baffle is provided with a baffle shaft which extends horizontally towards two sides, the baffle shaft and the two side walls of the air duct are correspondingly in inserting connection and fixation, such that the baffle can be installed in the air duct in a manner of capable of rotating relatively; and one end of the baffle shaft is fixedly connected with the adaptor after penetrating through the air duct.
Further, the output shaft of a motor is of an eccentric shaft structure, the eccentric shaft structure includes an eccentric shaft section which rotates along the motor center, the eccentric shaft section and the connecting beam can be in inserting connection and fixation in a manner of capable of relatively rotating around the shaft, to drive the connecting beam to move in the rotating process of the eccentric shaft section, and further to drive the air duct baffle to rotate around the baffle shaft through the adaptor.
Further, a side wall of the air duct is provided with an installation groove, the installation groove is internally fixedly installed with a bearing sleeve with a non-circular periphery, and the bearing sleeve is provided with an installation hole which allows the baffle shaft of the air duct baffle to be correspondingly connected in an inserting manner.
After the above technical solution is adopted, the present disclosure has the following beneficial effects compared with the prior art.
Through respectively arranging an air duct conversion device at two ends of the air duct, a single air duct can provide a circulating air flow for drying clothes to the first clothing treating bucket or the second clothing treating bucket, respectively, thereby further achieving the purpose of sharing one drying air duct by two sets of clothing drying equipment, and achieving the purpose of sharing the same clothing drying air duct on the clothing treating device possessing two sets of clothing treating equipment.
Through the above setting, under the driving of the linkage structure, the air duct baffle in the air duct correspondingly swings and rotates along with the rotation of the output shaft of the motor, thereby controlling the corresponding closing or opening of different openings in the air duct, and achieving the purpose of controlling the reversal of direction of the air flow in the air duct.
Meanwhile, the present disclosure is simple in structure, dramatic in effect and is suitable for popularization and application.
A further detailed description will be given below on specific embodiments of the present disclosure in combination with accompanying drawings.
As a part of the present disclosure, accompanying drawings are used for providing a further understanding of the present disclosure, schematic embodiments and descriptions thereof of the present disclosure are used for explaining the present disclosure, rather than constituting an improper limit to the present disclosure. Obviously, accompanying drawings described below are merely some embodiments, for those skilled in the art, other drawings can be obtained based on these drawings without any creative effort. In the drawings:
It should be noted that, these drawings and text descriptions are not aiming at limiting a conception range of the present disclosure in any form, but to describe concepts of the present disclosure for those skilled in the art with a reference to specific embodiments.
In order to make the object, technical solutions and advantages of the embodiments in the present disclosure clearer, a clear and complete description will be given below on technical solutions in the embodiments in combination with accompanying drawings in the embodiments of the present disclosure. The following embodiments are used for describing the present disclosure, rather than for limiting the scope of the present disclosure.
As shown in
Through the above setting, under the driving of the linkage structure, the air duct baffle in the air duct correspondingly swings and rotates along with the rotation of the output shaft of the motor, thereby controlling the corresponding closing or opening of different openings in the air duct, and achieving the purpose of controlling the reversal of direction of the air flow in the air duct.
In the embodiment of the present disclosure, the linkage mechanism includes an adaptor 3 and a connecting beam 2 which are connected in a manner of capable of rotating relatively, the connecting beam 2 is in inserting connection with the output shaft of the motor 1 in a manner of capable of rotating around the output shaft of the motor 1, and the adaptor 3 is in inserting connection with the baffle shaft 411 of the air duct baffle 4 in a manner of incapable of rotating relatively.
As shown in
As shown in
In an embodiment of the present disclosure, one end of the air duct baffle 4 is provided with a baffle shaft 411 which extends horizontally towards two sides, the baffle shaft 411 and the two side walls of the air duct 100 are correspondingly in inserting connection and fixation, such that the baffle 4 can be installed in the air duct 100 in a manner of capable of rotating relatively; and one end of the baffle shaft 411 penetrates through the air duct 100 and is fixedly connected with the adaptor 3.
In an embodiment of the present disclosure, two ends of the connecting beam 2 are respectively fixedly installed with a first joint 21 and a second joint 22, the first joint 21 is in inserting connection with the coupling shaft 31 of the adaptor 3 in a manner of capable of relatively rotating around the shaft, and the second joint 22 is in inserting connection with the eccentric shaft section 111 of the motor 1 in a manner of capable of relatively rotating around the shaft.
In the embodiment of the present disclosure, the output shaft of the motor is of an eccentric shaft structure, the eccentric shaft structure includes an eccentric shaft section 111 which rotates around the motor center, the eccentric shaft section 111 and the second joint 22 of the connecting beam 2 are in inserting connection in a manner of capable of relatively rotating around a shaft, to drive the connecting beam 3 to move in the rotating process of the eccentric shaft section 111, and further to drive the air duct baffle 4 to rotate around the baffle shaft 411 through an adaptor 3, and further to control the eccentric shaft section of the output shaft of the motor to swing and rotate mutually between the uppermost end and the lowermost end, and to correspondingly control the mutual switching of the air duct baffle between the first position and the second position.
As shown in
Through setting a bearing sleeve which is detachably installed on the side wall of an air duct, the bearing of the air duct reversing device can be replaced detachably, thereby achieving the purpose of detachable installation and rapid assembly and replacement of a bearing sleeve of a baffle shaft.
In the present embodiment, the extension direction of the installation groove 203 is vertical to the side wall of the air duct, the hollow part in the installation groove 203 allows corresponding inserting connection and fixation of the bearing sleeve 204, and the axial direction of the installation hole 205 of the bearing sleeve 204 is set to be vertical to the side wall 101 of the air duct.
In the present embodiment, the cross section of the inner wall of the installation groove 203 is square, and the peripheral cross section of the bearing sleeve 204 is a square which is in corresponding matching and fitting with the installation groove 203. Through setting the bearing sleeve to be in a direction matched with the installation groove, after the bearing sleeve is correspondingly inserted into the installation groove, the bearing sleeve is installed in a manner of incapable of relatively rotating, thereby ensuring fixed reliability of the bearing sleeve.
In the present embodiment, the peripheral cross section of the bearing sleeve 204 is a square which is provided with a chamfer at each of the corners, and the corner is any shape selected from a circular arc and a straight line. Through setting a corner at the periphery of the bearing sleeve, a gap is formed with the installation groove at the corner of the bearing sleeve, thereby facilitating the user to disassemble and install a bearing sleeve.
As shown in
In the present embodiment, the side wall 101 of the air duct is provided with a first retaining rib 201 and a second retaining rib 202 which are crossed and arranged at a certain angle, and the installation groove 203 is arranged at the position at which the first retaining rib 201 and the second retaining rib 202 are intersected.
As shown in
In the present embodiment, the first retaining rib 201 and the second retaining rib 202 protrude to extend towards the inside of the air duct 100 from the side wall 101 of the air duct, and the first retaining wall 201 extends along the first position of the air duct baffle 4 of the air duct conversion device 200, and the second retaining rib 202 extends along the second position of the air duct baffle 4 of the air duct conversion device 200, such that the air duct baffle 4 rotates around the baffle shaft 41 between the first retaining rib 201 and the second retaining rib 202.
In the present embodiment, the cross section of the installation hole 205 on the bearing sleeve 204 is a circular hole which is in corresponding inserting connection with the baffle shaft 411, and the diameter of the circular hole is set to be equal to the diameter of the baffle shaft 411.
As shown in
Through setting the above adaptor on the air duct conversion device, the adaptor is integrated with two different inserting connection structures, thereby ensuring that two ends of an adaptor are respectively correspondingly connected with different components in a manner of capable or rotating and in a manner of incapable of rotating relatively and achieving the purpose of driving the air duct baffle of the air duct conversion device.
As shown in
In the present embodiment, the coupling sleeve 32 is a sleeve structure which extends in a protruding manner towards one side from the adaptor, the opening at one end of the sleeve structure allows corresponding insertion of the baffle shaft 411 of the air duct conversion device 100, and the other end is provided with a jack socket 36 for the baffle shaft to penetrate out.
As shown in
As shown in
As shown in
In the present embodiment, the coupling shaft 31 is a columnar structure which extends in a protruding manner towards one side from the adaptor, the axis of the columnar-structure coupling shaft 31 is vertical to the extension direction of the adaptor 3, the height of the columnar-structure coupling shaft 31 is set to be as the same with the height of the coupling sleeve 32, and the cross section of the columnar-structure coupling shaft 31 is circular.
In the present embodiment, the middle of the columnar-structure coupling shaft 31 is provided with a ring of grooves 37 which extend along the outer wall of the adaptor, to allow corresponding inserting connection of the bulge on the joint of the connecting beam 2; and the extending surface of the groove 37 is vertical to the axis of the coupling shaft 31. Through setting grooves on the coupling shaft, and after the coupling shaft is connected with the corresponding joint, limit fixation is performed through grooves, thereby preventing the coupling shaft from moving along an axial direction and departing from the joint, and achieving the purpose of fixing the coupling shaft in an axial direction.
Through adding an adaptor on the air duct conversion device, the connecting beam can drive the adaptor to rotate in a large angle only when the connecting beam swings at a small angle, thereby ensuring the rotating range of the air duct baffle, and reducing the movement path of the air duct conversion device.
As shown in
In the present embodiment, the air duct conversion device 200 is fixed on a housing through a fixed device, and the air duct baffle 4 switches to move between the first position and the second position, to open or close the air duct 100. Under the mutual effect of the side wall of the air duct and the air duct baffle 4, the gas can only flow along a specified path, thereby avoiding gas leakage.
In the present embodiment, the baffle shaft 411 of the air duct baffle 4 is connected with the fixed device, the adaptor 3 of the air duct conversion device 200 and the side wall of the air duct, respectively, to install and fix the air duct baffle 4. In addition, under the driving of the air duct conversion device 200, the adaptor 3 drives the baffle shaft 411 to rotate, and further drives the whole air duct baffle 4 to rotate.
As shown in
In the present embodiment, the middle of the baffle shaft 411 of the air duct baffle 4 is provided with multiple side grooves 4113 which are recessed inwards, the side grooves 4113 are distributed uniformly along the axial direction at one side, far away from the baffle body 41, of the baffle shaft 411, and the side grooves 4113 are matched with the fixed device, such that the air duct baffle 4 is fixedly installed with the fixed device.
In the present embodiment, the shape and size of the baffle body 41 of the air duct baffle 4 and the shape and size of the air duct inlet and outlet are the same, such that the air duct baffle 4 can completely block the air duct inlet and outlet, the baffle body 41 is further provided with multiple horizontal reinforcing ribs 412, to enhance the hardness of the baffle body 41, and avoid cracks of the air duct baffle 4 in the moving process. The edge of the baffle body 41 is provided with multiple uniformly distributed openings 413, and the circumference of the frame 42 is matched with the opening 413 of the baffle body 41, for the installation of the baffle body 41.
In the present embodiment, the frame 42 of the air duct baffle is of a rubber material, and the upper and lower end faces and the side end face, far away from the baffle shaft 411, of the frame 42 are concave inwards to form a V-shaped groove 421, thereby facilitating damping and sealing of the air duct baffle.
As shown in
In the present embodiment, the connecting beam 2 includes a substrate 7 and a hollow part 8, the hollow part 8 is arranged at a left end and a right end of the substrate 7, the hollow part 8 is internally installed with a joint 5 and a spring 6, such that the motor 1 and the adaptor 3 are connected with the connecting beam 2.
In the present embodiment, the hollow part 8 is set to be stair-stepping along an axis, and includes a large caliber part and a small caliber part, wherein the caliber of the large caliber part is larger than the caliber of the small caliber part, and the large caliber part is matched with the joint 5. One end, far away from the small caliber part, of the hollow part 8 is provided with a spring extending head 15 protruding outwards, to install the spring 6.
In the present embodiment, the front part of the joint 5 is transited in an arc shape, the upper and lower ends of the middle part of the joint 5 are respectively provided with a fixed boss 12 which protrudes outwards, the front part of the joint 5 is disconnected along an axis direction, and the front part and the rear part of the fixed boss 12 are both provided with two axially symmetrical claws, to control the opening and closing of the front part of the joint 5. The periphery of the joint 5 is concave inwards to form a groove 13, the groove 13 is matched with the small caliber part of the hollow part 8, such that the joint 5 is connected with the substrate 7 in an inserting manner through the groove 13, and the arc-shaped front part of the joint 5 enables the inserting connection between the joint 5 and the substrate 7 to be tighter, thereby facilitating the installation and disassembly of the joint. The spacing between two side walls of the groove 13 is gradually decreased from the front part of the joint 5 to the middle part, and the inclined angle between the two side walls is 4 degrees.
In the present embodiment, the rear part of the joint 5 is provided with a spring installation joint 11, the spring installation joint 11 is corresponding to the spring extending head 15 of the hollow part 8, one end of the spring is connected with the spring installation joint 11 of the joint 5, the other end is connected with the spring extending head 15 of the hollow part 8, the inserting connection between the joint 5 and the substrate 7 is strengthened by utilizing a spring force, to prevent accidental falling off of the joint 5.
In the present embodiment, the middle part of the joint 5 is provided with a clamping hole 14, the clamping hole 14 is of a cylindrical structure, the clamping hole 14 is arranged vertically, and penetrates through the middle part of the whole joint 5 vertically, a notch 10 which is concave towards the front end is arranged at the front end, close to the joint 5, of the clamping hole 14, and the notch 10 and the clamping hole 14 are both arranged to be co-axial with the joint 5.
In the present embodiment, the middle position of the inner wall of the clamping hole 14 is provided with multiple bulges 10 which are arranged in a circumferential direction and which protrude outwards, multiple bulges 10 are uniformly distributed, and are arranged on the same height, and the setting of the bulges 10 can facilitate the installation and dead lock of the motor 1 and the adaptor 3 and the joint 5.
As shown in
In the present embodiment, the joint 5 and the spring 6 are placed and fixed at two ends of the substrate 7, two joints 5 are respectively connected with the motor 1 and the adaptor 3, the first joint 21 and the coupling shaft 31 of the adaptor 3 are in inserting connection and fixation in a manner of capable of rotating around a shaft, the second joint 22 and the output shaft of the motor 1 is in inserting connection and fixation in a manner of capable of relatively rotating around a shaft, the adaptor 3 is connected with the air duct baffle 4, such that the motor 1 and the air duct baffle 4 are connected with the connecting beam 2, the motor 1 drives the connecting beam 2 to rotate, to further drive the adaptor 3 and the air duct baffle 4 to rotate, and realize the opening and closing of the air duct.
In the present embodiment, the substrate 7 is of a rectangle shape, the left and right ends of the substrate 7 are respectively transited in an arc shape, the left and right ends of the substrate 7 are provided with a hollow part 8, the joint 5 and the spring 6 are placed in the hollow part 8, and are fixedly connected with the substrate 7, such that the motor 1 and the air duct baffle 4 are connected with the connecting beam 2.
In the present embodiment, the hollow part 8 is set to be stair-stepping along an axis, and includes in sequence a small caliber part 18, a large caliber part 19 and a connecting part 20, the caliber of the small caliber part 18 is smaller than the caliber of the large caliber part 19, the shape of the large caliber part 19 is matched with the joint 5, the side wall of the joint 5 is provided with a groove 13, the shape of the small caliber side is matched with the groove 13 of the joint 5; and the connecting part 20 is provided with a spring extending head 15 protruding towards the direction of the small caliber part 18, to install the spring 6.
In the present embodiment, the middle position of the substrate 7 is provided with a reinforcing bulge 16 which protrudes outwards, the reinforcing bulge 16 is trapezoidal, the periphery of the substrate 7 is folded downwards to form a folded edge 17, to strengthen the intensity of the substrate 7, and when the motor 1 drives the connecting beam 2 to rotate, the substrate 7 will not deform.
In the present embodiment, the front part of the joint 5 is transited in an arc shape, the upper and lower ends of the middle part are respectively provided with a fixed boss 12 which protrudes outwards, such that the thickness of the joint 5 is larger than the thickness of the substrate 7. The middle part of the side wall of the joint 5 is concave inwards to form a groove 13, the groove 13 is matched with the small caliber part 18 of the hollow part 8, such that the joint 5 is connected with the substrate 7 in an inserting manner through the groove 13, and the arc-shaped front part of the joint 5 enables the inserting connection between the joint 5 and the substrate 7 to be tighter, thereby facilitating the installation and disassembly of the joint 5.
In the present embodiment, the rear end of the joint 5 is provided with a spring installation joint 11 which protrudes outwards along an axis, the spring extending head 15 of the connecting part 20 is corresponding to the installation joint of the spring 6. One end of the spring 6 is sleeved on the spring installation joint 11 of the joint 5, and is abutted against the rear end of the joint 5, the other end is sleeved on the spring extending head 15 of the hollow part 8 and is abutted against the substrate 7, such that the inserting connection between the joint 5 and the substrate 7 under the effect of a spring is tighter, and falling off of the joint 5 is prevented.
As shown in
Firstly, the joint 5 is embedded into a large caliber part 19 of the hollow part 8 of the connecting beam 2, the front end of the joint 5 is towards the small caliber part 18 of the hollow part 8, and the large caliber part 19 is matched with the joint 5.
Secondly, the groove 13 of the joint 5 is aligned with the small caliber part 18 of the hallow part 8, to push forwards until no further advance is possible, then the joint 5 is completely connected with the substrate 7 in an inserting manner.
Finally, one end of the compressed spring 6 is installed on the spring installation joint 11 of the joint 5, the other end is installed on the protruding spring extending head 15 of the connecting part 20, and the joint 5 is limited through a tension of the compressed spring 6.
As shown in
Through respectively arranging an air duct conversion device at two ends of the air duct, a single air duct can provide a circulating air flow for drying clothes to the first clothing treating bucket or the second clothing treating bucket, respectively, thereby further achieving the purpose of sharing one air duct by two sets of clothing drying equipment, and achieving the purpose of sharing the same clothing drying air duct on the clothing treating device possessing two sets of clothing treating equipment.
As shown in
In the present embodiment, the air duct conversion device 210 at the air inlet end and the air duct conversion device 220 at the air outlet end are both constituted by the air duct conversion device 200 of any of the above embodiments 1-5, the air duct conversion device 200 includes an air duct baffle 4 which is installed on the air duct in a manner of capable of rotating relatively. The output shaft of the motor 1 is connected with the air duct baffle 4 through a linkage mechanism, to drive the air duct baffle 4 to rotate around a shaft through a linkage mechanism in the rotating process of the output shaft of the motor 1, such that the air duct baffle 4 switches to move between the first position and the second position.
In the present embodiment, at the first position of the air duct baffle 4 of the air duct conversion device 210 at the air inlet end, the first air inlet 300 is closed and the second air inlet 400 is open, at the first position of the air duct baffle 4 of the air duct conversion device 220 at the air outlet end, the first air outlet 500 is closed and the second air outlet 600 is open, at the second position of the air duct baffle 4 of the air duct conversion device 210 at the air inlet end, the first air inlet 300 is open and the second air inlet 400 is closed, at the second position of the air duct baffle 4 of the air duct conversion device 220 at the air outlet end, the first air outlet 500 is open and the second air outlet 600 is closed.
As shown in
In the present embodiment, the air inlet end of the air duct 100 is provided with a first air inlet 300 communicated upwards with the first clothing treating bucket 700, and a second air inlet 400 communicated downwards with the second clothing treating bucket 800. The air duct conversion device 210 at the air inlet end is installed in the middle of the air inlet end of the air duct 100, such that the first air inlet 300 is correspondingly closed when the air duct baffle 4 of the air duct conversion device 210 at the air inlet end rotates upwards to the first position, and the second air inlet 400 is correspondingly closed when the air duct baffle 4 of the air duct conversion device 210 at the air inlet end rotates downwards to the second position.
In the present embodiment, the air outlet end of the air duct 100 is provided with a first air outlet 500 communicated upwards with the first clothing treating bucket 700, and a second air outlet 600 communicated downwards with the second clothing treating bucket 800, the air duct conversion device 220 at the air outlet end is installed in the middle of the air outlet end of the air duct 100, such that the first air outlet 500 is correspondingly closed when the air duct baffle 4 of the air duct conversion device 220 at the air outlet end rotates upwards to the first position, and the second air outlet 600 is correspondingly closed when the air duct baffle 4 of the air duct conversion device 220 at the air outlet end rotates downwards to the second position.
In the present embodiment, the air duct 100 is successively internally installed with, along the direction of an air flow, a condensing device for condensing the air flow that flows through, and a heating device for heating the air flow that flows through. Through the above setting, the circulating air flow flowing into the air duct 100 from the first clothing treating bucket 700 or the second clothing treating bucket 800 is firstly processed through a condensing device, to condense and precipitate the water vapor contained in the circulating air flow; and then the circulating air flow after condensing treatment is processed through a heating device, and the circulating air flow with a temperature rise flows back to the first clothing treating bucket 700 or the second clothing treating bucket 800 to dry clothes inside the first clothing treating bucket 700 or the second clothing treating bucket 800.
In the present embodiment, as shown in
What is described above is merely the preferred embodiments of the present disclosure, rather than limiting the present disclosure in any form, although the present disclosure has been disclosed above with the preferred embodiments, the preferred embodiments are not used for limiting the present disclosure, those skilled in the art can make some changes or modify into equivalent embodiments with equal changes by utilizing the above suggested technical contents without departing from the scope of the technical solution of the present disclosure, and the contents not departing from the technical solution of the present disclosure, any simple amendments, equivalent changes or modifications made to the above embodiments based on the technical essence of the present disclosure shall all fall within the scope of the solution of the present disclosure.
Number | Date | Country | Kind |
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201810102473.0 | Feb 2018 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2019/074117 | 1/31/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/149241 | 8/8/2019 | WO | A |
Number | Name | Date | Kind |
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3555701 | Hubbard | Jan 1971 | A |
10480797 | Livchak | Nov 2019 | B2 |
20130279839 | Ohba | Oct 2013 | A1 |
Number | Date | Country |
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102517859 | Jun 2012 | CN |
105177915 | Dec 2015 | CN |
105316919 | Feb 2016 | CN |
106350978 | Jan 2017 | CN |
108085941 | May 2018 | CN |
108085941 | May 2018 | CN |
208038875 | Nov 2018 | CN |
208038878 | Nov 2018 | CN |
208151722 | Nov 2018 | CN |
208151723 | Nov 2018 | CN |
108950976 | Dec 2018 | CN |
Entry |
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International Search Report (PCT/ISA/210) dated Apr. 8, 2019, by the Chinese Patent Office as the International Searching Authority for International Application No. PCT/CN2019/074117. |
Written Opinion (PCT/ISA/237) dated Apr. 8, 2019, by the Chinese Patent Office as the International Searching Authority for International Application No. PCT/CN2019/074117. |
Number | Date | Country | |
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20210047771 A1 | Feb 2021 | US |