CN220166481U - Clothes airing device - Google Patents

Abstract

The utility model provides a clothes airing device which comprises a main machine, a traction rope connected with the main machine, an airing rod hung on the traction rope and a lifting control mechanism for the traction rope to be wound on, wherein the traction rope comprises at least three suspension sections which extend outwards relative to the main machine in a tensioning state and are connected to the airing rod, and at least one suspension section is connected to the airing rod in a diagonal manner. The clothes airing device has a simpler and lighter structure, is lower in production cost and use and maintenance cost, and can limit the lifting track of the airing rod and maintain the posture of the airing rod only by the hanging section. The tension force of the suspension section which is connected with the airing rod in a diagonal manner acts on the airing rod and has a tension component in the horizontal direction, so that the airing rod can be limited to move in the horizontal freedom direction, and the swinging of the airing rod can be restrained. The situation that the traction rope is excessively tensioned due to clamping or connection failure of the telescopic frame can be avoided by omitting the telescopic frame, and the traction rope is prevented from being disconnected due to faults of the telescopic frame, so that the reliability of the clothes airing device is improved.

Description

Clothes airing device

Technical Field

The utility model relates to the technical field of household appliances and furniture, in particular to a clothes airing device.

Background

The clothes airing device consists of a main machine arranged on an indoor ceiling, a traction rope connected with the main machine and an airing rod hung on the traction rope, wherein the airing rod is hung below the main machine in a horizontal posture by connecting the traction rope. The clothes airing device comprises a lifting control mechanism arranged in the host machine, and the lifting control mechanism lifts or lowers the airing rod through winding or releasing the traction rope.

In order to enable the airing rod to stably lift and maintain the posture of the airing rod in the vertical direction without shaking, the existing airing device further comprises telescopic frames capable of moving in a telescopic mode, the telescopic frames are arranged between the host machine and the airing rod in pairs, and two ends of each telescopic frame are respectively connected with the host machine and the airing rod. The telescopic rack does not provide power required by lifting of the airing rod, but is used as an auxiliary device for limiting lifting track and lifting direction of the airing rod.

Nevertheless, the setting of expansion bracket makes the manufacturing cost and the maintenance cost of clothes-horse increase, has improved the fault rate and the gross weight of clothes-horse, when the expansion bracket took place flexible card and is put on or connect the inefficacy, causes the haulage rope to draw excessively and break off easily, and the pole of airing is difficult to maintain horizontal gesture yet.

Disclosure of Invention

In view of the above, the utility model provides a clothes airing device with a simpler and lighter structure.

The clothes airing device comprises a main machine, a traction rope connected with the main machine, an airing rod hung on the traction rope and a lifting control mechanism for the traction rope to be wound on, wherein the traction rope comprises at least three suspension sections which extend outwards relative to the main machine in a tensioning state and are connected to the airing rod, and at least one suspension section is connected to the airing rod in a diagonal manner.

The clothes airing device has a simpler and lighter structure, has lower production cost and lower use and maintenance cost, and can omit a telescopic frame and limit the lifting track of the airing rod and maintain the posture of the airing rod only by the hanging section. The suspension section which is connected to the airing rod in a diagonal manner can be defined as a diagonal section, the tension force of the diagonal section acting on the airing rod has a tension component in the horizontal direction, and the tension component plays a role in limiting the movement of the airing rod in the horizontal degree of freedom direction, so that the diagonal section can lift or lower the airing rod in the vertical direction and can restrict the swinging of the airing rod in the horizontal direction. The situation that the traction rope is excessively tensioned due to clamping or connection failure of the telescopic frame can be avoided by omitting the telescopic frame, and the traction rope is prevented from being disconnected due to faults of the telescopic frame, so that the reliability of the clothes airing device is improved.

In one embodiment, the suspension section and the remote side of the airing rod form a plurality of lifting inclinations respectively, wherein at least one lifting inclination between the suspension section and the airing rod which are connected with the airing rod in a diagonal manner can be reduced along with the winding of the traction rope by the lifting control mechanism.

So set up, as the pole rises gradually and approaches the host computer, the length area of the projected stitch that the suspension section that connects to the pole to one side in the cable-stayed forms in the pole distal side orthographic projection increases, should hang the horizontal pulling force component that the section acted on the pole and increase gradually, therefore the more apparent the ability that this suspension section restriction pole was movable in the horizontal direction, the easier the gesture that keeps the pole is fixed, this means, as the pole rises, the lower the likelihood that the pole takes place to rock or gesture changes.

In one embodiment, each suspension section forms a stitch projection on the remote side of the airing rod, each lifting inclination angle is an acute angle, and each lifting inclination angle can be reduced along with the winding of the traction rope by the lifting control mechanism.

So set up, a plurality of suspension sections are connected in the pole to one side, along with the pole rises, these suspension sections of being connected in the pole to one side all increase gradually in the horizontal pulling force component that the pole acted on.

In one embodiment, the suspension section comprises at least one pair of inclined pull sections, the plurality of inclined pull sections are respectively and obliquely connected to the airing rod, the two inclined pull sections arranged in pairs are symmetrically distributed about a longitudinal bisection plane, the longitudinal bisection plane is perpendicular to the remote side of the airing rod, and the two bisection sections cut the airing rod.

The two oblique pulling sections which are symmetrical about a certain longitudinal bisection plane are arranged in such a way, and the horizontal components of the pulling force which respectively acts on the airing rod can be mutually offset, so that the airing rod can reach a stress balance state in the direction perpendicular to the longitudinal bisection plane, and the stability of the posture of the airing rod is improved.

In one embodiment, the suspension section comprises a diagonal section connected to the airing rod in a diagonal manner and a straight section connected to the airing rod in a straight manner, the diagonal section is orthographic projected to the far side of the airing rod to form stitch projection, and the straight section Duan Zheng is projected to the far side of the airing rod to form point projection.

So set up, the vertical pulling force that the haulage rope was applyed fully to the pole that dries in the air is ensured to the straight section to mainly burden pole that dries in the air, be located the clothing of pole and the weight that the clothing propped that dries in the air, draw the section to one side and be used for maintaining the pole gesture restriction pole that dries in the air and rock, draw section and straight section cooperation in coordination to one side, make the ability reinforcing of clothes-horse carry clothing, use safelyr.

In one embodiment, at least part of the stitch projection extends outwards from the pattern formed by the point projection connecting line, and one end of the stitch projection, which is positioned outside the point projection connecting line pattern, is connected with one end of the airing rod in a diagonal manner corresponding to the diagonal section.

The horizontal component of the pulling force of the inclined pull section acting on the airing rod points to the inside of the edge of the airing rod, and simultaneously the sensitivity of the airing rod to the speed fluctuation of the inclined pull section is reduced.

In one embodiment, the connection lines of all connection points of the airing rod and the hanging section form a first closed figure, and the connection lines of all connection points of the host and the hanging section form a second closed figure, wherein the second closed figure is smaller than the first closed figure.

So set up, along keeping away from the host computer and being close to the direction of airing pole, the section of hanging presents the trend that expands outward, and the point that airing pole and a plurality of section of hanging are connected is more dispersed, can avoid because of the tie point between airing pole and a plurality of section of hanging is too concentrated to improve the poor problem of airing pole stability that causes from this, the tie point between airing pole and a plurality of section of hanging tends to disperse more, and the sensitivity of airing pole to the fluctuation of section of hanging roll-up rate or release rate fluctuation is lower, is difficult to cause the airing pole to rock more.

In one embodiment, the second enclosed graphic is orthographic to the remote side of the pole such that the graphic does not cross the boundary of the first enclosed graphic.

So set up, a plurality of suspension sections act on the action direction of a plurality of pulling force horizontal components of pole that dries in air is directional inside the first enclosed graphics, and these pulling force horizontal components can offset each other to a certain extent, are favorable to improving the gesture stability of pole and the positional stability on the horizontal direction that dries in air.

In one embodiment, the pole comprises a rectangular pole frame, the suspension sections are divided into four groups, and the four groups of suspension sections are respectively connected to four top corner areas of the pole frame.

By the arrangement, the dispersion degree of the positions of the connecting suspension sections of the airing rod is further enhanced, and even if deviations such as inconsistent length, inconsistent inclination angles of the suspension sections of each group exist among the four groups of suspension sections, the influence degree on the posture of the airing rod is weak, so that the airing rod is not caused to be obviously deflected.

In one embodiment, the lifting control mechanism comprises a first reel arranged on a host machine, the host machine comprises a top rope guiding element with a rope threading gap, at least part of the traction rope is wound on the first reel, passes through the top rope guiding element through the rope threading gap after being wound on the first reel, and extends out of the host machine to be connected to the airing rod; and/or the number of the groups of groups,

The lifting control mechanism comprises a second winder arranged on the airing rod, the airing rod comprises a bottom rope guiding element with a rope threading gap, and at least part of traction ropes are wound on the second winder, pass through the bottom rope guiding element through the rope threading gap in a wound manner and extend out of the airing rod to be connected to the host.

In one embodiment, the host machine comprises a reel locating surface, the lifting control mechanism comprises a first reel arranged on the reel locating surface, the first reel comprises a reel shaft, the axis of the reel shaft is vertical to or parallel to the reel locating surface, at least part of the traction rope is wound on the reel shaft in the first reel, and the traction rope stretches out of the first reel in a state parallel to the reel locating surface.

The device is characterized in that the winding shaft is wound or released by the winding shaft, the load of the traction rope is smaller, the traction rope can rotate more in a labor-saving manner, in addition, the traction rope is not easy to interfere with the host machine or the first winder after extending out of the first winder, and when the airing rod rises to the highest position, the traction rope cannot interfere with the airing rod.

In one embodiment, the airing rod is provided with at least three first connecting points for connecting the hanging sections respectively, the host machine is provided with at least three second connecting points for connecting the hanging sections respectively,

The projection points of the first connecting points on the remote side of the airing rod are not all collinear; and/or, the projection points of the second connection point on the host ground side are not all collinear.

So set up, the horizontal gesture of sunning pole is easier to maintain, and the frame plane of sunning pole is easier to maintain horizontal extending direction, and at least three hangs the section and hold down each other in order to retrain the sunning pole, avoids the frame plane of sunning pole to incline.

In one embodiment, the lifting control mechanism comprises a winding part, one end of the traction rope is fixedly connected to the winding part, and the traction rope is wound on the winding part, stretches out of the lifting control mechanism and sequentially passes through the host machine and the airing rod in a plurality of times.

By the arrangement, the clothes airing device can obtain a larger number of hanging sections by using a smaller number of traction ropes, and meanwhile, the number of winding parts for winding or unwinding the traction ropes can be adaptively reduced, so that the lifting control mechanism is simpler and lighter.

In one embodiment, the lifting control mechanism is installed on the host computer and comprises a plurality of winding portions, the traction ropes are corresponding to the winding portions in number and in one-to-one correspondence, one end of each traction rope is fixedly connected to the corresponding winding portion, and the lifting control mechanism comprises:

each traction rope is wound on the corresponding winding part, then is wound on the host machine, and extends out of the host machine to be connected to the airing rod; or,

Each traction rope is wound on a corresponding winding part and then stretches out of the lifting control mechanism, and is wound on the host machine and the airing rod for a plurality of times; or,

some traction ropes are wound on corresponding winding parts, then are wound on the host machine and extend out of the host machine to be connected to the airing rod, and other traction ropes are wound on corresponding winding parts and are wound on the host machine and the airing rod repeatedly.

In one embodiment, the suspension section comprises at least one inclined pull section which extends in a linear tensioning state and inclines relative to the vertical direction, and two ends of the inclined pull section are respectively connected with the airing rod and the host in an inclined pull manner; and/or the number of the groups of groups,

the clothes airing device further comprises a stitch restraining element arranged between the host machine and the airing rod, at least one suspension section stretches out from the near side of the host machine, then is wound around the stitch restraining element, and is bent to form a diagonal section which is connected to the airing rod in a diagonal mode.

The means for obtaining the suspension section connected to the airing rod in a diagonal manner is not limited and the means are various.

In one embodiment, the suspension section comprises a cable-stayed section connected to the airing rod and a straight-drawn section connected to the airing rod, the traction rope comprises a cable-stayed traction rope forming the cable-stayed section and a straight-drawn traction rope forming the straight-drawn section, the lifting control mechanism comprises a cable-stayed winding part and a straight-drawn winding part which can respectively and independently move, the cable-stayed traction rope is wound on the cable-stayed winding part, and the straight-drawn traction rope is wound on the straight-drawn winding part.

By means of the arrangement, the straight-pulling winding parts and the inclined-pulling winding parts with different specifications and different rotating speeds can be respectively configured according to the winding and unwinding speed and the tensile force of the straight-pulling traction rope and the inclined-pulling traction rope, so that the straight-pulling section and the inclined-pulling section can be matched better, and the airing rod can be lifted or lowered efficiently and stably.

In one embodiment, the lifting control mechanism comprises a diagonal cable winding shaft, wherein the two axial ends of the diagonal cable winding shaft are respectively a thin end and a thick end, and the peripheral dimension of the diagonal cable winding shaft increases from the thin end to the thick end; the traction rope comprises a diagonal traction rope which is connected to the airing rod in a diagonal manner, the diagonal traction rope forms a wire-wrapping rope section which is wrapped around the periphery of a diagonal wire-wrapping shaft, the diagonal wire-wrapping shaft can rotate forward to roll up the diagonal traction rope, and the wire-wrapping rope section extends to the thick end; one end of the cable-stayed hauling rope is fixedly connected with the thin end.

In one embodiment, the plane perpendicular to the axial direction of the cable-stayed winding shaft is cut into a circular section, the small diameter end and the large diameter end of the cable-stayed winding shaft are respectively the small diameter end and the large diameter end of the cable-stayed winding shaft, the cable-stayed winding shaft is a conical shaft, and the winding rope portion is a conical spiral rope portion.

In one embodiment, the traction rope further comprises a straight traction rope which is connected to the airing rod in a straight pulling manner, the lifting control mechanism further comprises a straight pull wire winding shaft, the outer circumferential dimensions of any position of the straight pull wire winding shaft in the axial direction of the straight pull wire winding shaft are equal, the straight pull wire winding shaft and the inclined pull wire winding shaft are arranged in a split manner, the lifting control mechanism further comprises a driver, an inclined pull driving wheel fixedly connected to the inclined pull wire winding shaft and a straight pull driving wheel fixedly connected to the straight pull wire winding shaft, and the driver comprises a power output part which is meshed with the inclined pull driving wheel and the straight pull driving wheel.

In one embodiment, the traction rope further comprises a straight traction rope which is connected to the airing rod in a straight pulling way, the lifting control mechanism further comprises a straight pull wire winding shaft, the outer circumferential dimensions of any position of the straight pull wire winding shaft in the axial direction of the straight pull wire winding shaft are equal, the straight pull wire winding shaft is connected with the straight pull wire winding shaft in a winding way, the straight pull wire winding shaft is coaxially connected with the inclined pull wire winding shaft, the lifting control mechanism further comprises a driver and a driving wheel which is coaxially connected with the straight pull wire winding shaft or the inclined pull wire winding shaft, and the driver comprises a power output piece which is meshed with the driving wheel; and/or, the straight-pulling wire-winding shaft and the inclined-pulling wire-winding shaft are integrally formed; and/or the straight-pull wire reel is cylindrical, and the outer diameter of the straight-pull wire reel is not larger than the diameter of the thin end.

In one embodiment, the lifting control mechanism comprises a first winder arranged on the host machine, the first winder comprises a diagonal winding shaft, and the diagonal winding shaft is connected with the host machine and the airing rod in a wound mode after being wound with the diagonal winding shaft through a diagonal traction rope to form a plurality of suspension sections, and the suspension sections comprise diagonal lifting sections which move along with the action of the first winder and convey the motion to the host machine.

In one embodiment, the lifting control mechanism comprises a first winder arranged on the host machine, the first winder comprises a diagonal winding shaft, and the diagonal traction rope is wound on the diagonal winding shaft, then wound on the host machine, and is fixedly connected with the airing rod to form a suspension section which is connected with the airing rod in a diagonal mode.

In one embodiment, the hauling ropes form a plurality of groups of suspension wire nets, each group of suspension wire nets comprises a plurality of suspension sections, and two ends of any one suspension section are respectively connected with the host machine and the airing rod in a tensioning manner; the lifting control mechanism can roll up the traction rope and shorten the suspension section, or pay out the traction rope and lengthen the suspension section so as to expand or contract the suspension wire net.

In one embodiment, the traction ropes are divided into two groups, and the two groups of traction ropes respectively extend out of two opposite sides of the lifting control mechanism and respectively form two groups of suspension wire nets which are spaced along the length direction of the airing rod.

In one embodiment, the two groups of suspension wire nets are inclined at the far side of the airing rod, the distance between the two groups of suspension wire nets is increased along the vertical downward direction, and the two ends of any one suspension section are connected with the host machine and the airing rod in a diagonal manner respectively.

In one embodiment, the two sets of hanging wire gateways are symmetrically disposed in a widthwise plane that is perpendicular to the distal side of the pole and bisects the pole, the widthwise direction of the pole being parallel to the widthwise plane.

Drawings

Fig. 1 is a schematic perspective view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

Fig. 2 is a schematic perspective view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

fig. 3 is a schematic view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

fig. 4 is a schematic view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

fig. 5 is a schematic view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

fig. 6 is a schematic perspective view of a clothes airing device according to an embodiment of the present utility model;

fig. 7 is a schematic view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

fig. 8 is a schematic view of a part of a structure of a clothes airing device according to an embodiment of the present utility model;

FIG. 9 is an enlarged schematic view of a portion of the clothes drying apparatus shown in FIG. 8 at A;

FIG. 10 is a schematic illustration of a cable-stayed spool and pull-cord connection according to one embodiment of the utility model;

FIG. 11 is a schematic illustration of a cable-stayed spool and pull-cord connection according to an embodiment of the utility model;

FIG. 12 is a schematic diagram of the assembly of a lift control mechanism according to one embodiment of the present utility model;

FIG. 13 is a schematic diagram of the assembly of a lift control mechanism according to one embodiment of the present utility model;

fig. 14 is a schematic diagram of a clothes drying apparatus according to an embodiment of the present utility model in a side view;

Fig. 15 is a schematic perspective view of a clothes airing device according to an embodiment of the present utility model;

fig. 16 is a schematic perspective view of a clothes airing device according to an embodiment of the present utility model.

Reference numerals illustrate:

100. a clothes airing device; 10. a host; 11. a top guide rope element; 111. a right rear upper guide rope portion; 1111. a first upper pulley; 1112. a second upper pulley; 112. a right front upper guide rope portion; 1121. a third upper pulley; 1122. a fourth upper pulley; 113. a left rear upper guide rope portion; 1131. a fifth upper pulley; 1132. a sixth upper pulley; 114. a left front upper guide rope portion; 1141. a seventh upper pulley; 1142. an eighth upper pulley;

12. a host body; 131. a right rear upper fixation point; 132. a right front upper fixed point; 133. left rear upper fixation point; 134. a left front upper fixed point; 14. a stitch-restraining element;

20. a traction rope; 21. a first traction rope; 22. a second traction rope; 23. a third traction rope; 24. a fourth traction rope; 25. a fifth traction rope; 26. a sixth traction rope; 27. a seventh traction rope; 28. an eighth traction rope; 201. a suspension section; 2011. a cable-stayed section; 2012. a straight pull section; 202. winding and connecting rope parts;

30. airing the rods; 31. a bottom guide rope element; 311. a right rear lower guide rope portion; 3111. a first lower pulley; 3112. a second lower pulley; 312. a right front lower guide rope portion; 3121. a third lower pulley; 3122. a fourth lower pulley; 313. a left rear lower guide rope portion; 3131. a fifth lower pulley; 3132. a sixth lower pulley; 314. a left front lower guide rope portion; 3141. a seventh lower pulley; 3142. an eighth lower pulley; 32. a airing rod frame;

331. A right rear lower fixed point; 332. a right front lower fixed point; 333. a left rear lower fixed point; 334. a left front lower fixed point;

40. a lifting control mechanism; 401. a first reel; 41. a winding part; 411. a power input member; 4111. a first driving wheel; 4112. a second driving wheel; 4113. a third driving wheel; 4114. a fourth driving wheel; 412. a wire reel; 4121. a cable-stayed reel; 4122. a straight pull spool; 4131. a thin end; 4132. a thick end; 42. a driver; 421. a power source; 422. a power take-off; 43. and (5) mounting a bracket.

Detailed Description

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "or/and" as used herein includes any and all combinations of one or more of the associated listed items.

The utility model provides a clothes airing device 100, which comprises a main machine 10 fixedly arranged on an indoor ceiling, a traction rope 20 connected with the main machine 10, an airing rod 30 hung on the traction rope 20 and suspended below the main machine 10, and a lifting control mechanism 40 for winding the traction rope 20.

The main machine 10 comprises a blowing and drying module, a gas heating module and other functional modules for accelerating clothes drying, a clothes support can be mounted on the drying rod 30, a telescopic rod can be configured, and the main machine can further comprise a clothes maintenance module and other functional modules. The overall structure of the main machine 10 is approximately cuboid, one rectangular side surface of the main machine 10 is horizontally downward after the main machine 10 is arranged on a ceiling, the overall structure of the airing rod 30 is approximately rectangular frame structure, the airing rod comprises a plurality of rod frames which are fixedly connected and surround to form a closed rectangle, and when clothes are hung on the airing rod 30, one side of the airing rod 30 relatively close to the ground and one side relatively far away from the ground are parallel to the horizontal direction.

The traction rope 20 can be a steel wire rope or a rope body which is made of nylon, chemical fiber and other materials and has high strength, bending resistance and friction resistance. The hauling rope 20 forms a plurality of suspension sections 201 between the main machine 10 and the airing bar 30, the suspension sections 201 extend in a tensioned state, and both ends of the suspension sections 201 are connected to the main machine 10 and the airing bar 30, respectively. In the clothes-horse 100 of the present utility model, the number of suspension sections 201 is at least three, at least a part of suspension sections 201 extends outwards from the side of main machine 10 close to the ground and is connected to the airing rod 30 in tension, and all connection points of all suspension sections 201 and airing rod 30 are not all collinear, i.e. at least three suspension sections 201 are provided, and three connection points of the three suspension sections 201 to the airing rod 30 form a triangle.

The lifting control mechanism 40 comprises a driver 42 and a winding part 41, the driver 42 comprises a power source 421 and a power output piece 422 connected to the output part of the power source 421, the power source 421 is used for providing power for rotating the winding part 41, the winding part 41 comprises a power input piece 411 and a winding shaft 412 which are fixedly connected, the power input piece 411 is connected to the power output piece 422, and the power generated by the power source 421 is transmitted to the power input piece 411 through the power output piece 422 so as to drive the winding shaft 412 to rotate.

The lifting control mechanism 40 may be mounted on the main unit 10 or on the airing rod 30, and the number of the lifting control mechanisms 40 may be one or a plurality of.

A part of the traction rope 20 is wound around the winding shaft 412, the traction rope 20 can form a winding rope portion 202 wound around the outer circumference of the winding shaft 412 as the driver 42 drives the winding portion 41 to rotate forward, and the winding number of the winding rope portion 202 increases as the winding portion 41 continues to rotate forward; when the driver 42 drives the winding portion 41 to rotate reversely, the number of turns of the rope portion 202 wound around the outer periphery of the winding shaft 412 decreases, and therefore the rope portion of the traction rope 20 is continuously paid out from the winding portion 41. The length of the suspension section 201 is adjusted by winding or unwinding the rope portion of the traction rope 20 by the winding portion 41, thereby achieving adjustment control of the height position of the airing rod 30.

In addition to changing the length of the hanger bar 30 along with the operation of the lifting control mechanism 40, thereby changing the height of the hanger bar 30, the hanging section 201 can also restrict the posture of the hanger bar 30 and stabilize the position of the hanger bar 30 in the horizontal direction, that is, the hanger section 201 can keep the hanger bar 30 in the horizontal posture and the hanger bar 30 does not shake in the horizontal direction when the hanger bar 30 is lifted. Therefore, unlike the conventional clothes drying apparatus 100, the clothes drying apparatus 100 of the present utility model does not require a telescopic frame connecting the main unit 10 and the drying pole 30 between the main unit 10 and the drying pole 30.

In order to achieve the above object, the clothes airing device 100 of the present utility model defines: there is at least one suspension section 201, one end of the suspension section 201 is connected to the airing rod 30 in a diagonal manner, and the tension of the end of the suspension section 201 connected to the airing rod 30 has a tension component not only in the vertical direction but also in the horizontal direction. For simplicity of description, the suspension section 201 with one end connected to the airing rod 30 in a diagonal manner is hereinafter defined as a diagonal section 2011. The constraint of the posture of the airing rod 30 and the maintenance of the position of the airing rod 30 in the horizontal direction are mainly realized through the inclined pull section 2011.

The inclined pull section 2011 can maintain the stable posture of the airing rod 30 and inhibit the airing rod 30 from swinging in the horizontal direction because: the diagonal section 2011 is connected to a pulling force applied to the airing rod 30 by one end of the airing rod 30, and a component of the pulling force in the horizontal direction limits the freedom of the airing rod 30 to move in the horizontal direction. The diagonal section 2011 forms a stitch projection on a side of the airing rod 30 relatively far away from the ground (referred to as a remote side of the airing rod 30 for short), and if the total length of the diagonal section 2011 is fixed, the longer the stitch projection, the greater the horizontal component of the pulling force acting on the airing rod 30, the easier the maintaining of the posture and stability of the airing rod 30.

Fig. 1-2 and fig. 5-6 illustrate a laundry drying apparatus 100 according to some embodiments of the present utility model. In these embodiments, the host 10 includes a host body 12 having a substantially rectangular parallelepiped structure, and further includes top rope guide members 11 mounted to four apex angle areas of the host body 12, the four top rope guide members 11 being respectively right rear upper rope guide 111, right front upper rope guide 112, left rear upper rope guide 113, left front upper rope guide 114, and the connecting lines of the right rear upper rope guide 111, right front upper rope guide 112, left rear upper rope guide 113, and left front upper rope guide 114 forming a quadrangle. Each top cord element 11 has a threading gap for the traction cord 20 to pass through.

The airing bar 30 comprises an airing bar frame 32 with a substantially rectangular frame structure, and further comprises bottom rope guide elements 31 respectively installed at four vertex angle areas of the airing bar frame 32, wherein the remote side of the airing bar 30 is the side of the airing bar frame 32 deviating from the ground. The four bottom cord elements 31 are respectively a right rear lower cord portion 311, a right front lower cord portion 312, a left rear lower cord portion 313, a left front lower cord portion 314, and the connection lines of the right rear lower cord portion 311, the right front lower cord portion 312, the left rear lower cord portion 313, and the left front lower cord portion 314 form a quadrangle. Each bottom cord element 31 has a threading gap for the traction cord 20 to pass through.

The right front upper rope guiding part 112, the right rear upper rope guiding part 111, the left rear upper rope guiding part 113 and the left front upper rope guiding part 114 are sequentially arranged in a counterclockwise direction when viewed from the view angle shown in fig. 5; the right front lower guide rope portion 312, the right rear lower guide rope portion 311, the left rear lower guide rope portion 313 and the left front lower guide rope portion 314 are sequentially arranged in a counterclockwise direction.

The lifting control mechanism 40 includes a first reel 401 mounted on the host 10, and in the embodiments shown in fig. 1 to 2 and fig. 5 to 6, the first reel 401 includes four independently movable winding portions 41, and the traction rope 20 includes four rope bodies, namely, a first traction rope 21, a second traction rope 22, a third traction rope 23 and a fourth traction rope 24. The four traction ropes 20 are respectively in one-to-one correspondence with the four winding portions 41.

The first traction rope 21 is wound on the corresponding winding portion 41, then extends from the first side of the first winder 401, is wound on the right rear upper rope guiding portion 111, is wound on the right rear lower rope guiding portion 311, is folded back towards the host 10 and is fixedly connected to the base portion of the right front upper rope guiding portion 112, the base portion of the right front upper rope guiding portion 112 is located at the right front top corner of the host body 12, and a right front upper fixing point 132 is arranged at the position.

The second traction rope 22 is wound around the corresponding winding portion 41, then extends from the first side of the first winder 401, is wound around the right front upper rope guiding portion 112, is wound around the right front lower rope guiding portion 312, is folded back toward the host 10 and is fixedly connected to the base portion of the right rear upper rope guiding portion 111, the base portion of the right rear upper rope guiding portion 111 is located at the right rear top corner of the host body 12, and the right rear upper fixing point 131 is provided.

The third traction rope 23 is wound around the corresponding winding portion 41, then extends from the second side of the first winder 401, is wound around the left rear upper rope guiding portion 113, is wound around the left rear lower rope guiding portion 313, is folded back toward the host 10 and is fixedly connected to the base portion of the left front upper rope guiding portion 114, the base portion of the left front upper rope guiding portion 114 is located at the left front top corner of the host body 12, and the left front upper fixing point 134 is provided. The first side and the second side of the first reel 401 are disposed opposite to each other, and are sequentially juxtaposed in the longitudinal direction of the main unit 10 and the airing bar 30.

The fourth traction rope 24 is wound around the corresponding winding portion 41, then extends from the second side of the first winder 401, is wound around the left front upper rope guiding portion 114, is wound around the left front lower rope guiding portion 314, is folded back toward the host machine 10 and is fixedly connected to the base portion of the left rear upper rope guiding portion 113, the base portion of the left rear upper rope guiding portion 113 is located at the left rear top corner of the host machine body 12, and a left rear upper fixing point 133 is provided.

In the embodiment shown in fig. 5, the hauling rope 20 forms eight suspension sections 201 in total, and the eight suspension sections 201 are all diagonal sections 2011 connected to the airing rod 30 in a diagonal manner. Specifically, of the two suspension segments 201 formed by the first traction rope 21, the two ends of the former are respectively connected to the right rear upper rope guiding portion 111 and the right rear lower rope guiding portion 311, the two ends of the latter are respectively connected to the right front upper rope guiding portion 112 and the right rear lower rope guiding portion 311, the two suspension segments 201 formed by the first traction rope 21 and the host 10 are surrounded to form a triangle with a first bottom edge, the host 10 participates in forming the bottom edge of the triangle, the right rear lower rope guiding portion 311 forms the vertex angle of the triangle, and the bottom edge of the triangle is positioned above the vertex angle of the triangle.

Two suspension segments 201 formed by the second traction rope 22 are respectively connected with the right front upper guide rope portion 112 and the right front lower guide rope portion 312 at two ends, two ends of the second traction rope 22 are respectively connected with the right rear upper guide rope portion 111 and the right front lower guide rope portion 312, two suspension segments 201 formed by the second traction rope 22 and the host 10 are encircled to form a triangle with a second bottom edge, the host 10 participates in forming the bottom edge of the triangle, the right front lower guide rope portion 312 forms the vertex angle of the triangle, and the bottom edge of the triangle is positioned above the vertex angle of the triangle.

The hanging sections 201 with two ends respectively connected to the upper right rear guide rope portion 111 and the lower right rear guide rope portion 311, the hanging sections 201 with two ends respectively connected to the upper right rear guide rope portion 111 and the lower right front guide rope portion 312, and the airing rod 30 are jointly surrounded to form a first bottom side lower triangle, the airing rod 30 participates in forming the bottom side of the triangle, the upper right rear guide rope portion 111 forms the vertex angle of the triangle, and the vertex angle of the triangle is positioned below the bottom side of the triangle.

The hanging section 201 with two ends respectively connected to the right front upper rope guiding part 112 and the right front lower rope guiding part 312, the hanging section 201 with two ends respectively connected to the right front upper rope guiding part 112 and the right rear lower rope guiding part 311, and the airing rod 30 are jointly surrounded to form a second bottom side lower triangle, the airing rod 30 participates in forming the bottom side of the triangle, the right front upper rope guiding part 112 forms the vertex angle of the triangle, and the vertex angle of the triangle is positioned below the bottom side of the triangle.

Two suspension segments 201 formed by the third traction rope 23 are respectively connected with the left rear upper guide rope portion 113 and the left rear lower guide rope portion 313 at two ends, two ends of the second traction rope are respectively connected with the left rear lower guide rope portion 313 and the left front upper guide rope portion 114, the two suspension segments 201 formed by the third traction rope 23 and the host 10 are surrounded to form a triangle with the third bottom edge, the host 10 participates in forming the bottom edge of the triangle, the left rear lower guide rope portion 313 forms the vertex angle of the triangle, and the bottom edge of the triangle is positioned above the vertex angle of the triangle.

Two suspension segments 201 formed by the fourth traction rope 24 are respectively connected with the left front upper guide rope portion 114 and the left front lower guide rope portion 314 at two ends, two ends of the second traction rope are respectively connected with the left front lower guide rope portion 314 and the left rear upper guide rope portion 113, the two suspension segments 201 formed by the fourth traction rope 24 and the host 10 are encircled to form a triangle with the fourth bottom edge, the host 10 participates in forming the bottom edge of the triangle, the left front lower guide rope portion 314 forms the vertex angle of the triangle, and the bottom edge of the triangle is positioned above the vertex angle of the triangle.

The suspension sections 201 with both ends respectively connected to the left rear lower guide rope portion 313 and the left rear upper guide rope portion 113, the suspension sections 201 with both ends respectively connected to the left front lower guide rope portion 314 and the left rear upper guide rope portion 113, and the airing rod 30 jointly enclose to form a third bottom side lower triangle, the airing rod 30 participates in forming the bottom side of the triangle, the left rear upper guide rope portion 113 forms the vertex angle of the triangle, and the vertex angle of the triangle is located above the bottom side of the triangle.

The suspension sections 201 with two ends respectively connected to the left front lower guide rope portion 314 and the left front upper guide rope portion 114, the suspension sections 201 with two ends respectively connected to the left rear lower guide rope portion 313 and the left front upper guide rope portion 114, and the airing rod 30 jointly enclose to form a fourth bottom side lower triangle, the airing rod 30 participates in forming the bottom side of the triangle, the left front upper guide rope portion 114 forms the vertex angle of the triangle, and the vertex angle of the triangle is located above the bottom side of the triangle.

Taking the embodiment shown in fig. 3 as an example, if the positions of the right rear upper guide rope portion 111, the right front upper guide rope portion 112, the left rear upper guide rope portion 113, and the left front upper guide rope portion 114 are marked with B1, B2, B3, and B4, respectively, and the positions of the right rear lower guide rope portion 311, the right front lower guide rope portion 312, the left rear lower guide rope portion 313, and the left front lower guide rope portion 314 are marked with C1, C2, C3, and C4, respectively, it can be determined that: the bottom edges of the hanging sections B1-C1, B1-C2 and the airing rod 30 are arranged in a lower triangle, and the bottom edges of the hanging sections B2-C2, B1-C2 and the host 10 are arranged in a triangle, wherein the triangle is provided with a common edge, namely the hanging sections B1-C2, and for example, the triangle B3-C3-C4 and the triangle B3-C4-B4 are provided with a common edge, namely the hanging sections B3-C4. In other triangles formed by the suspension sections 201 and the airing bar 30, and the suspension sections 201 and the main machine 10, there are also some suspension sections 201, and these suspension sections 201 are common sides of the two triangles, which are not listed here one by one.

In the embodiment shown in fig. 1, 2 and 5, the right rear upper rope guide 111 is a first upper pulley 1111 mounted in the right rear top corner region of the main frame 10, the right front upper rope guide 112 is a second upper pulley 1112 mounted in the right front top corner region of the main frame 10, the left rear upper rope guide 113 is a third upper pulley 1121 mounted in the left rear top corner region of the main frame 10, and the left front upper rope guide 114 is a fourth upper pulley 1122 mounted in the left front top corner region of the main frame 10; the right rear lower guide rope portion 311 is a first lower pulley 3111 mounted in a right rear top corner region of the drying pole 30, the right front lower guide rope portion 312 is a second lower pulley 3112 mounted in a right front top corner region of the drying pole 30, the left rear lower guide rope portion 313 is a third lower pulley 3121 mounted in a left rear top corner region of the drying pole 30, and the left front lower guide rope portion 314 is a fourth lower pulley 3122 mounted in a left front top corner region of the drying pole 30. The pulleys listed above may also be replaced by sleeves fixedly mounted to the main machine 10 or the airing bar 30, through which the hauling rope 20 is passed. When the top rope guiding element 11 or the bottom rope guiding element 31 adopts a sleeve, the rope threading gap is a sleeve through hole, and when the top rope guiding element 11 or the bottom rope guiding element 31 adopts a pulley, the rope threading gap is a space between the pulley seat body and the pulley wheel body.

The embodiment of fig. 6 is substantially identical to the embodiment of fig. 5, and the following description will be given mainly of aspects of the embodiment of fig. 6 that differ from the embodiment of fig. 5. In the embodiment shown in fig. 6, the right rear lower guide rope portion 311 includes two pulleys, a first lower pulley 3111 and a second lower pulley 3112, which are sequentially disposed along the length direction of the airing rod 30, respectively; the right front lower guide rope portion 312 includes two pulleys, a third lower pulley 3121 and a fourth lower pulley 3122, which are sequentially provided along the length direction of the airing rod 30; the left rear lower guide rope portion 313 includes two pulleys, a fifth lower pulley 3131 and a sixth lower pulley 3132, which are sequentially provided along the length direction of the airing rod 30; the left front lower guide rope portion 314 includes two pulleys, a seventh lower pulley 3141 and an eighth lower pulley 3142, which are sequentially provided along the length direction of the airing rod 30, respectively.

The first traction rope 21 is wound around the right rear upper rope guide 111, then around the first lower pulley 3111, then around the second lower pulley 3112, and after two turns, turned back to the main body 10 and connected to the right front upper fixing point 132 at the base of the right front upper rope guide 112. The suspension section 201 between the right rear upper rope guide 111 and the first lower pulley 3111 is a straight section 2012 perpendicular to the far side of the airing rod 30, the suspension section 201 between the second lower pulley 3112 and the right front upper fixed point 132 is a diagonal section 2011 diagonal to the airing rod 30, and the projection of the stitch of the diagonal section 2011 orthographic projection on the far side of the airing rod 30 forms an angle with the length direction of the airing rod 30 as well as the width direction of the airing rod 30.

After the second traction rope 22 is wound and connected through the right front upper rope guiding part 112, the third lower pulley 3121 is wound and connected with the fourth lower pulley 3122, after two times of turning, the second traction rope is turned back to the host 10 and connected with the right rear upper fixed point 131 at the base part of the right rear upper rope guiding part 111, the suspension section 201 between the right front upper rope guiding part 112 and the third lower pulley 3121 is a straight pull section 2012 perpendicular to the far side of the air-drying rod 30, the suspension section 201 between the fourth lower pulley 3122 and the right rear upper fixed point 131 is a cable-stayed section 2011 connected with the air-drying rod 30 in a cable-stayed manner, and the projection of a line projected by the cable-stayed section 2011 orthographic projected on the far side of the air-drying rod 30 forms an angle with the length direction of the air-drying rod 30 and also forms an angle with the width direction of the air-drying rod 30.

After the third traction rope 23 is wound and connected with the left rear upper rope guiding part 113, the fifth lower pulley 3131 is wound and connected with the sixth lower pulley 3132, after two times of turning, the third traction rope is turned back to the host 10 and is connected with the left front upper fixed point 134 at the base part of the left front upper rope guiding part 114, the suspension section 201 between the left rear upper rope guiding part 113 and the fifth lower pulley 3131 is a straight pull section 2012 perpendicular to the far side of the air-drying rod 30, the suspension section 201 between the sixth lower pulley 3132 and the left front upper fixed point 134 is a cable-stayed section 2011 which is connected with the air-drying rod 30 in a cable-stayed manner, and the projection of a line projected on the far side of the air-drying rod 30 by orthographic projection of the cable-stayed section 2011 forms an angle with the length direction of the air-drying rod 30 and also forms an angle with the width direction of the air-drying rod 30.

After the fourth traction rope 24 passes through the left front upper rope guiding part 114 in a winding way, the seventh lower pulley 3141 is firstly in a winding way, then the eighth lower pulley 3142 is in a winding way, after two times of turning, the left rear upper fixing point 133 at the base part of the left rear upper rope guiding part 113 is turned back to the host 10 and connected, the suspension section 201 between the left front upper rope guiding part 114 and the seventh lower pulley 3141 is a straight pull section 2012 perpendicular to the far side of the airing rod 30, the suspension section 201 between the eighth lower pulley 3142 and the left rear upper fixing point 133 is a cable-stayed section 2011 which is connected to the airing rod 30 in a cable-stayed way, and the projection of a line projected on the far side of the airing rod 30 in a orthographic way forms an angle with the length direction of the airing rod 30 and also forms an angle with the width direction of the airing rod 30.

The sixth lower pulley 3132, the fifth lower pulley 3131, the first lower pulley 3111 and the second lower pulley 3112 are sequentially arranged along the length direction of the airing rod 30, and the eighth lower pulley 3142, the seventh lower pulley 3141, the third lower pulley 3121 and the fourth lower pulley 3122 are sequentially arranged along the length direction of the airing rod 30. The wires of the first lower pulley 3111 and the second lower pulley 3112 are not coplanar with the wires of the right rear upper guide rope portion 111 and the right front upper guide rope portion 112, the wires of the third lower pulley 3121 and the fourth lower pulley 3122 are not coplanar with the wires of the right rear upper guide rope portion 111 and the right front upper guide rope portion 112, the wires of the fifth lower pulley 3131 and the sixth lower pulley 3132 are not coplanar with the wires of the left rear upper guide rope portion 113 and the left front upper guide rope portion 114, and the wires of the seventh lower pulley 3141 and the eighth lower pulley 3142 are not coplanar with the wires of the left rear upper guide rope portion 113 and the left front upper guide rope portion 114.

The straight pull segment 2012 can be orthographically projected on the distal side of the pole 30 to form a point projection. As a preferred embodiment, when the number of the suspension segments 201 is plural, and the suspension segments 201 include both the diagonal segments 2011 and the straight segments 2012, at least a portion of the trace projections formed by the suspension segments 201 extend outward to form a pattern formed by the point projection connecting lines, and the end of the trace projections outside the point projection connecting line pattern corresponds to the first end of the diagonal segments 2011 forming the trace projections.

It will be appreciated that in the embodiment of fig. 6, the number of pull cords 20, and the routing of the pull cords 20 to the main machine 10 and the drying poles 30 may be further simplified, including: 1) On the basis of the embodiment shown in fig. 6, the first traction rope 21 is omitted; 2) On the basis of the embodiment shown in fig. 6, the second traction rope 22 is omitted; 3) On the basis of the embodiment shown in fig. 6, the third traction rope 23 is omitted; 4) On the basis of the embodiment shown in fig. 6, the fourth traction rope 24 is omitted; 5) On the basis of the embodiment shown in fig. 6, the first traction rope 21 and the fourth traction rope 24 are omitted; 6) On the basis of the embodiment shown in fig. 6, the second traction rope 22 and the third traction rope 23 are omitted.

Taking the last simplified case 6) as an example, the principle therein will be described in detail: in the simplified case 6), only the first traction rope 21 and the fourth traction rope 24 are reserved, two turning angles are formed after the first traction rope 21 is in winding connection with the first lower pulley 3111 and the second lower pulley 3112 of the right rear lower guide rope portion 311, the top points of the two turning angles are not collinear with the position where the fourth traction rope 24 is in winding connection with the airing rod 30, and the position where the fourth traction rope 24 is in winding connection with the airing rod 30 is the position of the left front lower guide rope portion 314; similarly, the fourth traction rope 24 is wound and connected to the seventh lower pulley 3141 and the eighth lower pulley 3142 of the left front lower guide rope portion 314 to form two turning angles, and the vertex of the two turning angles is not collinear with the position where the first traction rope 21 is wound and connected to the airing rod 30, and the position where the first traction rope 21 is wound and connected to the airing rod 30 is the position of the right rear lower guide rope portion 311.

Referring to fig. 8, fig. 8 shows the connection between the lifting control mechanism 40 and the traction rope 20 in the embodiments shown in fig. 1-2 and fig. 5-6. The elevation control mechanism 40 includes a first reel 401 attached to the main body 12, the first reel 401 including a mounting bracket 43 fixedly connected to the main body 12, a driver 42 mounted on the mounting bracket 43 and composed of a power source 421 and a power output 422, and four independently formed reel portions 41 connected to the power output 422. Each winding portion 41 is capable of rotating forward or reverse in response to actuation of the actuator 42, each winding portion 41 winding up the traction rope 20 during forward rotation, and each winding portion 41 paying out the traction rope 20 during reverse rotation. Each winding portion 41 includes a winding shaft 412, and as the winding portion 41 rotates, the number of turns of the traction rope 20 wound around the outer circumferential wall of the re-winding shaft 412 gradually increases or decreases.

In the embodiment shown in fig. 8, the power source 421 is a motor, the power output member 422 is connected to an output shaft of the motor, and the four winding portions 41 respectively include a first driving wheel 4111, a second driving wheel 4112, a third driving wheel 4113, and a fourth driving wheel 4114 rotatably mounted on the mounting bracket 43, and further respectively include a first winding shaft 412, a second winding shaft 412, a third winding shaft 412, and a fourth winding shaft 412. The first wire spool 412 and the first driving wheel 4111 are coaxial and relatively fixed, the second wire spool 412 and the second driving wheel 4112 are coaxial and relatively fixed, the third wire spool 412 and the third driving wheel 4113 are coaxial and relatively fixed, and the fourth wire spool 412 and the fourth driving wheel 4114 are coaxial and relatively fixed.

One end of the first traction rope 21 is fixedly connected to the first wire spool 412 and is partially wound around the first wire spool 412, one end of the second traction rope 22 is fixedly connected to the second wire spool 412 and is partially wound around the second wire spool 412, one end of the third traction rope 23 is fixedly connected to the third wire spool 412 and is partially wound around the third wire spool 412, one end of the fourth traction rope 24 is fixedly connected to the fourth wire spool 412 and is partially wound around the fourth wire spool 412. The first wire-wound bobbin 412, the second wire-wound bobbin 412, the third wire-wound bobbin 412, and the fourth wire-wound bobbin 412 are arranged in a 2×2 array, and correspond to the right rear top corner region, the right front top corner region, the left rear top corner region, and the left front top corner region of the host body 12, respectively, in order.

Referring to fig. 9, the second driving wheel 4112 includes a worm gear portion and a gear portion coaxially disposed, the fourth driving wheel 4114 includes a worm gear portion and a gear portion coaxially disposed, and the first driving wheel 4111 and the third driving wheel 4113 respectively have gear portions. The power output member 422 is a worm disposed between the second driving wheel 4112 and the fourth driving wheel 4114, the worm gear portion of the second driving wheel 4112 and the worm gear portion of the fourth driving wheel 4114 are respectively engaged with the worm, the gear portion of the first driving wheel 4111 is engaged with the gear portion of the second driving wheel 4112, and the gear portion of the third driving wheel 4113 is engaged with the gear portion of the fourth driving wheel 4114.

It will be appreciated that in other embodiments, the power take-off 422 may also engage the first drive wheel 4111 and the third drive wheel 4113, the second drive wheel 4112 engaging the first drive wheel 4111, and the fourth drive wheel 4114 engaging the third drive wheel 4113; in addition, in some embodiments, the four winding portions 41 may be fixedly connected to form a winding shaft, the four winding shafts 412 are coaxially arranged along the axial direction of the winding shaft, the winding shaft is connected to the power output shaft of the motor, however, some winding shafts 412 may be coaxially connected to form a whole, and other winding shafts 412 are separately formed and arranged.

The number of the winding portions 41 may be further increased or decreased to match the number of the traction ropes 20 on the basis of the embodiment shown in fig. 8 to 9, so long as the number of the winding portions 41 and the traction ropes 20 is ensured to be equal and correspond to each other one by one, and each traction rope 20 is wound around the winding shaft 412 of the corresponding winding portion 41.

In the embodiments shown in fig. 1 to 2 and 5 to 6, the lengths of the first traction rope 21, the second traction rope 22, the third traction rope 23, and the fourth traction rope 24 are equal, the winding and unwinding rates of the first traction rope, the second traction rope, the third traction rope, and the fourth traction rope are equal, the shape and the specification of the four winding portions 41 are the same, and the four winding shafts 412 rotate at the same wire speed. The first traction rope 21 and the second traction rope 22 are symmetrical about a longitudinal plane, the third traction rope 23 and the fourth traction rope 24 are symmetrical about a longitudinal plane, the first traction rope 21 and the third traction rope 23 are symmetrical about a width-wise plane, and the second traction rope 22 and the fourth traction rope 24 are symmetrical about a width-wise plane. Wherein, the length direction plane is perpendicular to the far side of the airing rod 30 and parallel to the length direction of the airing rod 30, and the airing rod 30 is bisected and cut, and the width direction plane is perpendicular to the far side of the airing rod 30 and parallel to the width direction of the airing rod 30, and the airing rod 30 is bisected and cut.

The first traction rope 21 forms a suspension segment B1-C1, the second traction rope 22 forms a suspension segment B2-C2, the third traction rope 23 forms a suspension segment B3-C3, the fourth traction rope 24 forms a suspension segment B4-C4, the suspension segment B1-C1 and the suspension segment B2-C2 are symmetrical with respect to a longitudinal plane, the suspension segment B3-C3 and the suspension segment B4-C4 are symmetrical with respect to a longitudinal plane, the suspension segment B1-C1 and the suspension segment B3-C3 are symmetrical with respect to a width-wise plane, and the suspension segment B2-C2 and the suspension segment B4-C4 are symmetrical with respect to a width-wise plane.

The hanging sections B1-C1 are provided with a first end C1 which is connected with the airing rod 30 in a diagonal manner, a second end B1 which is connected with the host machine 10, the hanging sections B2-C2 are provided with a first end C2 which is connected with the airing rod 30 in a diagonal manner, a second end B2 which is connected with the host machine 10, the hanging sections B3-C3 are provided with a first end C3 which is connected with the airing rod 30 in a diagonal manner, a second end B3 which is connected with the host machine 10, the hanging sections B4-C4 are provided with a first end C4 which is connected with the airing rod 30 in a diagonal manner, and connecting lines of the second ends B4, C1-C1-C3-C4 of the host machine 10 form a first rectangle, the second rectangles are formed after being orthographically projected on four points on the far side of the airing rod 30, and the first rectangles and the second rectangles are concentric rectangles, and have mutually overlapped geometric centers. Alternatively, the four points of orthographic projection of B1-B2-B3-B4 on the remote side of the pole 30 are all located within the first rectangle.

The length-wise plane and the width-wise plane are vertical to the far side of the airing rod 30 and are longitudinal bisecting planes of the two bisecting airing rods 30. Thus, the utility model also defines: the suspension section 201 includes at least one pair of cable-stayed sections 2011, and two cable-stayed sections 2011 disposed in pairs are symmetrically distributed about a longitudinal bisecting plane. Therefore, the two pulling forces applied to the airing rod 30 by the two diagonal tension sections 2011 disposed in pairs respectively generate a first horizontal component and a second horizontal component in the horizontal direction, and the first horizontal component and the second horizontal component can cancel each other out, so that the airing rod 30 maintains a force balance in the direction perpendicular to the longitudinal bisecting plane.

For example, in the embodiment shown in fig. 5, the length direction of the airing bar 30 is the connecting line direction of the left front lower guide line portion 314 and the right front lower guide line portion 312, and the width direction of the airing bar 30 is the connecting line direction of the left front lower guide line portion 314 and the left rear lower guide line portion 313. Considering the suspension sections 201 with both ends respectively connected to the right front upper guide rope portion 112 and the right front lower guide rope portion 312, and the suspension sections 201 with both ends respectively connected to the left front upper guide rope portion 114 and the left front lower guide rope portion 314, the two suspension sections 201 are symmetrically distributed with respect to the width direction plane, the two suspension sections 201 respectively apply tensile forces to the right front top angle area and the left front top angle area of the air-drying rod 30, and the components of the two groups of tensile forces in the horizontal direction are parallel to the length direction of the air-drying rod 30, so that the components of the two groups of tensile forces in the horizontal direction cancel each other. Irrespective of the other suspension segments 201, the pole 30 is balanced in the length direction of the pole 30 under the tension of the two suspension segments 201.

Further, the connecting lines of the four bottom rope guiding elements 31 positioned on the airing bar 30 are rectangular, and the connecting lines of the four top rope guiding elements 11 positioned on the host machine 10 are rectangular. All connection points formed between the airing bar 30 and all suspension sections 201 correspond to the positions of the four bottom cord guiding elements 31, and all connection points formed between the main machine 10 and all suspension sections 201 correspond to the positions of the four top cord guiding elements 11. The connection lines of all connection points of the airing rod 30 and all suspension sections 201 form a first rectangle, the connection lines of all connection points of the host 10 and all suspension sections 201 form a second rectangle, the graph orthographic projected on the far side of the airing rod 30 does not cross the first rectangle, preferably, the graph orthographic projected on the far side of the airing rod 30 by the second rectangle is located in the first rectangle, the graph orthographic projected on the far side of the airing rod 30 by the second rectangle and the first rectangle are concentric rectangles, and the geometric centers of the two rectangles coincide.

Referring to fig. 3, unlike the embodiment shown in fig. 5, only one traction rope 20 is provided in the embodiment shown in fig. 3, the traction rope 20 forms all suspension segments 201, and only one winding portion 41 is provided in the first winder 401. The traction rope 20 is partially wound on the winding part 41 and then extends out from the first side of the first winder 401, and then the host 10 and the airing rod 30 are wound on each other for a plurality of times, and the winding sequence of the traction rope 20 is as follows: the end of the traction rope 20 finally turns back towards the host 10 and is fixedly connected to a left rear upper fixing point 133 at the base of the left rear upper rope guide 113, the right front upper rope guide 112-right rear lower rope guide 311-right rear upper rope guide 111-right front lower rope guide 312-right front upper rope guide 112-left rear upper rope guide 113-left rear lower rope guide 313-left front upper rope guide 114-left front lower rope guide 314. The hauling rope 20 is folded back to the main machine 10 and the airing bar 30 a plurality of times. Since the traction rope 20 is wound twice through the right front upper rope guide 112, the right front upper rope guide 112 includes a second upper pulley 1112 and a fifth upper pulley 1131, and the traction rope 20 is wound sequentially.

As a preferred embodiment, the plurality of suspension segments 201 may be divided into four groups, and the number of each of the four groups of suspension segments 201 may be the same or different, and the four groups of suspension segments 201 are respectively connected to four vertex angle areas of the pole frame 32. Taking the clothes drying apparatus 100 shown in fig. 5 as an example, the hanging sections B1-C1 and B2-C1 are a set of hanging sections, and the set of hanging sections are connected to the right rear top corner area of the pole frame 32; the suspension sections B2-C2 and the suspension sections B1-C2 are a group of suspension sections which are connected to the right front vertex angle area of the airing rod frame 32; the suspension sections B3-C3 and the suspension sections B4-C3 are a group of suspension sections which are connected to the left rear top corner area of the airing rod frame 32; the suspension segments B4-C4, B3-C4 are a set of suspension segments that are connected to the left front top corner region of the pole frame 32.

Alternatively, in the embodiment shown in fig. 3, the second upper pulley 1112 may be replaced with a sleeve through which the traction rope 20 passes; in addition, the clothes drying device 100 further includes a stitch-restraining element 14 mounted on the main machine 10, and in the embodiment shown in fig. 3, a rope portion of the single traction rope 20 located between the right front upper rope guiding portion 112 and the left rear upper rope guiding portion 113 is wound around the stitch-restraining element 14, and forms an avoidance bending angle so as to avoid the first reel 401.

Referring to fig. 4, the embodiment shown in fig. 5 is different from the embodiment shown in fig. 4 in that only two traction ropes 20 are provided, a first traction rope 21 and a second traction rope 22, respectively, and the first traction rope 21 and the second traction rope 22 form four suspension segments 201, respectively. The first reel 401 is provided with two winding portions 41 corresponding to the first traction rope 21 and the second traction rope 22, respectively. The first traction rope 21 is wound on one winding portion 41 corresponding to the first traction rope, then extends out from the first side of the first winder 401, and is wound on the host 10 and the airing rod 30 for a plurality of times, and the winding sequence of the first traction rope 21 is as follows: the right rear upper rope guide 111-right rear lower rope guide 311-right front upper rope guide 112-right front lower rope guide 312, and finally the tip of the first traction rope 21 is folded back toward the host 10 and connected to the right rear upper fixing point 131 at the base of the right rear upper rope guide 111. The second traction rope 22 is wound on the other corresponding winding part 41 and then extends out from the second side of the first winder 401, and then is wound on the host 10 and the airing rod 30 for a plurality of times, and the winding sequence of the second traction rope 22 is as follows: the left rear upper rope guide 113-left rear lower rope guide 313-left front upper rope guide 114-left front lower rope guide 314, and finally the end of the second traction rope 22 is folded back toward the host 10 and connected to the left rear upper fixing point 133 at the base of the left rear upper rope guide 113.

Optionally, in the embodiment shown in fig. 4, the clothes airing device 100 includes two stitch restraining elements 14 installed on the host 10, the first traction rope 21 extends out of the first side of the first reel 401 and is wound on one of the stitch restraining elements 14, and forms a structure of avoiding a bending angle to avoid the mounting bracket 43 of the first reel 401, and the second traction rope 22 extends out of the second side of the first reel 401 and is wound on the other stitch restraining element 14, and forms a structure of avoiding a bending angle to avoid the mounting bracket 43 of the first reel 401.

Further, since the stitch restraining members 14 are respectively provided at opposite sides of the first reel 401, the first traction rope 21 can extend out of the first reel 401 in a direction perpendicular to the first side of the first reel 401 and then be wound around the stitch restraining members 14, the second traction rope 22 can extend out of the first reel 401 in a direction perpendicular to the second side of the first reel 401 and then be wound around the stitch restraining members 14, and the driver 42 can drive the two winding portions 41 more effort-effectively, thereby winding or unwinding the traction rope 20 more efficiently and smoothly. In view of this, it is also possible to provide the embodiment shown in fig. 1 to 2 and 5 with the stitch restraining members 14, the number of the stitch restraining members 14 being equal to the number of the traction ropes 20, and each traction rope 20 being capable of being extended in a direction perpendicular to the first reel 401 after being wound around the corresponding winding portion 41.

In the embodiment shown in fig. 3 and 4, the hauling rope 20 is folded back not only toward the main machine 10 but also toward the airing bar 30 when being wound around the main machine 10 and the airing bar 30, for example, in the embodiment shown in fig. 4, after the second hauling rope 22 is wound around the third lower pulley 3121 of the left rear lower guiding rope portion 313, it is folded back first toward the main machine 10 and around the fourth upper pulley 1122 of the left front upper guiding rope portion 114, passes through the left front apex region of the main machine 10 and is folded back toward the airing bar 30, then is folded back toward the fourth lower pulley 3122 of the left front lower guiding rope portion 314, and finally is folded back toward the main machine 10 to connect the left rear upper fixing point 133 located in the left rear apex region of the main machine 10. It will be appreciated that in other embodiments, for example, where the lift control mechanism 40 includes a second reel mounted to the pole 30, the at least one traction rope 20 is allowed to extend out of the second reel and sequentially wrap around the bottom guide rope element 31 at the pole 30 and the top guide rope element 11 at the host 10, and then back up toward the pole 30, thereby again wrapping around the bottom guide rope element 31 at the pole 30, or directly connecting to a lower anchor point at the pole 30.

Taking the embodiment shown in fig. 1-5 as an example, if the positions of the right rear upper guide rope portion 111, the right front upper guide rope portion 112, the left rear upper guide rope portion 113, and the left front upper guide rope portion 114 are marked with B1, B2, B3, and B4, respectively, and the positions of the right rear lower guide rope portion 311, the right front lower guide rope portion 312, the left rear lower guide rope portion 313, and the left front lower guide rope portion 314 are marked with C1, C2, C3, and C4, respectively, the traction ropes 20 form two sets of suspension wires, each set of suspension wires comprising a plurality of suspension segments 201, wherein one set of suspension wires connects the right rear top corner region of the main machine 10, the right front top corner region of the main machine 10, the right rear top corner region of the drying pole 30, and the right front top corner region of the drying pole 30, and the other set of suspension wires connects the left rear top corner region of the main machine 10, the left front top corner region of the main machine 10, the left rear corner region of the drying pole 30, and the left front top corner region of the drying pole 30. The two sets of hanging wire nets are juxtaposed and spaced apart along the length of the pole 30.

Specifically, the suspension segments B1-C1, B2-C2, B1-C2, B2-C1 form one set of suspension wire nets, and the suspension segments B3-C3, B4-C4, B3-C4, B4-C3 form another set of suspension wire nets. The lifting control mechanism 40 includes the winding portions 41 corresponding to the traction ropes 20 in number and one-to-one, each traction rope 20 is partially wound with the corresponding winding portion 41, the lifting control mechanism 40 drives all the hanging sections 201 to shorten by winding the traction ropes 20, so that the hanging wire net contracts to lift the airing rod 30 upwards, and the lifting control mechanism 40 drives all the hanging sections 201 to lengthen by paying out the traction ropes 20, so that the hanging wire net expands to enable the airing rod 30 to move downwards far away from the host 10. In the embodiment shown in fig. 3, one hauling rope 20 forms two sets of suspension wires; in the embodiment shown in fig. 4, the first traction ropes 21 form one set of suspension wires and the second traction ropes 22 form another set of suspension wires; in the embodiments shown in fig. 1-2 and 5-6, the first traction rope 21 and the second traction rope 22 form one set of suspension wire meshes, and the third traction rope 23 and the fourth traction rope 24 form another set of suspension wire meshes.

It will be appreciated that in other embodiments, the hauling cable 20 may also form three or more sets of suspension wires. The suspension wire nets are formed so that the suspension sections 201 more fully function as the expansion brackets in the conventional laundry apparatus 100, and each group of suspension wire nets can be sequentially expanded and contracted like the expansion brackets. In the expansion or contraction process, the suspension sections 201 in each group of suspension wire nets are mutually restricted, so that the phenomenon that the length change of some suspension sections 201 cannot adapt to the length change of other suspension sections 201 and the lifting rates of different positions on the airing rod 30 in the vertical direction are inconsistent is avoided. In the embodiment shown in fig. 1-5, the hanging sections 201 in each set of hanging wire nets are in the same plane, whether expanded or contracted, so that the swinging freedom of the airing rod 30 can be better limited, and the airing rod 30 can be more fully maintained in a horizontal posture. In the embodiment of fig. 6, the plurality of traction ropes 20 similarly form two sets of hanging wire nets spaced apart and juxtaposed along the length of the pole 30, except that in the embodiment of fig. 6, the hanging sections 201 of each set of hanging wire nets are not coplanar.

Referring to fig. 7, unlike the embodiment shown in fig. 5, the bottom guide rope 31 provided to the airing bar 30 is omitted in the embodiment shown in fig. 7, but a right rear lower fixing point 331, a right front lower fixing point 332, a left rear lower fixing point 333, and a left front lower fixing point 334 are provided at four vertex angle areas of the airing bar 30, respectively, and are located at the right rear vertex angle area, the right front vertex angle area, the left rear vertex angle area, and the left front vertex angle area of the airing bar 30, respectively. Further, the right rear upper guide rope portion 111 includes a first upper pulley 1111, a second upper pulley 1112, the right front upper guide rope portion 112 includes a third upper pulley 1121 and a fourth upper pulley 1122, the left rear upper guide rope portion 113 includes a fifth upper pulley 1131 and a sixth upper pulley 1132, and the left front upper guide rope portion 114 includes a seventh upper pulley 1141 and an eighth upper pulley 1142. In the embodiment shown in fig. 7, the number of hauling ropes 20 is eight, each hauling rope 20 forming a suspension segment 201. The first reel 401 includes eight winding portions 41, and the eight winding portions 41 correspond to the eight traction ropes 20, respectively.

Specifically, in the embodiment shown in fig. 7, the first traction rope 21 is wound around the corresponding winding portion 41 and then extended from the first side of the first reel 401, and then wound around the first upper sheave 1111 of the right rear upper rope guiding portion 111, and finally the end of the first traction rope 21 is connected to the right rear lower fixing point 331. The second traction rope 22 is wound around the corresponding winding portion 41 and then extends from the first side of the first reel 401, and then is wound around the second upper pulley 1112 of the right rear upper rope guiding portion 111, and finally the end of the second traction rope 22 is connected to the right front lower fixing point 332. The third traction rope 23 is wound around the corresponding winding portion 41 and then extends from the first side of the first reel 401, and then is wound around the third upper sheave 1121 of the right front upper rope guiding portion 112, and finally the end of the third traction rope 23 is connected to the right front lower fixing point 332. The fourth traction rope 24 is wound around the corresponding winding portion 41 and then extends from the first side of the first reel 401, and then is wound around the fourth upper pulley 1122 of the right front upper rope guiding portion 112, and finally the end of the fourth traction rope 24 is connected to the right rear lower fixing point 331.

The fifth traction rope 25 is wound around the corresponding winding portion 41 and then extends from the second side of the first reel 401, and then is wound around the fifth upper pulley 1131 of the left rear upper rope guiding portion 113, and finally the end of the fifth traction rope 25 is connected to the left rear lower fixing point 333. The sixth traction rope 26 is wound around the corresponding winding portion 41 and then extends from the second side of the first reel 401, and then is wound around the sixth upper sheave 1132 of the left rear upper rope guiding portion 113, and finally the end of the sixth traction rope 26 is connected to the left front lower fixing point 334. The seventh traction rope 27 is wound around the corresponding winding portion 41 and then extended from the second side of the first reel 401, and then wound around the seventh upper pulley 1141 of the left front upper rope guiding portion 114, and finally the end of the seventh traction rope 27 is connected to the left front lower fixing point 334. The eighth traction rope 28 is wound around the corresponding winding portion 41 and then extends from the second side of the first reel 401, and then is wound around the eighth upper pulley 1142 of the left front upper rope guiding portion 114, and finally the end of the eighth traction rope 28 is connected to the left rear lower fixing point 333.

In the embodiment shown in fig. 7, the first traction rope 21, the second traction rope 22, the third traction rope 23 and the fourth traction rope 24 form one set of suspension wire nets, and the fifth traction rope 25, the sixth traction rope 26, the seventh traction rope 27 and the eighth traction rope 28 form another set of suspension wire nets. If the positions of the right rear upper guide rope portion 111, the right front upper guide rope portion 112, the left rear upper guide rope portion 113, and the left front upper guide rope portion 114 are marked with B1, B2, B3, and B4, respectively, and the positions of the right rear lower fixing point 331, the right front lower fixing point 332, the left rear lower fixing point 333, and the left front lower fixing point 334 are marked with D1, D2, D3, and D4, respectively, the first set of suspension wire nets includes suspension segments B1-D1, B2-D2, B1-D2, and B2-D1, and the second set of suspension wire nets includes suspension segments B3-D3, B4-D4, B3-D4, and B4-D3.

It should be noted that, in the embodiments shown in fig. 1 to 5 and 7, two sets of suspension wire nets formed by the traction ropes 20 are all inclined towards the far side of the airing bar 30 and the near side of the main machine 10, the horizontal distance between the two sets of suspension wire nets gradually increases along the vertical downward direction, each suspension section 201 forming the suspension wire net is connected with the main machine 10 and the airing bar 30 in a diagonal manner at two ends, and optionally, in order to make the airing bar 30 maintain a horizontal posture better, the swinging of the airing bar 30 is inhibited, and the two sets of suspension wire gateways are symmetrically arranged in a width direction plane.

It should be noted that, in some embodiments, the traction rope 20 may further connect the host 10 and the airing bar 30 in the following manner: when the number of the traction ropes 20 is plural and the lifting control mechanism 40 comprises a plurality of winding parts 41, the traction ropes 20 are corresponding to the winding parts 41 in number and are in one-to-one correspondence, one end of each traction rope 20 is fixedly connected with the corresponding winding part 41 and is partially wound on the corresponding winding part 41, wherein after some traction ropes 20 are wound on the corresponding winding part 41, the lifting control mechanism 40 where the winding part 41 is positioned is firstly extended, then the top rope guiding element 11 positioned on the host machine 10 is wound on the host machine 10 so as to pass through the host machine 10, and then the traction ropes 20 are directly extended from the near-ground side of the host machine 10 and are connected with the lower fixed point positioned on the airing rod 30, namely, each traction rope 20 forms a suspension section 201; after the other traction ropes 20 are wound on the corresponding winding portions 41, the lifting control mechanism 40 where the winding portions 41 are located is extended first, and then the top rope guiding element 11 and the bottom rope guiding element 31 are wound on each other for multiple times, so that the traction ropes 20 pass through the host machine 10 and the airing rod 30 in multiple times, that is, at least two suspension sections 201 are formed by each traction rope 20.

In the clothes airing device 100 provided by the utility model, a plurality of lifting inclination angles are respectively formed on the remote side of the airing rod 30 by a plurality of suspension sections 201, at least one lifting inclination angle is formed, namely, the lifting inclination angle between the inclined-pulling section 2011 and the airing rod 30 can be reduced along with the winding of the traction rope 20 by the lifting control mechanism 40, so that the component of the pulling force of the inclined-pulling section 2011 on the airing rod 30 in the horizontal direction can be gradually increased along with the lifting of the airing rod 30, namely, the higher the airing rod 30 is, the more obvious the effect that the airing rod 30 is limited to horizontally shake by the inclined-pulling section 2011 is, and the more stable the posture of the airing rod 30 is. Alternatively, when the suspension sections 201 are all diagonal sections 2011 that can form a stitch projection on the far side of the airing rod 30, all the lifting inclination angles can be reduced as the lifting control mechanism 40 winds up the traction rope 20.

It should be noted that in some embodiments, the lifting control mechanism 40 further includes a second reel mounted to the airing bar 30, at least a portion of the traction rope 20 is wound around a winding portion 41 of the second reel, first wound around the bottom rope guiding element 31, and then extends upward in tension relative to the distal side of the airing bar 30 to wind around the top rope guiding element 11 of the main machine 10 or connected to an upper fixing point of the main machine 10.

In the clothes airing device 100 of the present utility model, the number of the hanging sections 201 is at least three, the airing rod 30 has at least three first connection points for connecting all the hanging sections 201 with the airing rod 30 respectively, in addition, the main machine 10 has at least three second connection points for connecting all the hanging sections 201 with the airing rod 30 respectively, the projection points of all the first connection points on the far side of the airing rod 30 are not all collinear, the projection points of all the second connection points on the side of the main machine 10 relatively close to the ground (short, the near side of the main machine 10) are not all collinear, in other words, at least three hanging sections 201 are formed, and the three connection points of the three hanging sections 201 with the main machine 10 form a triangle after being connected.

In some embodiments, the traction ropes 20 are divided into two types according to the type of the suspension section 201 formed by the traction ropes, the former type of traction ropes 20 are the direct traction ropes 20 for forming the direct traction section 2012 perpendicular to the far side of the airing rod 30, the latter type of traction ropes 20 are the oblique traction ropes 20 for forming the oblique traction section 2011 connected to the airing rod 30 in an oblique manner, and the lifting control mechanism 40 comprises two types of winding parts 41, the former type of winding parts 41 are the direct traction winding parts 41 for connecting and winding the traction ropes 20 forming the direct traction section 2012, and the latter type of winding parts 41 are the oblique traction winding parts 41 for connecting and winding the traction ropes 20 forming the oblique traction section 2011. When the airing bar 30 is vertically placed up or down at a constant rate, the winding or releasing speed of the straight pull section 2012 is kept constant, so that the straight pull wire winding portion 41 connected to the straight pull wire 20 can wind or release the straight pull wire 20 at a constant rate, and the winding or releasing speed of the diagonal pull section 2011 is changed according to the change of the lifting inclination angle between the diagonal pull section 2011 and the remote side of the airing bar 30, so that the diagonal pull wire winding portion 41 connected to the diagonal pull wire 20 winds or releases the diagonal pull wire 20 at a changed rate.

In the embodiment shown in fig. 1 to 9, two ends of each diagonal section 2011 are connected to the airing rod 30 and the host computer 10 in a diagonal manner, that is, while the diagonal sections 2011 are orthographically projected on the far side of the airing rod 30 to form a stitch projection, the diagonal sections 2011 may be orthographically projected on the near side of the host computer 10 to form stitch projections.

The diagonal segments 2011 may also be formed in the following manner: the clothes airing device 100 further comprises a stitch restraining element 14 arranged between the main machine 10 and the airing rod 30, wherein after the hanging section 201 extends downwards from the near side of the main machine 10, the hanging section 201 is firstly wound and connected with the stitch restraining element 14, and then is bent after being wound and connected, and then the hanging section 201 of the wound stitch restraining element 14 is tensioned and extended along a direction inclined relative to the vertical direction, so that a diagonal section 2011 which is obliquely connected with the airing rod 30 is formed.

Referring to fig. 15 and 16, a first reel (not shown) is mounted on the main body 12, the clothes airing device 100 includes four traction ropes 20, and the four traction ropes 20 are wound around a winding shaft 412 of the first reel and then extend toward four vertex angle areas of the main body 12, and are wound around a right rear upper rope guiding portion 111, a right front upper rope guiding portion 112, a left rear upper rope guiding portion 113, and a left front upper rope guiding portion 114, respectively. Then, the four traction ropes 20 extend downwards from the main machine body 12 along the vertical direction and are respectively and correspondingly wound with the four stitch restraining elements 14 one by one, the four stitch restraining elements 14 are fixedly arranged relative to one of the main machine 10 and the airing rod 30, after each traction rope 20 is wound with the corresponding stitch restraining element 14, the extending direction is changed, and the rest rope portions are inclined relative to the vertical direction, so that a cable-stayed section 2011 which is connected with the airing rod 30 in a cable-stayed manner is formed.

In the embodiment shown in fig. 15-16, the ends of the four hauling ropes 20 are fixedly connected to a right rear lower fixing point 331, a right front lower fixing point 332, a left rear lower fixing point 333 and a left front lower fixing point 334 of the pole frame 32, respectively. In the clothes-horse 100 shown in fig. 15, the vertical rope portions of the four traction ropes 20 are orthographically projected on the far side of the clothes-horse 30 to form four point projections, the four diagonal-pulling sections 2011 are orthographically projected on the far side of the clothes-horse 30 to form four stitch projections, the four stitch projections extend outwards relative to the line pattern of the four point projections, and one end of each stitch projection extending beyond the line pattern of the point projection is exactly connected with one end of the clothes-horse 30 in a diagonal-pulling manner through the diagonal-pulling section 2011 corresponding to one end of the line pattern of the line projection. In the clothes-horse 100 shown in fig. 16, four stitch projections formed on the far side of the airing bar 30 by four diagonal segments 2011 extend from four point projections to the inside of the point projection wiring pattern, respectively.

In the embodiments shown in fig. 1 to 2 and fig. 5 to 6, the clothes airing device 100 adopts four traction ropes 20 to realize hanging connection of the airing rods 30, and the embodiments allow one traction rope 20 to be disconnected, and the disconnection of one traction rope 20 does not cause the gesture of the airing rod 30 to be changed greatly, so that the airing rod 30 is easy to fall due to the gesture of the airing rod 30 being changed greatly. Referring to fig. 5, after the first traction rope 21 is disconnected, two suspension segments 201 formed by the second traction rope 22 connect a right front vertex angle area of the airing rod 30 with a right front vertex angle area and a right rear vertex angle area of the main machine body 12, two suspension segments 201 formed by the third traction rope 23 connect a left rear vertex angle area of the airing rod 30 with a left rear vertex angle area and a left front vertex angle area of the main machine body 12, two suspension segments 201 formed by the fourth traction rope 24 connect a left front vertex angle area of the airing rod 30 with a left front vertex angle area and a left rear vertex angle area of the main machine body 12, and connecting lines of the right front vertex angle area, the left rear vertex angle area and the left front vertex angle area of the airing rod 30 form a triangle, so that the airing rod 30 can continuously maintain a horizontal posture, four vertex angle areas of the airing rod 30 are four vertex angle areas of the airing rod frame 32, and four vertex angle areas of the main machine 10 are four vertex angle areas of the main machine body 12.

Referring to fig. 6, the embodiment of fig. 6 also allows one of the pull cords 20 to be disconnected without causing a substantial change in the attitude of the pole 30 after disconnection. In fact, in the embodiment shown in fig. 6, it is allowed to retain only the fourth traction rope 24 of the first traction rope 21, or to retain only the second traction rope 22 and the third traction rope 23, and it is also possible to temporarily maintain the posture of the drying bar 30 without a great change. For example, when only the first traction rope 21 and the fourth traction rope 24 are reserved, the connection points of the two traction ropes to the airing rod 30 are the positions of the first lower pulley 3111, the second lower pulley 3112, the seventh lower pulley 3141 and the eighth lower pulley 3142, and the four positions are connected to form a quadrangle, which also satisfies that the four positions are not all collinear.

In some embodiments, the main body 12 includes a horizontally disposed reel positioning surface, and the elevation control mechanism 40 includes a first reel 401 mounted to the reel positioning surface, the first reel 401 being parallel to the reel positioning surface. The spool 412 in the first reel 401 has an axis perpendicular to or parallel to the reel positioning surface, at least a part of the traction ropes 20 are wound around the spool 412 in the first reel 401, and these traction ropes 20 extend out of the first reel 401 in a state parallel to the reel positioning surface.

When the bobbins 412 in the first reel 401 have axes perpendicular to the reel positioning surface, the bobbins 412 are separately provided from each other and are rotated independently, the driver 42 engages the power input part 411 fixedly connected to the bobbins 412 and the power output part 422 of the driver 42; when the bobbins 412 in the first reel 401 have axes parallel to the reel positioning surface, the bobbins 412 may be coaxially fixedly connected to form one total spool and synchronously rotated at the same angular velocity, and of course, when the bobbins 412 in the first reel 401 have axes parallel to the reel positioning surface, the bobbins 412 may be separately provided from each other and rotated separately.

In the existing clothes airing device, the airing rods are mostly lifted or lowered at a uniform rate, and as the existing clothes airing device adopts the scheme that the traction ropes are directly pulled to connect the airing rods, the lifting control mechanism also rolls up or releases the traction ropes at the uniform rate. However, the lifting control mechanism is not suitable for the clothes airing device of the utility model because of the fact that the traction rope is wound or released at a constant speed:

in the clothes airing device 100 of the present utility model, there is a pulling rope 20 that is connected to the airing rod 30 in a diagonal manner, that is, the pulling rope 20 that forms the diagonal pulling section 2011 (hereinafter referred to simply as the diagonal pulling rope 20 for convenience of description), as the airing rod 30 gradually rises closer to the host 10, the lifting inclination angle between the diagonal pulling section 2011 and the remote side of the airing rod 30 becomes smaller, at this time, if the lifting control mechanism 40 winds up the pulling rope 20 at a uniform rate, the rate component of the diagonal pulling section 2011 of the diagonal pulling rope 20 in the vertical direction gradually decreases, so as to form a straight pulling section 2012, and the pulling rope 20 that is connected to the airing rod 30 in a straight pulling manner (hereinafter referred to simply as the straight pulling rope 20) still lifts the airing rod 30 at a constant rate through the straight pulling section 2012, which causes the lifting of the diagonal pulling section 2011 to lag the lifting of the airing rod 30 by the straight pulling section 2012, and finally the posture of the airing rod 30 will change, and it is difficult to maintain a horizontal state and continue to rise.

Therefore, the utility model also needs to ensure that: the component of the rate of lifting the airing rod 30 by the diagonal traction rope 20 in the vertical direction is equal to the rate of lifting the airing rod 30 by the direct traction rope 20, and the concept of achieving the purpose is to achieve the lifting of the diagonal traction rope 20 by the lifting control mechanism 40. Specifically, as the airing bar 30 moves upward and gradually approaches the main machine 10, the rate at which the elevation control mechanism 40 winds up the diagonal draw rope 20 tends to increase, so that the rate component of lifting the airing bar 30 in the vertical direction by the diagonal draw rope 20 can be compensated. If the lifting inclination between the inclined pulling section 2011 and the remote side of the airing rod 30 is recorded as β, and the speed of the lifting control mechanism 40 for winding up the inclined pulling rope 20 is v, the calculation of the speed component of the inclined pulling rope 20 for lifting the airing rod 30 along the vertical direction is v×sin β, and the speed v of the lifting control mechanism 40 for winding up the inclined pulling rope 20 is continuously increased to offset the decrease of the lifting inclination β.

The utility model achieves the following aims: the lifting control mechanism 40 includes a diagonal cable spool 4121, wherein both axial ends of the diagonal cable spool 4121 form a thin end 4131 and a thick end 4132, respectively, the outer circumferential dimension of the thin end 4131 is smaller than the outer circumferential dimension of the thick end 4132, and the outer circumferential dimension of the diagonal cable spool 4121 tends to increase along the thin end 4131 toward the thick end 4132. As previously described, the pull-cord 20 includes the cable-stayed pull-cord 20 forming the cable-stayed section 2011 and cable-stayed connected to the airing bar 30, and the cable-stayed pull-cord 20 also forms the wire-wound section 202 wound around the outer circumference of the cable-stayed wire spool 4121. When the driver 42 drives the diagonal draw wire shaft 4121 to rotate forward to wind up the diagonal draw wire 20, the number of turns of the wire-wound rope portion 202 wound around the diagonal draw wire shaft 4121 increases, and the wire-wound rope portion 202 extends continuously toward the thick end 4132, that is, the newly added rope turn in the wire-wound rope portion 202 is arranged on the side of the previous rope portion relatively close to the thick end 4132.

Referring to fig. 10 and 11, the diagonal wire reel 4121 shown in fig. 10 and 11 has the same rotation direction, both of which are rotated forward by the drive of the driver 42 to wind up the traction rope 20, fig. 10 is a state in which the diagonal wire reel 4121 winds down the traction rope 20 at an earlier time, and fig. 11 is a state in which the diagonal wire reel 4121 winds down the traction rope 20 at a later time. When the driver 42 drives the diagonal draw wire spool 4121 to reverse to pay out the rope portion of the traction rope 20, the number of turns of the wire-wound rope portion 202 wound around the diagonal draw wire spool 4121 decreases, and the rope loops relatively near the thick end 4132 in the wire-wound rope portion 202 are separated from the diagonal draw wire spool 4121 one by one.

Optionally, one end of the cable 20 is fixedly connected to the thin end 4131.

Alternatively, if a plane perpendicular to the axial direction of the diagonal wire spool 4121 is defined as a cross section, the cross section formed by cutting the diagonal wire spool 4121 at any position in the axial direction of the diagonal wire spool 4121 is circular, and at this time, the thin end 4131 and the thick end 4132 are respectively a small-diameter end and a large-diameter end, which are both circular end surfaces; the spooled rope portion 202 is a spiral rope portion.

Alternatively, the diagonal wire spool 4121 is a tapered spool, as shown in fig. 11 and 12, and accordingly, the spooled rope portion 202 is a tapered spiral rope portion.

Optionally, the outer peripheral wall of the diagonal cable-stayed wire spool 4121 is provided with a spiral groove, the wire-wound rope portion 202 is located in the spiral groove and extends along the spiral groove in a spiral manner so as to sleeve the diagonal cable-stayed wire spool 4121, and the spiral groove can prevent the wire-wound rope portion 202 from loosening, shifting and even falling off from the diagonal cable-stayed wire spool 4121.

It will be appreciated that assuming that the cable-stayed spool 4121 rotates at a constant angular velocity, the linear velocity on the outer peripheral wall of the cable-stayed spool 4121 increases in a direction away from the small diameter end and toward the large diameter end. As the driver 42 drives the diagonal draw wire spool 4121 to rotate forward to wind up the diagonal draw wire 20, the size of each loop in the spliced rope portion 202 tends to increase in a direction toward the large-diameter end, and thus the rate v at which the diagonal draw wire spool 4121 winds up the diagonal draw wire 20 increases.

As described above, the traction rope 20 further includes the straight traction rope 20 forming the straight pull section 2012 and being connected to the airing rod 30 by being pulled straight, the lifting control mechanism 40 further includes the straight pull wire spool 4122 on the basis of satisfying the increasing speed v of the cable wire spool 4121 for winding up the cable traction rope 20, the outer circumferential dimensions of any position of the straight pull wire spool 4122 in the axial direction are equal, and the wire-wound rope section 202 formed by winding the straight traction rope 20 around the straight pull wire spool 4122 is in a cylindrical spiral shape.

The diagonal wire spool 4121 and the straight wire spool 4122 may be provided separately or integrally connected. When the diagonal wire spool 4121 and the straight wire spool 4122 are separately arranged, the wire winding portion 41 further comprises a diagonal drive wheel fixedly connected to the diagonal wire spool 4121 and a straight drive wheel fixedly connected to the straight wire spool 4122, the diagonal drive wheel and the diagonal wire spool 4121 form the diagonal wire winding portion 41 together, and the straight drive wheel and the straight wire spool 4122 form the straight wire winding portion 41 together. The power output piece 422 of the driver 42 is meshed with the straight pulling driving wheel and the inclined pulling driving wheel, and the meshing mode can be gear meshing or worm gear meshing. Referring to fig. 12, in the embodiment shown in fig. 12, the power take-off 422 includes a worm, and the pull-up drive wheel and the pull-down drive wheel each include a worm gear portion engaged with the worm. If more wire winding portions 41 are further added on the basis of the embodiment of fig. 12, the additionally added wire winding portions 41 may form gear engagement with the two wire winding portions 41 shown in the drawing.

When the diagonal wire spool 4121 and the straight wire spool 4122 are integrally connected, they are coaxially arranged, and in this case, the diagonal wire spool 4121 and the straight wire spool 4122 together form a single total wire spool; the winding part 41 further includes a driving wheel coaxially disposed with and fixedly connected to the winding main shaft, and the power output member 422 of the driver 42 is engaged with the driving wheel in a manner of worm gear engagement, and at this time, the driving wheel includes a worm wheel part, and the power output member 422 includes a worm gear engaging the worm wheel part. Referring to fig. 13, in the embodiment shown in fig. 13, the diagonal wire spool 4121 and the straight wire spool 4122 are integrally formed, the straight wire spool 4122 is cylindrical, the outer diameter of the straight wire spool 4122 is not greater than the diameter of the small diameter end of the diagonal wire spool 4121, and the straight wire spool 4122 is protruded from the small diameter end of the diagonal wire spool 4121.

In the embodiment shown in fig. 7, the lifting control mechanism 40 includes a first reel 401 installed on the host machine 10, the first reel 401 includes first cable-stayed winding shafts 4121, at least one cable-stayed traction rope 20 is corresponding to the first cable-stayed winding shafts 4121 in number and one-to-one, the cable-stayed traction ropes 20 are wound around the cable-stayed winding shafts 4121 corresponding to the cable-stayed traction ropes, and then are wound around the top rope guiding element 11 of the host machine 10, finally, the tail ends of the cable-stayed traction ropes 20 are fixedly connected to the lower fixed point of the air-drying rod 30, so that cable-stayed sections 2011 connected to the air-drying rod 30 in cable-stayed manner are formed, one end of each cable-stayed section 2011 is fixedly connected to the lower fixed point of the air-drying rod 30, and the other end of each cable-stayed traction rope is wound around the top rope guiding element 11 of the host machine 10.

It should be understood that in other embodiments, the lifting control mechanism 40 may further include a second reel installed on the airing bar 30, the second reel includes a second cable-stayed winding shaft 4121, at least one cable-stayed traction rope 20 is corresponding to the second cable-stayed winding shaft 4121 in number and one-to-one, the cable-stayed traction ropes 20 are wound around the cable-stayed winding shafts 4121 corresponding to the cable-stayed traction ropes, and then are wound around the bottom guide rope elements 31 of the airing bar 30, and finally, the ends of the cable-stayed traction ropes 20 are fixedly connected to the upper fixed point of the host machine 10, so as to form cable-stayed sections 2011 connected to the airing bar 30 in a cable-stayed manner, one ends of the cable-stayed sections 2011 are fixedly connected to the upper fixed point of the host machine 10, and the other ends of the cable-stayed traction ropes are wound around the bottom guide rope elements 31 of the airing bar 30.

In the embodiment shown in fig. 1-2 and 3-5, the lifting control mechanism 40 includes a first reel 401 installed on the main machine 10, the first reel 401 includes first cable-stayed winding shafts 4121, at least one cable-stayed traction rope 20 corresponds to the first cable-stayed winding shafts 4121 in number and one-to-one, the cable-stayed traction ropes 20 are wound on the corresponding first cable-stayed winding shafts 4121 and then wound on the top rope guiding element 11 of the main machine 10 and the bottom rope guiding element 31 of the airing rod 30, so as to form a plurality of suspension sections 201, and the cable-stayed lifting sections 201 include cable-stayed lifting sections which carry motion to the main machine 10 along with the winding action of the first reel 401 and are connected with the airing rod 30 in a cable-stayed manner by winding on the bottom rope guiding element 31.

Fig. 14 is a side view of the clothes-horse 100 shown in fig. 4 from a left side view, two traction ropes 20, i.e., a third traction rope 23 and a fourth traction rope 24, each form two suspension segments 201, the third traction rope 23 is first wound around the left rear upper guide rope portion 113 after being extended from a first reel 401 mounted on the main machine 10, then wound around the left rear lower guide rope portion 313, then folded back toward the main machine 10 and connected to the left front upper fixing point 134 of the left front top corner region of the main machine body 12, and finally the third traction rope 23 forms suspension segments B3-C3 and suspension segments B4-C3. The suspension sections B4-C3 are diagonal lifting sections for conveying motion to the host machine 10, and specifically, component directions of speeds of points on the suspension sections B4-C3 in the vertical direction are consistent with lifting directions of the airing bars 30 and are close to the host machine 10.

The fourth traction rope 24 is first wound around the left front upper rope guide 114 after being extended from the first reel 401 mounted to the main machine 10, then wound around the left front lower rope guide, then folded back toward the main machine 10 and connected to the left rear upper fixing point 133 of the left rear apex angle area of the main machine body 12, and finally the fourth traction rope 24 forms the suspension segments B4-C4 and B3-C4. The suspension sections B3-C4 are diagonal lifting sections for conveying motion to the host machine 10, and specifically, component directions of speeds of points on the suspension sections B3-C4 in the vertical direction are consistent with lifting directions of the airing bars 30 and are close to the host machine 10.

In the embodiment shown in fig. 6, the diagonal section 2011 formed by the first traction rope 21, the diagonal section 2011 formed by the second traction rope 22, the diagonal section 2011 formed by the third traction rope 23, and the diagonal section 2011 formed by the fourth traction rope 24 are all diagonal lifting sections. When the lifting control mechanism 40 rolls up the traction rope 20 to enable the airing rod 30 to ascend, the four inclined pull sections 2011 all carry out conveying motion to the host 10, and the speed of any point on the four inclined pull sections 2011 can be decomposed in the vertical direction to obtain a vertical upward speed component.

It will be appreciated that in other embodiments, the lifting control mechanism 40 may further include a second reel mounted on the airing bar 30, the second reel includes a second diagonal winding shaft 4121, at least one diagonal traction rope 20 corresponds to the second diagonal winding shaft 4121 in number and one-to-one, the diagonal traction ropes 20 are wound around the corresponding second diagonal winding shaft 4121 and then are wound around the bottom rope guiding element 31 of the airing bar 30 and the top rope guiding element 11 of the host machine 10, so as to form a plurality of suspension sections 201, and the suspension sections 201 include diagonal lifting sections that convey motion to the airing bar 30 along with winding action of the second reel, and the diagonal lifting sections are connected to the host machine 10 in a diagonal manner by winding around the top rope guiding element 11.

The technical features of the above-described embodiments may be combined in any manner, and for brevity, all of the possible combinations of the technical features of the above-described embodiments are not described, however, all of the combinations of the technical features should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

It will be appreciated by persons skilled in the art that the above embodiments have been provided for the purpose of illustrating the utility model and are not to be construed as limiting the utility model, and that suitable modifications and variations of the above embodiments are within the scope of the utility model as claimed.

Claims (15)

1. A clothes airing device comprises a main machine (10), a traction rope (20) connected with the main machine (10), an airing rod (30) hung on the traction rope (20) and a lifting control mechanism (40) for winding the traction rope (20) on the airing rod,

the traction rope (20) is characterized by comprising at least three suspension sections (201), wherein the suspension sections (201) extend outwards relative to the host machine (10) in a tensioning state and are connected to the airing rod (30), and at least one suspension section (201) is connected to the airing rod (30) in a diagonal manner.

2. Laundry apparatus according to claim 1, characterized in that the suspension section (201) and the remote side of the drying pole (30) respectively form a plurality of lifting inclinations, wherein the lifting inclination between the suspension section (201) and the drying pole (30) connected to the drying pole (30) in a diagonal manner can be reduced as the lifting control mechanism (40) rolls up the hauling rope (20).

3. Laundry apparatus according to claim 2, characterized in that each suspension section (201) forms a stitch projection on the remote side of the drying pole (30), and each lifting inclination can be made smaller as the lifting control mechanism (40) winds up the haulage rope (20).

4. A laundry drying apparatus according to any one of claims 1-3, characterized in that the suspension section (201) comprises at least one pair of diagonal sections (2011), each diagonal section (2011) being connected to the drying pole (30) in a diagonal manner, the two diagonal sections (2011) arranged in pairs being symmetrically distributed about a longitudinal bisecting plane, the longitudinal bisecting plane being perpendicular to the remote side of the drying pole (30), and the two bisecting the drying pole (30).

5. The clothes drying apparatus of claim 4, wherein the suspension section (201) includes a diagonal section (2011) connected to the drying pole (30) in a diagonal manner and a straight section (2012) connected to the drying pole (30) in a straight manner, the diagonal section (2011) being orthographically projected on a distal side of the drying pole (30) to form a stitch projection, and the straight section (2012) being orthographically projected on the distal side of the drying pole (30) to form a dot projection.

6. Laundry apparatus according to claim 5, characterized in that at least part of the stitch projection extends outwards beyond the pattern formed by the point projection connection, and that one end of the stitch projection outside the point projection connection pattern is connected to one end of the pole (30) in a diagonal manner, corresponding to the diagonal section (2011).

7. Laundry apparatus according to any of claims 1-3, 5-6, characterized in that the connection of the pole (30) to all connection points of the suspension section (201) forms a first closed figure, the connection of the host (10) to all connection points of the suspension section (201) forms a second closed figure, the figure orthographically projected on the remote side of the pole (30) does not cross the boundary of the first closed figure.

8. Laundry drying apparatus according to claim 7, characterized in that the drying poles (30) comprise a rectangular drying pole frame (32), the suspension sections (201) being divided into four groups, the four groups of suspension sections (201) being connected to four vertex angle areas of the drying pole frame (32), respectively.

9. Laundry drying apparatus according to any of claims 1-3, 5-6, 8, characterized in that the lifting control mechanism (40) comprises a first reel (401) mounted to the main machine (10), the main machine (10) comprises a top guide rope element (11) with a rope threading gap, at least part of the hauling rope (20) is wound around the first reel (401) through the rope threading gap, is wound around the top guide rope element (11), and extends out of the main machine (10) to be connected to the laundry drying pole (30); and/or the number of the groups of groups,

The lifting control mechanism (40) comprises a second reel arranged on the airing rod (30), the airing rod (30) comprises a bottom rope guiding element (31) with a rope threading gap, at least part of traction ropes (20) are wound on the second reel, pass through the bottom rope guiding element (31) through the rope threading gap, and extend out of the airing rod (30) to be connected to the host machine (10).

10. Laundry apparatus according to claim 9, characterized in that the main machine (10) comprises a reel positioning surface, the lifting control mechanism (40) comprises a first reel mounted on the reel positioning surface, at least part of the hauling rope (20) is wound around the first reel and extends out of the first reel in a state parallel to the reel positioning surface.

11. Laundry drying apparatus according to any of claims 1-3, 5-6, 8, 10, characterized in that the drying bar (30) has at least three first connection points for the respective connection of the suspension sections (201), the main machine (10) has at least three second connection points for the respective connection of the suspension sections (201),

the projected points of the first connection points on the remote side of the airing rod (30) are not all collinear; and/or, the projected points of the second connection points on the near-earth side of the host computer (10) are not all collinear.

12. Laundry apparatus according to any of claims 1-3, 5-6, 8, 10, characterized in that the lifting control mechanism (40) comprises a winding portion (41), one end of the traction rope (20) is fixedly connected to the winding portion (41), and the traction rope (20) is wound around the winding portion (41) and then extends out of the lifting control mechanism (40), and is wound around the main machine (10) and the airing rod (30) several times in sequence.

13. Laundry apparatus according to any one of claims 1-3, 5-6, 8, 10, characterized in that the lifting control mechanism (40) is mounted on the main machine (10) and comprises a plurality of winding portions (41), the number of the traction ropes (20) is equal to the number of the winding portions (41) and corresponds to one, and one end of each traction rope (20) is fixedly connected to the corresponding winding portion (41);

each traction rope (20) is wound on a corresponding winding part (41) and then wound on the host machine (10), and extends out of the host machine (10) to be connected to the airing rod (30); or,

each traction rope (20) is wound on a corresponding winding part (41) and then extends out of the lifting control mechanism (40), and is wound on the host machine (10) and the airing rod (30) for a plurality of times; or,

Some traction ropes (20) are wound around corresponding winding parts (41) and then pass through the host machine (10), and extend out of the host machine (10) to be connected to the airing rod (30), and other traction ropes (20) are wound around corresponding winding parts (41) and pass through the host machine (10) and the airing rod (30) repeatedly.

14. Laundry apparatus according to any one of claims 1-3, 5-6, 8, 10, characterized in that the suspension section (201) comprises at least one inclined-pull section (2011) extending along a straight line and inclined with respect to the vertical direction, both ends of the inclined-pull section (2011) being respectively inclined-pull connected to the airing rod (30) and the main machine (10); and/or the number of the groups of groups,

the clothes airing device further comprises a stitch restraining element (14) arranged between the main machine (10) and the airing rod (30), at least one suspension section (201) stretches out from the near-ground side of the main machine (10) and then is wound on the stitch restraining element (14), and the suspension section is bent to form a diagonal section (2011) which is connected with the airing rod (30) in a diagonal mode.

15. Laundry apparatus according to any of claims 1-3, 5-6, 8, 10, characterized in that the hauling rope (20) comprises a diagonal hauling rope connected to the pole (30) in a diagonal manner and a straight hauling rope connected to the pole (30) in a straight manner, the lifting control mechanism (40) comprises a diagonal winding part and a straight winding part which can move independently, the diagonal hauling rope is wound on the diagonal winding part, and the straight hauling rope is wound on the straight winding part.