CN105803737B

CN105803737B - Rotary intelligent clothes airing structure

Info

Publication number: CN105803737B
Application number: CN201410849921.5A
Authority: CN
Inventors: 陈汉良
Original assignee: Artop Design Group Co ltd
Current assignee: Artop Design Group Co ltd
Priority date: 2014-12-30
Filing date: 2014-12-30
Publication date: 2023-07-25
Anticipated expiration: 2034-12-30
Also published as: CN105803737A

Abstract

The invention relates to the technical field of clothes airing structures, and discloses a rotary intelligent clothes airing structure which comprises a humidity sensor, a control element, a semicircular cylinder body, a power element for driving a driving door to rotate, a driven door and a circular ring pipe, wherein the power element is arranged on the semicircular cylinder body; the inner sides of the driving door and the driven door are respectively connected with a vertical shaft, and the upper end of the vertical shaft coincides with the central position of the circular ring pipe; a plurality of support rods are movably connected between the annular tube and the vertical shaft; a pull rope is arranged below the circular tube, two ends of the pull rope are respectively and fixedly connected with the driving door and the driven door, and a plurality of connecting pieces are connected between the pull rope and the circular tube; the front end opening of the semi-cylinder body is provided with a driving locking piece for locking the driving door and a driven locking piece for locking the driven door, and the driving locking piece and the driven locking piece are respectively positioned at two sides of the vertical shaft. The rotary intelligent clothes airing structure can be used for intelligently collecting clothes and airing the clothes, manual operation is not needed, the clothes are prevented from being wetted in rainy days, or the clothes can be automatically aired in sunny days.

Description

Rotary intelligent clothes airing structure

Technical Field

The invention relates to the technical field of clothes airing structures, in particular to a rotary intelligent clothes airing structure.

Background

In daily life, people usually use clothes airing structures such as clothes hangers, clothes airing rods and the like to airing, and the clothes airing structures are generally arranged on a balcony and the like to be ventilated and can be irradiated with sunlight, so that the aired clothes can be dried through blowing and sun-curing.

In the prior art, the clothes airing structure is generally fixed or can be lifted up and down, so that the clothes airing operation is convenient, but because the clothes airing structure is arranged in a balcony with ventilation and sun-drying, when the user encounters rainy weather, the clothes airing structure can not automatically collect clothes, and the user can not collect the clothes in time, so that the clothes can be easily drenched, and the effects of cleaning and drying can not be achieved.

Disclosure of Invention

The invention aims to provide an intelligent clothes airing structure, and aims to solve the problems that clothes cannot be intelligently collected in the clothes airing structure in the prior art and the clothes are easy to be wetted in rainy days.

The invention is realized in such a way that the rotary intelligent clothes airing structure comprises a humidity sensor, a control element for receiving humidity parameters detected by the humidity sensor, a semicircular cylinder body with a cylinder body space with an opening at the front end, a power element controlled by the control element to drive a driving door to rotate, a driven door and a circular ring-shaped pipe which is horizontally arranged; the inner side of the driving door and the inner side of the driven door are respectively connected with the vertical shaft, the circular ring pipe is positioned at the upper end of the cylinder space, and the upper end of the vertical shaft is overlapped with the central position of the circular ring pipe; a plurality of support rods are movably connected between the annular pipe and the vertical shaft; a pull rope is arranged below the circular tube, two ends of the pull rope are fixedly connected with the driving door and the driven door respectively, and a plurality of connecting pieces which move along the circular tube are connected between the pull rope and the circular tube; the front end opening of the semicircular cylinder body is provided with a driving locking piece controlled by the control element to lock the driving door and a driven locking piece controlled by the control element to lock the driven door, and the driving locking piece and the driven locking piece are respectively positioned at two sides of the vertical shaft.

Further, the inner side of the driving door is fixedly connected with the vertical shaft, the inner side of the driven door is rotatably connected with the vertical shaft, and the power element comprises a motor for driving the vertical shaft to rotate.

Further, the connecting piece comprises a hook for hanging clothes, the upper end of the hook is movably sleeved on the circular tube, and the lower end of the hook is fixedly connected with the hanging rope.

Further, the support rod comprises a horizontal rod and an inclined rod, the outer end of the inclined rod is intersected with the outer end of the horizontal rod to form an intersected end, a sleeve hole sleeved outside the circular tube is formed in the intersected end, and the inner end of the inclined rod and the inner end of the horizontal rod are respectively connected to the vertical shaft in a rotating mode.

Further, the inner end of the inclined rod extends downwards.

Further, the inner end of the inclined rod is connected with a sleeve ring, the vertical shaft penetrates through the sleeve ring, a vertical bar is arranged on the periphery of the sleeve ring, and the inner end of the inclined rod is connected with the vertical bar of the sleeve ring.

Further, the vertical shaft is located in the middle of the opening at the front end of the semi-cylinder body, and two ends of the vertical shaft are hinged to the upper end portion and the lower end portion of the semi-cylinder body respectively.

Further, the driving locking piece and the driven locking piece are respectively located at the front end opening of the semicircular cylinder body and are respectively connected to the upper end portion of the semicircular cylinder body.

Further, the support rod is connected with the connecting piece.

Further, the supporting rod is connected with the pull rope.

Compared with the prior art, the rotary intelligent clothes airing structure provided by the invention has the advantages that the humidity sensor is used for detecting the external humidity parameter, the humidity parameter is fed back to the control element, the control element is used for controlling the power element to drive the driving door to rotate, the driving door can push the driven door to rotate, the driving locking piece is controlled to lock or unlock the driving door in the moving process of the driving door and the driven door, the driven locking piece is controlled to lock or unlock the driven door, and the pull rope can be tensioned or folded in the moving process of the driving door and the driven door, so that clothes can be folded in the cylinder space of the semicircular cylinder when the humidity parameter is lower than a set value in sunny days, and the front end opening of the cylinder space is closed by the driving door and the driven door; when the temperature parameter exceeds a set value in rainy days, the clothes are in an open state so as to be dried; the rotary intelligent clothes airing structure can realize intelligent clothes collection and clothes airing, does not need manual operation, avoids the clothes from being wetted in rainy days, or can automatically air the clothes in sunny days.

Drawings

Fig. 1 is a schematic perspective view of a rotary intelligent clothes airing structure according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a rotary intelligent clothes airing structure according to an embodiment of the present invention;

fig. 3 is a schematic partial perspective view of a rotary intelligent clothes airing structure according to an embodiment of the present invention;

fig. 4 is a schematic partial perspective view of a rotary intelligent clothes airing structure according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a preferred embodiment of the present invention is provided.

Referring to fig. 1 to 4, the rotary intelligent clothes airing structure 1 provided in this embodiment is applied to ventilation and sun-drying places such as balconies, so that clothes hung on the rotary intelligent clothes airing structure can be aired.

The rotary intelligent clothes airing structure 1 comprises a semicircular cylinder 11, a driving door 12 and a driven door 14, wherein a cylinder space 111 with an opening at the front end is arranged in the semicircular cylinder 11, a circular ring pipe 16 is arranged at the upper end of the cylinder space 111 of the semicircular cylinder 11, the circular ring pipe 16 is horizontally arranged, and the circular ring pipe 16 extends out of the cylinder space 111 of the semicircular cylinder 11 to form an external part; a vertical shaft 15 is arranged at the center of the circular tube 16, that is, the upper end of the vertical shaft 15 coincides with the center of the circular tube 16, the vertical shaft 15 is vertically arranged, a plurality of support rods 17 are movably connected between the vertical shaft 15 and the circular tube 16, that is, one end of each support rod 17 is movably connected to the circular tube 16, and the other end of each support rod is movably connected to the vertical shaft 15, so that the circular tube 16 and the vertical shaft 15 can be connected together by the plurality of support rods 17.

The inner sides of the driving door 12 and the driven door 14 are respectively rotatably connected to the vertical shaft 15, so that the driving door 12 and the driven door 14 can respectively rotate around the vertical shaft 15, and when the driving door 12 and the driven door 14 are respectively positioned at two sides of the vertical shaft 15 and are in a stretching arrangement, the front end opening of the semicircular cylinder body 11 can be closed.

The rotary intelligent clothes airing structure 1 further comprises a control element, a humidity sensor, a power element 10, a driving lock 131 and a driven lock 132, wherein the humidity sensor, the power element 10, the driving lock 131 and the driven lock 132 are respectively and electrically connected to the control element, and are controlled by the control element to perform corresponding operations; the humidity sensor is used for detecting humidity parameters in the external environment and feeding back the humidity parameters to the control element; the power element 10 is used for driving the driving door 12 to rotate around the vertical shaft 15; the driving locking member 131 and the driven locking member 132 are respectively disposed at the opening of the semi-cylindrical body 11 and are respectively disposed at two sides of the vertical shaft 15, the driving locking member 131 is controlled by the control element to lock the driving door 12 or unlock the driving door 12, the driven locking member 132 is controlled by the control element to lock the driven door 14 or unlock the driven door 14, so that when the driving door 12 is locked by the driving locking member 131 and the driven door 14 is locked by the driven locking member 132, the driving door 12 and the driven door 14 are respectively disposed at two sides of the opening of the semi-cylindrical body 11, that is, the driving door 12 and the driven door 14 are in a spread shape, and the front end opening of the semi-cylindrical body 11 is closed.

A pull rope 19 is arranged below the circular tube 16, one end of the pull rope 19 is connected with the driving door 12, the other end of the pull rope 19 is connected with the driven door 14, the pull rope 19 is connected with the circular tube 16 through a plurality of connecting pieces 18, the lower ends of the connecting pieces 18 are connected with the pull rope 19, and the upper ends of the connecting pieces 18 are movably connected with the circular tube 16 and can move along the circular tube 16.

Thus, when the driving door 12 is abutted against the back surface of the driven door 14, the pull rope 19 is pulled, and at this time, under the action of the plurality of connecting pieces 18, the pull rope 19 extends in the same direction as the circular ring pipe 16, that is, in a circular ring shape; when the front of the driving door 12 is opposite to the front of the driven door 14, the pulling ropes 19 and the plurality of connecting pieces 18 are folded between the driving door 12 and the driven door 14.

In the above-mentioned rotary intelligent clothes airing structure 1, referring to fig. 1, when the humidity sensor detects that the humidity of the external environment is lower than the set value, that is, when the outside environment is sunny, at this time, the control element controls the driving lock 131 to loosen the driving door 12, and controls the power element 10 to drive the driving door 12 to rotate anticlockwise to the driven door 14, at this time, the driving door 12 is abutted against the back surfaces of the driven doors, and the control element controls the driven lock 132 to loosen the driven door 14, so that the control element continuously controls the power element 10 to drive the driving door 12 to rotate anticlockwise, and at the same time, the driving door 12 pushes the driven door 14 to rotate anticlockwise into the cylinder space 111 of the semicircular cylinder 11, so that the pull rope 19 is tensioned and extends along the circular tube 16, the front end opening of the semicircular cylinder 11 is not closed, so that the clothes hung on the pull rope 19 or the connecting piece 18 are pulled open uniformly, and in an airing state;

referring to fig. 2, when the humidity sensor detects that the humidity of the external environment is lower than a set value, that is, the outside is rainy days, at this time, the control element controls the driving door 12 to rotate anticlockwise to push the driven door 14 to the driven lock 132, and the control element controls the driven lock 132 to lock the driven door 14, and the control element controls the power element 10 to drive the driving door 12 to rotate clockwise until the driving door 12 rotates to the driving lock 131, the control element controls the driving lock 131 to lock the driving door 12, at this time, since the driving door 12 and the driven door 14 are respectively arranged on both sides of the vertical shaft 15, the driving door 12 and the driven door 14 close the front end opening of the semi-circular cylinder 11, and the pull rope 19 and the connecting piece 18 are arranged on the inner sides of the driving door 12 and the driven door 14, that is, in the cylinder space 111 of the semi-circular cylinder 11, the clothes are also in the cylinder space 111, and the clothes are prevented from being wetted by the blocking actions of the driving door 12, the driven door 14 and the semi-circular cylinder 11.

Of course, when weather changes to sunny or rainy, the intelligent clothes collection or airing can be performed sequentially. The counterclockwise rotation or the clockwise rotation in the above description is only relatively speaking, and the specific operation may depend on the actual arrangement.

In the above-mentioned rotary intelligent clothes airing structure 1, the humidity sensor detects the humidity of the outside air, and then the active door 12 rotates to enable clothes to be in an airing state, and the clothes can be folded in the cylinder space 111, so that intelligent clothes airing is realized, and the clothes are prevented from being wetted in rainy days.

In this embodiment, the connecting member 18 includes a hook for hanging clothes, the upper end of the hook is movably sleeved on the circular tube 16, and the lower end of the hook is fixedly connected to the pull rope 19, so that the pull rope 19 is moved along with the rotation of the driving door 12 and the driven door 14, and the hook also moves along the circular tube 16.

Specifically, the hook is in a ring shape, and is directly sleeved on the circular ring pipe 16, however, the hook can also be in other curved shapes, and is not limited to the shape in the embodiment. Alternatively, as another embodiment, a groove rail may be provided at the lower end of the circular tube 16, and the groove rail extends along the circular tube 16, so that the hook can be moved along the groove rail by movably placing the upper end of the hook in the groove rail.

In this embodiment, the plurality of connection members 18 are arranged at regular intervals when the rope is pulled, but the plurality of connection members 18 may be arranged at other intervals.

In this embodiment, a vertically arranged sleeve is disposed on the inner side of the driven door 14, and a vertical shaft 15 is movably inserted into the sleeve, so that the inner side of the driven door 14 is hinged to the vertical shaft 15, and the driven door 14 can rotate around the vertical shaft 15. The inner side of the driving door 12 is fixedly connected to the vertical shaft 15, the power element 10 is connected to the vertical shaft 15 for driving the vertical shaft 15 to rotate, and the driving door 12 rotates along with the rotation of the vertical shaft 15 because the driving door 12 is integrated with the vertical shaft 15.

Specifically, the power element 10 is a motor connected to the vertical shaft 15, and the motor is used to drive the vertical shaft 15 to rotate, so as to realize the rotation of the driving door 12, and thus, drive the driven door 14 to rotate accordingly.

Of course, as other embodiments, the inner side of the driving door 12 may be movably connected to the vertical shaft 15, so that the driving door 12 may be pushed to rotate around the vertical shaft 15 by other types of power elements 10, such as a cylinder and a push rod.

In this embodiment, the supporting rod 17 includes a horizontal rod 171 and an inclined rod 172, the outer end of the horizontal rod 171 intersects with the outer end of the inclined rod 172 to form an intersecting end, and a sleeve hole is formed in the intersecting end, and the circular tube 16 is movably sleeved in the sleeve hole, that is, the circular tube 16 passes through the sleeve hole; the inner ends of the horizontal rods 171 and the inner ends of the diagonal rods 172 are movably connected to the vertical shafts 15, so that triangular shapes are formed between the support rods 17 and the vertical shafts 15, and the whole circular tube 16 can be supported by the horizontal rods 171 and the diagonal rods 172 of the support rods 17.

The outer ends of the inclined bars 172 intersect with the outer ends of the horizontal bars 171, and the inner ends of the inclined bars 172 extend downward, that is, the inclined bars 172 are located below the horizontal bars 171. Of course, as other embodiments, the diagonal rods 172 may be above the horizontal rods 171, i.e., the inner ends of the diagonal rods 172 may be inclined upwardly. In this embodiment, the number of the support rods 17 is preferably four, but it is also possible to use other numbers, such as three or more.

In this embodiment, the inner end of the inclined rod 172 and the inner end of the horizontal rod 171 are both provided with a collar, the collar is movably sleeved on the vertical shaft 15, that is, the vertical shaft 15 movably passes through the collar, and in order to enhance the supporting strength of the horizontal rod 171 and the inclined rod 172, the outer circumference of the collar is convexly provided with a vertical bar, the inner end of the inclined rod 172 and the inner end of the horizontal rod 171 are respectively connected to the vertical bar on the outer circumference of the collar, in particular, for the inclined rod 172, the action on the inclined rod 172 can be distributed towards the axial direction of the vertical shaft 15 as much as possible, so as to greatly reduce the radial acting force on the vertical shaft 15.

In this embodiment, the vertical shaft 15 is located at the front end opening of the semi-circular cylinder 11, and two ends of the vertical shaft 15 are hinged to the upper end and the lower end of the semi-circular cylinder 11 respectively, so that the whole vertical shaft 15 can rotate under the driving of the power element 10. Thus, since the vertical axis 15 coincides with the center of the semicircular tube, the outer portion of the circular tube 16 is a half of the circular tube 16, that is, the circular tube 16 is generally disposed in the cylindrical space 111, and the other half is exposed outside the cylindrical space 111.

Of course, as other embodiments, the vertical shaft 15 may be disposed in the cylinder space 111, so that most of the circular ring pipe 16 is disposed in the cylinder space 111 and the lower part is disposed outside the cylinder space 111, so that the semi-circular cylinder 11 may be made of transparent material, such as glass, so that sunlight may be input into the cylinder space 111 even though the laundry is enclosed in the cylinder space 111.

In this embodiment, the driving locking member 131 and the driven locking member 132 are respectively disposed at the upper end of the front opening of the semi-circular cylinder 11 and are located at the front opening of the semi-circular cylinder 11. The driving lock member 131 and the driven lock member 132 are preferably electromagnetic locks, but of course, other types of lock members are also possible, and the driving door 12 and the driven door 14 can be locked mainly, and the driving door 12 and the driven door 14 can be unlocked under the control of the control element.

In this embodiment, when the driving door 12 and the driven door 14 are opened in a sunny day, in order to make the plurality of support rods 17 uniformly spaced apart, the outer ends of the support rods 17 are connected to the connecting members 18, so that the outer ends of the plurality of support rods 17 are respectively connected to the plurality of connecting members 18 spaced apart from each other, and when the pull ropes 19 are pulled tightly, the plurality of support rods 17 can be opened at a certain angle.

Alternatively, as another example, the outer ends of the support rods 17 may be connected to the pull cord 19, so that as the pull cord 19 is pulled tight, the plurality of support rods 17 may be arranged to open at an angle.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The rotary intelligent clothes airing structure is characterized by comprising a humidity sensor, a control element for receiving humidity parameters detected by the humidity sensor, a semicircular cylinder body with a cylinder body space with an opening at the front end, a power element controlled by the control element and used for driving a driving door to rotate, a driven door and a circular ring-shaped pipe which is horizontally arranged; the inner side of the driving door and the inner side of the driven door are respectively connected with a vertical shaft, the circular ring pipe is positioned at the upper end of the cylinder space, and the upper end of the vertical shaft coincides with the central position of the circular ring pipe; a plurality of support rods are movably connected between the annular pipe and the vertical shaft; a pull rope is arranged below the circular tube, two ends of the pull rope are fixedly connected with the driving door and the driven door respectively, and a plurality of connecting pieces which move along the circular tube are connected between the pull rope and the circular tube; the front end opening of the semicircular cylinder body is provided with a driving locking piece controlled by the control element to lock the driving door and a driven locking piece controlled by the control element to lock the driven door, and the driving locking piece and the driven locking piece are respectively positioned at two sides of the vertical shaft;

the inner side of the driving door is fixedly connected with the vertical shaft, the inner side of the driven door is rotatably connected with the vertical shaft, and the power element comprises a motor for driving the vertical shaft to rotate;

the connecting piece comprises a hook for hanging clothes, the upper end of the hook is movably sleeved on the circular tube, and the lower end of the hook is fixedly connected with the pull rope;

the support rod comprises a horizontal rod and an inclined rod, the outer end of the inclined rod is intersected with the outer end of the horizontal rod to form an intersected end, a sleeve hole sleeved outside the circular tube is formed in the intersected end, and the inner end of the inclined rod and the inner end of the horizontal rod are respectively connected to the vertical shaft in a rotating mode;

the vertical shaft is positioned in the middle of the opening at the front end of the semicircular cylinder body, and two ends of the vertical shaft are respectively hinged to the upper end part and the lower end part of the semicircular cylinder body;

the driving locking piece and the driven locking piece are respectively positioned at the front end opening of the semicircular cylinder body and are respectively connected with the upper end part of the semicircular cylinder body.

2. The rotary intelligent clothes-horse of claim 1, wherein the inner ends of the diagonal bars extend downwardly.

3. The rotary intelligent clothes-horse structure of claim 1, wherein the inner end of the diagonal rod is connected with a collar, the vertical shaft is arranged in the collar in a penetrating manner, the periphery of the collar is provided with a vertical bar, and the inner end of the diagonal rod is connected with the vertical bar of the collar.

4. A rotary intelligent clothes drying structure according to any one of claims 1 to 3, wherein the outer end of the support bar is connected to the connection member.

5. A rotary intelligent clothes drying structure according to any one of claims 1 to 3, wherein the outer end of the support bar is connected to the pull cord.