CN215405191U - Indoor full-automatic telescopic clothes hanger - Google Patents

Abstract

The utility model discloses an indoor full-automatic telescopic clothes hanger which comprises an installation frame, a full-automatic push-pull device, a controller, a synchronous telescopic support, a multi-section type bearing rail and a clothes hanging rope, wherein the full-automatic push-pull device and the controller are respectively arranged in the installation frame, the full-automatic push-pull device is electrically connected with the controller, the controller is connected with a power supply, the synchronous telescopic support is respectively connected with the full-automatic push-pull device and the multi-section type bearing rail, the clothes hanging rope is arranged at the lower end of the synchronous telescopic support, a hanging point is arranged on the clothes hanging rope, and the full-automatic push-pull device drives the synchronous telescopic support to drive the multi-section type bearing rail and the clothes hanging rope to extend out or stretch out of the installation frame. The utility model can improve the utilization rate of space, is convenient to store and has simple structure.

Description

Indoor full-automatic telescopic clothes hanger

Technical Field

The utility model relates to the technical field of clothes hangers, in particular to an indoor full-automatic telescopic clothes hanger.

Background

The clothes hanger is a daily article in family life, and in daily life, washed clothes need to be hung on a balcony or outdoors for airing. The existing clothes hanger in the market can only facilitate the airing and taking of clothes due to the lifting structure, is inconvenient to store and large in occupied space, and causes inconvenience to the activities of people when people move below the clothes hanger.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide an indoor full-automatic telescopic clothes hanger which can improve the utilization rate of space, is convenient to store and has a simple structure.

The utility model is realized by the following technical scheme: an indoor full-automatic telescopic clothes hanger comprises an installation frame, a full-automatic push-pull device, a controller, a synchronous telescopic support, a multi-section type bearing track and a clothes hanging rope, wherein the full-automatic push-pull device and the controller are arranged in the installation frame respectively, the full-automatic push-pull device is electrically connected with the controller, the controller is connected with a power supply, the synchronous telescopic support is connected with the full-automatic push-pull device and the multi-section type bearing track respectively, the clothes hanging rope is arranged at the lower end of the synchronous telescopic support, a hanging and airing point is arranged on the clothes hanging rope, and the full-automatic push-pull device drives the synchronous telescopic support to drive the multi-section type bearing track and the clothes hanging rope to extend or stretch out of the installation frame.

Further: the full-automatic push-pull device comprises a motor, a driving wheel, a driven wheel, a transmission belt, a rotating shaft, a main driving wheel, a driven wheel, a driving belt, a push-pull sliding block and two guide columns, wherein the output shaft end of the motor is connected with the driving wheel, the driven wheel and the main driving wheel are respectively fixedly sleeved on the rotating shaft, the transmission belt is sleeved on the driving wheel and the driven wheel, the driving belt is positioned between the two guide columns, the driving belt is sleeved on the main driving wheel and the driven wheel, the push-pull sliding block is movably sleeved on the two guide columns, and the push-pull sliding block is fixedly connected on the driving belt and is connected with the synchronous telescopic support.

Further: two in-place detectors which are linearly arranged are arranged in the mounting frame, and the two in-place detectors are respectively positioned at two ends of the motion track of the push-pull sliding block.

Further: multistage formula bearing track includes two slider bases, main slide rail, bearing slider, two slider bases sets up in the mounting bracket, and two slider bases parallel distribution each other, every movably respectively is provided with on the slider base main slide rail, movably on the main slide rail be provided with the bearing slider, the apron is connected to the one end of bearing slider, synchronous telescopic bracket is located two between the main slide rail, just the one end of synchronous telescopic bracket pass through the fixed block with the mounting bracket is connected, the other end of synchronous telescopic bracket with the bearing slider is connected.

Further: the main slide rail is provided with a guide groove, two ends of the guide groove are respectively provided with a limiting block, the slide block base and the bearing slide block are respectively provided with a limiting pulley, and the limiting pulleys are arranged on the guide groove.

Further: the synchronous telescopic support is composed of a plurality of groups of X-shaped components which are connected end to end, each group of X-shaped components comprises two straight-line-shaped components, and the centers of the two straight-line-shaped components are connected through a sliding bearing.

Further: the sliding bearing is connected with a supporting rod, two sides of the supporting rod are respectively provided with a sliding cap, and the sliding caps are hung on the bearing sliding blocks.

Further: be provided with in the mounting bracket and often light infrared lamp and intelligence and light infrared lamp, often light infrared lamp and intelligence and light infrared lamp respectively with the controller electricity is connected.

Further: the controller is provided with an infrared communication interface and is respectively and electrically connected with a photoelectric diffuse reflection sensor and a human body proximity sensor.

Further: the surface of the motor is covered with a soft sound insulation material.

The utility model has the beneficial effects that:

compared with the prior art, the utility model has the advantages that the photoelectric diffuse reflection sensor is arranged, when a person enters the area below the clothes hanger, the photoelectric diffuse reflection sensor sends signals to the controller to control the full-automatic push-pull device to drive the synchronous telescopic bracket and the clothes hanging rope arranged on the synchronous telescopic bracket to be contracted into the mounting frame, the occupied space of the clothes hanger is reduced, the movement of the person is facilitated, meanwhile, the clothes hanging rope forms a hanging point in a knotting mode, when the synchronous telescopic bracket is in a contracted state, clothes cannot collide and extrude with each other, the human body approach sensor is arranged, when the person leaves the area below the clothes hanger, the signal of the human body approach sensor is interrupted, when the signal interruption of the human body approach sensor exceeds the set duration, the human body approach sensor sends signals to the controller, the controller controls the motor to drive the synchronous telescopic bracket to extend, and the utilization rate of the space is improved, is convenient to store, can not influence the activities of people and has simple structure.

Drawings

FIG. 1 is a first schematic structural diagram of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a first schematic structural view (with the mounting bracket removed) of the present invention;

fig. 4 is a schematic structural diagram of the present invention (with the mounting bracket removed).

Description of reference numerals: 1-mounting rack, 2-controller, 21-power supply, 3-synchronous telescopic bracket, 31-I-shaped member, 32-sliding bearing, 33-supporting rod, 34-sliding cap, 4-hanging rope, 41-hanging point, 51-motor, 52-driving wheel, 53-driven wheel, 54-driving belt, 55-rotating shaft, 56-main driving wheel, 57-auxiliary driving wheel, 58-driving belt, 61-push-pull slide block, 62-guide column, 63-in-place detector, 71-slide block base, 72-main sliding rail, 73-bearing slide block, 74-cover plate, 75-fixing block, 76-guide groove, 77-limiting block, 78-limiting pulley, 81-normally-on infrared lamp, 82-intelligent lighting infrared lamp, 83-photoelectric diffuse reflection sensor, 84-human body proximity sensor, and 9-clothes hanger.

Detailed Description

Fig. 1 to 4 are schematic structural views of an embodiment of an indoor full-automatic telescopic laundry rack provided by the utility model, which include an installation frame 1, a full-automatic push-pull device, a controller 2, a synchronous telescopic bracket 3, a multi-section type bearing rail, and a hanging rope 4, wherein the full-automatic push-pull device and the controller 2 are respectively arranged in the installation frame 1, the full-automatic push-pull device is electrically connected with the controller 2, the controller 2 is connected with a power supply 21, the synchronous telescopic bracket 3 is respectively connected with the full-automatic push-pull device and the multi-section type bearing rail, the lower end of the synchronous telescopic bracket 3 is provided with the hanging rope 4, a hanging point 41 is arranged on the hanging rope 4, and the full-automatic push-pull device drives the synchronous telescopic bracket 3 to drive the multi-section type bearing rail and the hanging rope 4 to extend or stretch out of the telescopic bracket 1.

The hanging rope 4 forms a hanging spot 41 by knotting.

The full-automatic push-pull device comprises a motor 51, a driving wheel 52, a driven wheel 53, a transmission belt 54, a rotating shaft 55, a main driving wheel 56, a driven wheel 57, a driving belt 58, a push-pull sliding block 61 and two guide columns 62, wherein the output shaft end of the motor 51 is connected with the driving wheel 52, the driven wheel 53 and the main driving wheel 56 are respectively and fixedly sleeved on the rotating shaft 55, the transmission belt 54 is sleeved on the driving wheel 52 and the driven wheel 53, the driving belt 58 is positioned between the two guide columns 62, the driving belt 58 is sleeved on the main driving wheel 56 and the driven driving wheel 57, the push-pull sliding block 61 is movably sleeved on the guide columns 62, and the push-pull sliding block 61 is fixedly connected on the driving belt 58 and connected with the synchronous telescopic bracket 3.

Two in-place detectors 63 which are linearly arranged are arranged in the mounting frame 1, and the two in-place detectors 63 are respectively positioned at two ends of the motion track of the push-pull sliding block 61.

When the motor 51 drives the driving belt 58 to rotate, the push-pull sliding block 61 moves along with the driving belt 58 and pushes and pulls the synchronous telescopic bracket 3 to extend or retract the synchronous telescopic bracket 3, and when the push-pull sliding block 61 moves to the in-position detector 63, the in-position detector 63 sends a signal to the controller 2 to control the motor 51 to be closed.

Multistage formula bearing rail includes two slider bases 71, main slide rail 72, bearing slider 73, two slider bases 71 set up in mounting bracket 1, and two slider bases 71 parallel distribution each other, movably main slide rail 72 that is provided with respectively on every slider base 71, movably bearing slider 73 that is provided with on the main slide rail 72, apron 74 is connected to bearing slider 73's one end, synchronous telescopic bracket 3 is located between two main slide rails 72, and synchronous telescopic bracket 3's one end is passed through fixed block 75 and is connected with mounting bracket 1, synchronous telescopic bracket 3's the other end and bearing slider 73 are connected.

The main slide rail 72 is provided with a guide groove 76, two ends of the guide groove 76 are respectively provided with a limiting block 77, the slide block base 71 and the bearing slide block 73 are respectively provided with a limiting pulley 78, and the limiting pulley 78 is arranged on the guide groove 76.

Through the mutual matching and meshing of the guide groove 76 and the limiting pulleys 78, a heavy object carried on the bearing slide block 73 can be stably supported to slide or be static on the main slide rail 72 in a guiding way, so that the slide block base 71, the bearing slide block 73 and the main slide rail 72 cannot be dislocated, the spacing between the upper and lower rows of limiting pulleys 78 of the slide block base 71 and the bearing slide block 73 is consistent with the spacing between the upper and lower guide grooves 76 of the main slide rail 72, and the slide block base 71 and the bearing slide block 73 can only move back and forth in the horizontal direction of the main slide rail 72 in a circulating way.

The synchronous telescopic bracket 3 is composed of a plurality of groups of X-shaped components which are connected end to end, each group of X-shaped components comprises two straight-line-shaped components 31, and the centers of the two straight-line-shaped components 31 are connected through a sliding bearing 32.

The sliding bearing 32 is connected with a support rod 33, two sides of the support rod 33 are respectively provided with a sliding cap 34, and the sliding caps 34 are hung on the bearing sliding block 73.

Be provided with in the mounting bracket 1 and often light infrared lamp 81 and intelligence and light infrared lamp 82, often light infrared lamp 81 and intelligence and light infrared lamp 82 and be connected with controller 2 electricity respectively.

The infrared lamp 81 is lighted frequently and the infrared lamp 82 is lighted intelligently to provide heat energy, so that clothes on the clothes hanger 9 can be effectively aired indoors, and the clothes airing speed can be increased in rainy days.

An infrared communication interface is arranged on the controller 2, and the controller 2 is electrically connected with a photoelectric diffuse reflection sensor 83 and a human body proximity sensor 84 respectively.

Through setting up infrared communication interface, accessible infrared remote controller controls clothes hanger 9 that dries in air, convenient to use.

The surface of the motor 51 is covered with a soft sound insulating material.

The surface of the motor 51 is covered with the sound insulation material, so that the motor 51 is not in direct contact with the rigid body mechanism when the clothes hanger 9 is stretched, and no noise is generated in the use process of the clothes hanger 9.

The working principle is as follows: during installation, the installation frame 1 is installed on a ceiling close to a wall, the outer side of the installation frame 1 is a plane, the installation frame 1 is conveniently embedded into the wall or is installed close to the wall, when clothes are dried, the motor 51 is started, the motor 51 drives the rotating shaft 55 to rotate in the forward direction through mutual matching of the driving wheel 52, the driving belt 54 and the driven wheel 53, the rotating shaft 55 drives the main driving wheel 56 to rotate, the main driving wheel 56 rotates to drive the driven wheel 57 and the driving belt 58 to rotate, the driving belt 58 rotates to drive the push-pull sliding block 61 to move, the push-pull sliding block 61 moves to pull the synchronous telescopic support 3 to extend, during extension of the synchronous telescopic support 3, the synchronous telescopic support 3 pushes the bearing sliding block 73 to move along the main sliding rail 72 in the direction away from the installation frame 1, and meanwhile, the sliding block base 71 moves along the main sliding rail 72 in the direction away from the bearing sliding block 73; when a person enters the area below the clothes hanger 9, the photoelectric diffuse reflection sensor 83 detects the person, the photoelectric diffuse reflection sensor 83 sends a signal to the controller 2, the controller 2 controls the motor 51 to start, the motor 51 drives the rotating shaft 55 to rotate in the reverse direction through the mutual cooperation of the driving wheel 52, the transmission belt 54 and the driven wheel 53, the rotating shaft 55 drives the main driving wheel 56 to rotate, the main driving wheel 56 drives the driven wheel 57 and the driving belt 58 to rotate, the driving belt 58 rotates to drive the push-pull slider 61 to move, the push-pull slider 61 moves to pull the synchronous telescopic bracket 3 to contract, during the contraction process of the synchronous telescopic bracket 3, the synchronous telescopic bracket 3 pulls the bearing slider 73 to move along the main sliding rail 72 in the direction close to the mounting rack 1, meanwhile, the slider base 71 moves along the main sliding rail 72 in the direction close to the bearing slider 73, so that the synchronous telescopic bracket 3, the clothes hanging rope 4, the bearing slider 73 and the main sliding rail 72 contract into the mounting rack 1, the synchronous telescopic support 3 can be conveniently stored in the mounting frame 1, the occupied space of the clothes hanger 9 is reduced, and the clothes can move conveniently, and meanwhile, the clothes can not collide and extrude with each other when the synchronous telescopic support 3 is in a contraction state due to the hanging points 41 on the hanging ropes 4; when a person leaves the area below the clothes hanger 9, the signal of the human body approach sensor 84 is interrupted, and when the signal interruption of the human body approach sensor 84 exceeds the set time length, the human body approach sensor 84 sends a signal to the controller 2, and the controller 2 controls the motor 51 to drive the synchronous telescopic bracket 3 to extend.

The above detailed description is specific to possible embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an indoor full-automatic telescopic clothes hanger that dries in air which characterized in that: the clothes hanger comprises an installation frame, a full-automatic push-pull device, a controller, a synchronous telescopic support, a multi-section type bearing track and a clothes hanging rope, wherein the full-automatic push-pull device and the controller are arranged in the installation frame respectively, the full-automatic push-pull device is electrically connected with the controller, the controller is connected with a power supply, the synchronous telescopic support is connected with the full-automatic push-pull device and the multi-section type bearing track respectively, the clothes hanging rope is arranged at the lower end of the synchronous telescopic support, a hanging and airing point is arranged on the clothes hanging rope, and the full-automatic push-pull device drives the synchronous telescopic support to drive the multi-section type bearing track and the clothes hanging rope to stretch out or stretch out the installation frame.

2. The indoor full-automatic telescopic clothes hanger of claim 1, characterized in that: the full-automatic push-pull device comprises a motor, a driving wheel, a driven wheel, a transmission belt, a rotating shaft, a main driving wheel, a driven wheel, a driving belt, a push-pull sliding block and two guide columns, wherein the output shaft end of the motor is connected with the driving wheel, the driven wheel and the main driving wheel are respectively fixedly sleeved on the rotating shaft, the transmission belt is sleeved on the driving wheel and the driven wheel, the driving belt is positioned between the two guide columns, the driving belt is sleeved on the main driving wheel and the driven wheel, the push-pull sliding block is movably sleeved on the two guide columns, and the push-pull sliding block is fixedly connected on the driving belt and is connected with the synchronous telescopic support.

3. The indoor full-automatic telescopic clothes hanger of claim 2, characterized in that: two in-place detectors which are linearly arranged are arranged in the mounting frame, and the two in-place detectors are respectively positioned at two ends of the motion track of the push-pull sliding block.

4. The indoor full-automatic telescopic clothes hanger of claim 2, characterized in that: multistage formula bearing track includes two slider bases, main slide rail, bearing slider, two slider bases sets up in the mounting bracket, and two slider bases parallel distribution each other, every movably respectively is provided with on the slider base main slide rail, movably on the main slide rail be provided with the bearing slider, the apron is connected to the one end of bearing slider, synchronous telescopic bracket is located two between the main slide rail, just the one end of synchronous telescopic bracket pass through the fixed block with the mounting bracket is connected, the other end of synchronous telescopic bracket with the bearing slider is connected.

5. The indoor full-automatic telescopic clothes hanger of claim 4, characterized in that: the main slide rail is provided with a guide groove, two ends of the guide groove are respectively provided with a limiting block, the slide block base and the bearing slide block are respectively provided with a limiting pulley, and the limiting pulleys are arranged on the guide groove.

6. An indoor fully-automatic telescopic clothes hanger according to any one of claims 2 to 5, characterized in that: the synchronous telescopic support is composed of a plurality of groups of X-shaped components which are connected end to end, each group of X-shaped components comprises two straight-line-shaped components, and the centers of the two straight-line-shaped components are connected through a sliding bearing.

7. The indoor full-automatic telescopic clothes hanger of claim 6, characterized in that: the sliding bearing is connected with a supporting rod, two sides of the supporting rod are respectively provided with a sliding cap, and the sliding caps are hung on the bearing sliding blocks.

8. The indoor full-automatic telescopic clothes hanger of claim 7, characterized in that: be provided with in the mounting bracket and often light infrared lamp and intelligence and light infrared lamp, often light infrared lamp and intelligence and light infrared lamp respectively with the controller electricity is connected.

9. The indoor full-automatic telescopic clothes hanger of claim 8, characterized in that: the controller is provided with an infrared communication interface and is respectively and electrically connected with a photoelectric diffuse reflection sensor and a human body proximity sensor.

10. The indoor full-automatic telescopic clothes hanger of claim 9, characterized in that: the surface of the motor is covered with a soft sound insulation material.

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