CN220723410U - Ultrathin driving device applied to electric clothes hanger - Google Patents

Abstract

The utility model relates to the field of driving devices of clothes hangers, and particularly discloses an ultrathin driving device applied to an electric clothes hanger, which comprises a motor and a transmission shaft in transmission connection with the motor, wherein the transmission shaft is provided with a driving gear in limiting and fixed installation with the motor, torque is respectively transmitted to a first worm sleeve and a second worm sleeve through a duplex gear set by utilizing the driving gear, so that a first steel wire rope guide wheel assembly and a second steel wire rope guide wheel assembly are respectively driven to rotate, and the plane where the first worm sleeve and the second worm sleeve are located deviates from the plane where the transmission shaft is located and is parallel to the bottom surface of an installation box.

Description

Ultrathin driving device applied to electric clothes hanger

Technical Field

The utility model relates to the field of clothes hanger driving devices, in particular to an ultrathin driving device applied to an electric clothes hanger.

Background

The clothes hanger driving device is a main structure of an electric clothes hanger, and mainly comprises a driving motor and a steel wire rope guide wheel assembly, wherein the driving motor controls the rotation of the driving motor to retract and release a steel wire rope, the steel wire rope guide wheel assembly is used for driving the clothes hanger to finish the functions of ascending, descending and stopping, in the prior art, the worm of the driving motor drives two left and right steel wire rope guide wheel assemblies which can be meshed with the worm to control the retraction of the steel wire rope, so that the clothes hanger which is arranged at the tail end of the steel wire rope in a traction mode ascends and descends, and the thickness of the traditional clothes hanger driving motor is thicker at present, so that the installation cannot be realized in an ultrathin machine type.

The technical problem to be solved by the application is as follows: an ultrathin driving device which is applied to an electric clothes hanger and can be installed in a limited space is designed.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide an ultrathin driving device which can be installed in a limited space.

The technical scheme adopted by the utility model is as follows: the utility model provides an ultra-thin drive arrangement for electronic clothes hanger that dries in air, including mounting box and fixed mounting in the motor of mounting box, the motor is equipped with the transmission shaft of being connected with it transmission, the transmission shaft is equipped with the driving gear with spacing fixed mounting, the driving gear is equipped with the pair gear group that is used for the transmission moment of torsion with it transmission cooperation, pair gear group is equipped with respectively with its transmission complex first worm external member and second worm external member, first worm external member and second worm external member mirror image set up, the plane at first worm external member and second worm external member place deviates from the plane at transmission shaft place and is on a parallel with the bottom surface of mounting box, first worm external member and second worm external member are equipped with respectively with its transmission complex first wire rope guide wheel subassembly and second wire rope guide wheel subassembly, and the motor sets up side by side with first wire rope guide wheel subassembly and second wire rope guide wheel subassembly.

In some embodiments, the double gear set comprises a first double gear set in driving fit with a first worm set and a second double gear set in driving fit with a second worm set, the first worm set comprises a first hollow worm and a first transmission rod in limiting fixed installation with the first hollow worm, and the second worm set comprises a second hollow worm and a second transmission rod in limiting fixed installation with the second hollow worm.

In some embodiments, the first transmission rod is provided with a first driven gear in limiting fixed installation with the first transmission rod, the second transmission rod is provided with a second driven gear in limiting fixed installation with the second transmission rod, the first driven gear is in meshed transmission with the first duplex gear set, and the second driven gear is in meshed transmission with the second duplex gear set.

In some embodiments, the installation box is provided with a gear box fixedly connected with the installation box, the duplex gear set is arranged in the gear box, two spherical bearings which are in limit fixed installation with the duplex gear set are arranged in the gear box, and the first transmission rod and the second transmission rod are respectively in limit rotation fit with the spherical bearings.

In some embodiments, the installation box both sides are equipped with respectively with it integrated into one piece's installation cavity, first wire rope guide pulley assembly and second wire rope guide pulley assembly are located the installation cavity respectively, first wire rope guide pulley assembly include first helical gear dish and with first helical gear dish fixed mounting's first screw column, second wire rope guide pulley assembly include second helical gear dish and with second helical gear dish fixed mounting's second screw column, first helical gear dish and first hollow worm meshing transmission, second helical gear dish and second hollow worm meshing transmission, first screw column and second screw column upper end all are equipped with the calibrated scale.

In some embodiments, the first helical gear disc is provided with an upper limit component in transmission connection with the first helical gear disc, the upper limit component comprises a first planet carrier and an upper limit shifting fork fixedly installed with the first planet carrier, an upper limit micro switch fixedly installed with the first helical column is arranged on a dial of the first helical column, and the upper limit shifting fork is correspondingly arranged with the upper limit micro switch.

In some embodiments, the second helical gear disc is provided with a lower limit component in transmission connection with the second helical gear disc, the lower limit component comprises a second planet carrier and a lower limit shifting fork fixedly installed with the second planet carrier, a lower limit micro switch fixedly installed with the second helical column is arranged on a dial of the second helical column, and the lower limit shifting fork is correspondingly arranged with the lower limit micro switch.

The utility model has the following technical effects:

1. the torque is transmitted to the first worm sleeve member and the second worm sleeve member through the duplex gear set by utilizing the driving gear, so that the first steel wire rope guide wheel assembly and the second steel wire rope guide wheel assembly are driven to rotate respectively, and the installation heights of the first worm sleeve member and the second worm sleeve member and the transmission shaft are not in the same horizontal plane, so that the setting positions of the first steel wire rope guide wheel assembly and the second steel wire rope guide wheel assembly can be reasonably adjusted, and the motor and the first steel wire rope guide wheel assembly and the second steel wire rope guide wheel assembly are arranged side by side, so that the thickness and the width of the whole driving device are greatly reduced, and the whole driving device can be installed in a limited space.

2. And the first transmission rod and the second transmission rod are also respectively in limit running fit with the spherical bearing, so that the first hollow worm and the second hollow worm can be concentrically adjusted.

3. The upper limit shifting fork and the lower limit shifting fork are correspondingly arranged on the first steel wire rope guide wheel assembly and the second steel wire rope guide wheel assembly respectively, so that the upper limit shifting fork and the lower limit shifting fork are arranged separately, the thickness of the whole limit assembly is correspondingly reduced, and the thickness of the whole driving device is further reduced.

Drawings

FIG. 1 is a schematic structural view of an ultra-thin driving device applied to an electric clothes hanger;

fig. 2 is a schematic diagram of the internal structure of the ultra-thin driving device applied to the electric clothes hanger;

fig. 3 is a schematic view of another view angle structure of the inside of the ultra-thin driving device applied to the electric clothes hanger.

The reference numbers and designations in the figures correspond to the following: 1. a mounting box; 10. a motor; 11. a transmission shaft; 12. a drive gear; 2. a duplex gear set; 3. a first worm set; 4. a second worm set; 5. the first steel wire rope guide wheel assembly; 6. the second steel wire rope guide wheel assembly; 20. a first twin gearset; 21. a second double-linked gear set; 30. a first hollow worm; 31. a first transmission rod; 40. a second hollow worm; 41. a second transmission rod; 32. a first driven gear; 42. a second driven gear; 7. a gear box; 8. a spherical bearing; 9. a mounting cavity; 50. a first helical gear disk; 51. a first helical column; 60. a second helical gear disk; 61. a second helical column; 52. a dial; 53. a first planet carrier; 54. an upper limit shifting fork; 55. an upper limit micro switch; 62. a second carrier; 63. a lower limit fork; 64. and a lower limit micro switch.

Detailed Description

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

Referring to fig. 1-3, the present utility model provides a technical solution: the ultrathin driving device applied to the electric clothes hanger comprises a mounting box 1 and a motor 10 fixedly mounted in the mounting box 1, wherein the motor 10 is provided with a transmission shaft 11 in transmission connection with the motor 10, one end of the transmission shaft 11 is provided with a driving gear 12 in limit fixed mounting with the transmission shaft, the driving gear 12 is provided with a double gear set 2 in transmission fit with the driving gear 2 for transmitting torque, the double gear set 2 is provided with a first worm sleeve 3 and a second worm sleeve 4 in transmission fit with the first worm sleeve 3 respectively, the first worm sleeve 3 and the second worm sleeve 4 are arranged in a mirror image manner, the double gear set 2 comprises a first double gear set 20 in transmission fit with the first worm sleeve 3 and a second double gear set 21 in transmission fit with the second worm sleeve 4 respectively, torque is transmitted to the first worm sleeve 3 and the second worm sleeve 4 through the driving gear set 2 by utilizing the driving gear 12, the first worm sleeve 3 and the second worm sleeve 4 can drive a first steel wire rope guide wheel assembly 5 and a second steel wire rope guide wheel assembly 6 to rotate and pay-off the steel wire rope, and lift the clothes hanger, the whole clothes hanger can be driven by the first worm sleeve 3 and the second worm sleeve 4 to be arranged in a position of the parallel to the second wire rope guide wheel assembly 5 and the second guide wheel assembly 6 in the plane, the whole device can be arranged at the position of the bottom surface of the first worm sleeve 4 and the second guide wire assembly is reduced, and the whole device can be arranged in parallel to the bottom surface of the second wire assembly 5 and the steel wire rope guide assembly is arranged in the plane of the guide wire assembly 6, thereby improving the overall versatility.

The first worm sleeve 3 comprises a first hollow worm 30 and a first transmission rod 31 which is in limiting and fixed installation with the first hollow worm 30, the second worm sleeve 4 comprises a second hollow worm 40 and a second transmission rod 41 which is in limiting and fixed installation with the second hollow worm 40, corresponding manufacturing cost can be effectively reduced by adopting the hollow worm, a first driven gear 32 which is in limiting and fixed installation with the first transmission rod 31 is arranged on the first transmission rod 31, a second driven gear 42 which is in limiting and fixed installation with the second transmission rod 41 is arranged on the second transmission rod 41, and the driving gear 12 can directly transmit torque to the first worm sleeve 3 and the second worm sleeve 4 through the duplex gear set 2 by utilizing the first driven gear 32 to be in meshed transmission with the first duplex gear set 20 and utilizing the second driven gear 42 to be in meshed transmission with the second duplex gear set 21.

The installation case 1 is also provided with a gear box 7 fixedly connected with the installation case 1, the duplex gear set 2 and the driving gear 12 are arranged in the gear box 7, two spherical bearings 8 which are in limiting and fixed installation with the duplex gear set 2 and the driving gear 12 are also arranged in the gear box 7, the first transmission rod 31 and the second transmission rod 41 are respectively in limiting and rotating fit with the spherical bearings 8, the spherical bearings 8 which are in limiting and rotating fit with the first transmission rod 31 and the second transmission rod 41 are respectively arranged at two ends of the first transmission rod 31 and the second transmission rod 41, and the concentric adjustment of the two ends of the first hollow worm 30 and the second hollow worm 40 can be realized by using the spherical bearings 8 to replace the traditional bearings.

The two sides of the installation box 1 are respectively provided with an installation cavity 9 which is integrally formed with the installation cavity 9, the first steel wire rope guide wheel assembly 5 and the second steel wire rope guide wheel assembly 6 are respectively positioned in the installation cavity 9, the first steel wire rope guide wheel assembly 5 comprises a first helical gear 50 positioned in the installation cavity 9 and a first helical post 51 fixedly installed with the first helical gear 50, the second steel wire rope guide wheel assembly 6 comprises a second helical gear 60 positioned in the installation cavity 9 and a second helical post 61 fixedly installed with the second helical gear 60, helical lines are arranged on the side surfaces of the first helical post 51 and the second helical post 61 and used for winding and unwinding steel wires, the first helical gear 50 is meshed with the first hollow worm 30 and the second helical gear 60 is meshed with the second hollow worm 40 by utilizing the first helical gear 50, when torque is respectively transmitted to the first helical gear set 3 and the second helical gear set 4 through the duplex gear set 2, the first helical gear 50 and the second helical gear 60 are respectively driven to rotate, thereby respectively driving the first helical post 51 and the second helical post 61 to rotate and the second helical post 61 and a limit bracket 62 which is fixedly installed with the second helical post 61, an upper limit bracket component and a limit bracket which is also fixedly connected with the first helical bracket component and a lower limit bracket component 52 and a limit bracket component 52, an upper limit bracket component which is also fixedly arranged on the limit bracket component 55 and a limit bracket component which is fixedly connected with the limit bracket component 55, and an upper limit bracket component 55, and a limit bracket component which is also arranged on the limit bracket component 55, the dial 52 of the second screw column 61 is provided with a lower limit micro switch 64 fixedly mounted thereon, the lower limit shifting fork 63 is arranged corresponding to the lower limit micro switch 64, when the first hollow worm 30 and the second hollow worm 40 respectively drive the first helical gear disk 50 and the second helical gear disk 60 to rotate, the upper limit component and the lower limit component respectively connected with the first helical gear disk 50 and the second helical gear disk 60 in transmission at the moment also rotate along with the first helical gear disk 50 and the second helical gear disk 60, when the upper limit shifting fork 54 and the lower limit shifting fork 63 respectively touch the micro switch, the driving device can indicate that the wire rope winding and unwinding controlled by the driving device reaches the corresponding maximum threshold value, and the thickness of the whole limit component is reduced by respectively and separately mounting the upper limit component and the lower limit component on the first wire rope guide wheel component 5 and the second wire rope guide wheel component 6, so that the thickness of the whole driving device is correspondingly reduced.

The working principle of the utility model is as follows: the driving gear 12 is utilized to transmit torque to the first worm sleeve member 3 and the second worm sleeve member 4 respectively through the duplex gear set 2, so that the first steel wire rope guide wheel assembly 5 and the second steel wire rope guide wheel assembly 6 are driven to rotate respectively, and the first hollow worm 30 and the second hollow worm 40 can be adjusted concentrically due to the fact that the installation heights of the first worm sleeve member 3 and the second worm sleeve member 4 and the transmission shaft 11 are not in the same horizontal plane, so that the arrangement positions of the first steel wire rope guide wheel assembly 5 and the second steel wire rope guide wheel assembly 6 can be reasonably adjusted, the upper end face and the lower end face of the first steel wire rope guide wheel assembly 5 and the lower end face of the second steel wire rope guide wheel assembly 6 are flush with the upper end face and the lower end face of the motor 10, the thickness of the whole driving device is greatly reduced, the whole driving device can be further installed in a limited space, the first transmission rod 31 and the second transmission rod 41 are in limit rotation fit with the spherical bearing 8 respectively, and the upper limit shifting fork 54 and the lower limit fork 63 are correspondingly installed on the first steel wire rope guide wheel assembly 5 and the second steel wire rope guide wheel assembly 6 respectively, and the whole thickness of the whole driving device is reduced accordingly.

Finally, it should be noted that the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited to the foregoing embodiments, but may be modified or substituted for some of the features described in the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides an ultra-thin drive arrangement who is applied to electronic clothes hanger that dries in air, includes install bin (1) and fixed mounting in install bin (1) motor (10), its characterized in that, motor (10) are equipped with transmission shaft (11) that are connected with it transmission, transmission shaft (11) are equipped with drive gear (12) with spacing fixed mounting thereof, drive gear (12) are equipped with duplex gear group (2) that are used for transmitting moment of torsion with it transmission cooperation, duplex gear group (2) are equipped with respectively with its transmission complex first worm external member (3) and second worm external member (4), first worm external member (3) and second worm external member (4) mirror image set, the plane at first worm external member (3) and second worm external member (4) place deviates from the plane at transmission shaft (11) place and is on a parallel with the bottom surface of install bin (1), first wire rope subassembly (5) and second wire rope subassembly (6) with it transmission cooperation are equipped with respectively, and motor (10) and wire rope subassembly (5) and second wire rope subassembly (6) side by side.

2. Ultra-thin driving device applied to an electric laundry rack according to claim 1, characterized in that the duplex gear set (2) comprises a first duplex gear set (20) in driving fit with a first worm set (3) and a second duplex gear set (21) in driving fit with a second worm set (4), respectively, the first worm set (3) comprises a first hollow worm (30) and a first transmission rod (31) in limiting fixed installation with the first hollow worm (30), and the second worm set (4) comprises a second hollow worm (40) and a second transmission rod (41) in limiting fixed installation with the second hollow worm (40).

3. The ultrathin driving device applied to the electric clothes hanger according to claim 2, wherein the first driving rod (31) is provided with a first driven gear (32) which is in limiting and fixed installation with the first driving rod, the second driving rod (41) is provided with a second driven gear (42) which is in limiting and fixed installation with the second driving rod, the first driven gear (32) is in meshed transmission with the first duplex gear set (20), and the second driven gear (42) is in meshed transmission with the second duplex gear set (21).

4. An ultra-thin driving device applied to an electric clothes hanger according to claim 2 or 3, wherein the mounting box (1) is provided with a gear box (7) fixedly connected with the mounting box, the duplex gear set (2) is arranged in the gear box (7), two spherical bearings (8) fixedly mounted with the gear box (7) in a limiting manner are arranged in the gear box (7), and the first transmission rod (31) and the second transmission rod (41) are respectively in limiting and rotating fit with the spherical bearings (8).

5. The ultrathin driving device applied to the electric clothes hanger according to claim 2, wherein the two sides of the mounting box (1) are respectively provided with a mounting cavity (9) integrally formed with the mounting box, the first steel wire rope guide wheel assembly (5) and the second steel wire rope guide wheel assembly (6) are respectively positioned in the mounting cavities (9), the first steel wire rope guide wheel assembly (5) comprises a first helical gear disc (50) and a first helical column (51) fixedly mounted with the first helical gear disc (50), the second steel wire rope guide wheel assembly (6) comprises a second helical gear disc (60) and a second helical column (61) fixedly mounted with the second helical gear disc (60), the first helical gear disc (50) is in meshed transmission with the first hollow worm (30), the second helical gear disc (60) is in meshed transmission with the second hollow worm (40), and the upper ends of the first helical column (51) and the second helical column (61) are respectively provided with a dial (52).

6. The ultrathin driving device applied to the electric clothes hanger according to claim 5, wherein the first helical gear disc (50) is provided with an upper limit assembly in transmission connection with the first helical gear disc, the upper limit assembly comprises a first planet carrier (53) and an upper limit shifting fork (54) fixedly installed with the first planet carrier (53), an upper limit micro switch (55) fixedly installed with the first helical column (51) is arranged on a dial (52) of the first helical column, and the upper limit shifting fork (54) is correspondingly arranged with the upper limit micro switch (55).

7. The ultrathin driving device applied to the electric clothes hanger according to claim 5, wherein the second helical gear disc (60) is provided with a lower limit assembly in transmission connection with the second helical gear disc, the lower limit assembly comprises a second planet carrier (62) and a lower limit shifting fork (63) fixedly installed with the second planet carrier (62), a lower limit micro switch (64) fixedly installed with the second helical column (61) is arranged on a dial (52) of the second helical column, and the lower limit shifting fork (63) is correspondingly arranged with the lower limit micro switch (64).