JP7090788B1 - Elevator hoist moving device, elevator hoist, elevator hoist with moving device, and how to move the elevator hoist - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a moving device for an elevator hoist capable of stably moving the elevator hoist. SOLUTION: A moving device 11 of an elevator hoist has a first wheel 40 detachably attached to an elevator hoist 10 having a rotary shaft member 30 and a sheave 31 via a first mounting member 42, and a first wheel 40. A second wheel 50 that is detachably attached to the elevator hoist 10 in parallel with the first wheel 40 via a second mounting member 52 is provided, and each of the first wheel 40 and the second wheel 50 has a rotating shaft. It is rotatable about the axis 30c of the member 30, and when the elevator hoist 10, the first wheel 40, and the second wheel 50 are viewed along the axis 30c, the contour representing the contour of the elevator hoist 10. The line OL3 fits inside the contour line OL1 that represents the contour of the outer circumference of the first wheel 40, and fits inside the contour line OL2 that represents the contour of the outer circumference of the second wheel 50. [Selection diagram] Fig. 1

Description

The present disclosure relates to a moving device for an elevator hoist, an elevator hoist, an elevator hoist with a moving device, and a method for moving the elevator hoist.

Patent Document 1 describes a carrier for an elevator hoist. This transport trolley includes a pair of trolleys and two connecting rods for connecting the trolleys to each other. Each dolly consists of a loading platform and two wheels. An elevator hoist is mounted on the loading platform. The two wheel portions are provided on the bottom surface of the loading platform portion.

Japanese Patent No. 6738771

There may be an unstable road surface or stairs in the carry-in route for carrying the elevator hoist into the machine room. In the above transport trolley, since the two wheel portions are provided on the bottom surface of the loading platform portion, it is difficult to increase the diameter of each wheel portion. Therefore, when the elevator hoist is moved by using the above-mentioned transport trolley, the transport trolley may fall due to an unstable road surface. Further, when the elevator hoist is moved by using the above-mentioned transport trolley, it is difficult to move the stairs up and down the transport trolley. As described above, there is a problem that it is difficult to stably move the elevator hoist using the above-mentioned carrier.

The present disclosure has been made to solve the above-mentioned problems, and is an elevator hoist moving device, an elevator hoist, and an elevator with a moving device that can stably move an elevator hoist. It is an object of the present invention to provide a method of moving a hoist and an elevator hoist.

The moving device of the elevator hoist according to the present disclosure has a first wheel detachably attached to an elevator hoist having a rotary shaft member and a rope wheel via a first mounting member, and the first wheel in parallel with the first wheel. A second wheel that is detachably attached to the elevator hoisting machine via a second mounting member is provided, and each of the first wheel and the second wheel is centered on the axis of the rotating shaft member. It is rotatable, and when the elevator hoist, the first wheel, and the second wheel are viewed along the axis, the contour line representing the contour of the elevator hoist is the outer circumference of the first wheel. It fits inside the contour line representing the contour of the second wheel and fits inside the contour line representing the contour of the outer periphery of the second wheel.
The elevator hoist according to the present disclosure is an elevator hoist to which the moving device of the elevator hoist according to the present disclosure is attached, and is provided on the rotary shaft member or the sheave and fitted with the first attachment member. It has a first in-row portion to be fitted and a second in-row portion provided on the rotating shaft member or the sheave and fitted with the second mounting member.
The elevator hoist with a mobile device according to the present disclosure includes a mobile device for the elevator hoist according to the present disclosure and an elevator hoist.
In the method of moving the elevator hoist according to the present disclosure, the first wheel and the second wheel provided in the moving device of the elevator hoist according to the present disclosure are attached to the elevator hoist, and the first wheel and the said The second wheel is rotated to move the elevator hoist.

According to the present disclosure, the elevator hoist can be stably moved.

It is sectional drawing which shows the structure of the moving device of the elevator hoist and the elevator hoist which concerns on Embodiment 1. FIG. It is a side view which shows the structure of the moving device of the elevator hoist and the elevator hoist which concerns on Embodiment 1. FIG. It is sectional drawing which shows the structure of the moving device of the elevator hoist and the elevator hoist which concerns on Embodiment 2. FIG. It is sectional drawing which shows the structure of the moving device of the elevator hoist and the elevator hoist which concerns on Embodiment 3. FIG. It is a top view which shows an example of the moving method of the elevator hoist which concerns on Embodiment 3. FIG. It is a side view which shows an example of the moving method of the elevator hoist which concerns on Embodiment 3. FIG. It is sectional drawing which shows the structure of the moving device of the elevator hoist and the elevator hoist which concerns on Embodiment 4. FIG.

Embodiment 1.
The moving device of the elevator hoisting machine, the elevator hoisting machine, the elevator hoisting machine with the moving device, and the moving method of the elevator hoisting machine according to the first embodiment will be described. FIG. 1 is a cross-sectional view showing a configuration of an elevator hoist moving device and an elevator hoist according to the present embodiment. FIG. 1 shows a cross section of the elevator hoist moving device 11 and the elevator hoist 10 cut in a plane including the axis 30c of the rotary shaft member 30. The left-right direction in FIG. 1 represents a direction along the axis 30c of the rotary shaft member 30, that is, an axial direction of the rotary shaft member 30.

FIG. 2 is a side view showing the configuration of the elevator hoist moving device and the elevator hoist according to the present embodiment. FIG. 2 shows a configuration in which the moving device 11 of the elevator hoist and the elevator hoist 10 are viewed along the axis 30c. The vertical direction of FIGS. 1 and 2 represents a vertical vertical direction.

In the following description, the moving device of the elevator hoist may be simply referred to as a "moving device". Further, in the following description, the mobile device 11 and the elevator hoisting machine 10 may be collectively referred to as an "elevator hoisting machine with a mobile device". That is, the elevator hoist with a mobile device has a mobile device 11 and an elevator hoist 10.

When moving the elevator hoisting machine 10, the moving device 11 is attached to the elevator hoisting machine 10 as shown in FIGS. 1 and 2. After moving the elevator hoisting machine 10, the moving device 11 is removed from the elevator hoisting machine 10.

As shown in FIGS. 1 and 2, the elevator hoist 10 has a housing 20, a rotary shaft member 30, and a sheave 31. The housing 20 has a housing main body 21 and a bearing base 22. The bearing base 22 is arranged so as to face the housing main body 21 with the rope wheel 31 interposed therebetween.

The rotary shaft member 30 has an end portion 30a on one end side in the axial direction and an end portion 30b on the other end side in the axial direction. The end portion 30a of the rotary shaft member 30 is rotatably supported by the housing body 21 via a bearing 23. The end portion 30b of the rotary shaft member 30 is rotatably supported by the bearing base 22 via the bearing 24. As a result, the rotary shaft member 30 is rotatable with respect to the housing 20 about the axis 30c of the rotary shaft member 30. The rotary shaft member 30 is supported by the housing 20 so that the axis 30c is horizontal.

The sheave 31 is fixed to the rotary shaft member 30. The sheave 31 is fixed to the central portion in the axial direction of the rotary shaft member 30 located between the end portions 30a and the end portions 30b. The sheave 31 rotates integrally with the rotary shaft member 30. That is, the sheave 31 is rotatable about the axis 30c with respect to the housing 20.

When the elevator hoist 10 is installed in the machine room, a plurality of ropes are wound around the sheave 31. One end of each of the multiple ropes is connected to the elevator car room. The other end of each of the plurality of ropes is connected to a counterweight.

An outer peripheral surface 31a is formed at one end of the sheave 31 in the axial direction. The housing body 21 is formed so as to surround the outer peripheral surface 31a of the sheave 31. An inner peripheral surface 21a is formed on the housing main body 21. The inner peripheral surface 21a of the housing body 21 faces the outer peripheral surface 31a of the sheave 31.

A stator (not shown) is provided on the inner peripheral surface 21a of the housing body 21. A rotor (not shown) is provided on the outer peripheral surface 31a of the sheave 31. The stator and rotor face each other through a gap. The rotor rotates when the stator is excited. The rotation of the rotor causes the sheave 31 and the rotary shaft member 30 to rotate.

The moving device 11 has a first wheel 40, a second wheel 50, a first mounting member 42, and a second mounting member 52. The first wheel 40 is detachably attached to the elevator hoist 10 via the first attachment member 42. The second wheel 50 is detachably attached to the elevator hoist 10 via the second attachment member 52. The radius R1 of the first wheel 40 and the radius R2 of the second wheel 50 are equal to each other.

The first wheel 40 and the second wheel 50 are provided in parallel with each other. The first wheel 40 is arranged on one end side of the elevator hoist 10 in the axial direction. The second wheel 50 is arranged on the other end side of the elevator hoist 10 in the axial direction.

The first wheel 40 and the second wheel 50 are fixed to the rotary shaft member 30. As a result, the first wheel 40 and the second wheel 50 rotate integrally with the rotary shaft member 30. That is, the first wheel 40 and the second wheel 50 are rotatable about the axis 30c with respect to the housing 20.

When the first wheel 40 and the second wheel 50 are viewed along the axis 30c, the contour line representing the contour of the outer circumference of the first wheel 40 is OL1, and the contour line representing the contour of the outer circumference of the second wheel 50 is OL2. And. Both the contour line OL1 and the contour line OL2 have a circular shape centered on the axis 30c. When the first wheel 40 and the second wheel 50 are viewed along the axis 30c, the contour lines OL1 and the contour lines OL2 overlap each other.

When the elevator hoisting machine 10 is viewed along the axis 30c, the contour line representing the entire contour of the elevator hoisting machine 10 is set to OL3. In FIG. 2, the contour line OL3 is represented by a thick broken line. When the elevator hoist 10, the first wheel 40, and the second wheel 50 are viewed along the axis 30c, the contour line OL3 is contained inside the contour line OL1 and is contained inside the contour line OL2. ing. That is, when viewed along the axis 30c, the longest distance L1 between the contour line OL3 of the elevator hoist 10 and the axis 30c is either the radius R1 of the first wheel 40 or the radius R2 of the second wheel 50. Is shorter than (L1 <R1 = R2).

The first wheel 40 has a wheel body 41, a tire 43, and a tube 44. The wheel body 41 has a circular outer peripheral shape. A rim 41a is formed on the outer peripheral portion of the wheel body 41.

The tube 44 has an annular shape as a whole. The tube 44 is arranged along the outer peripheral portion of the wheel body 41. The tube 44 has an elliptical or circular cross-sectional shape. The tube 44 is made of an elastic material such as rubber or resin. The inside of the tube 44 is filled with air. The air-filled tube 44 functions as a cushioning member that cushions the impact transmitted to the elevator hoist 10 via the first wheel 40. In the present embodiment, the air-filled tube 44 is used as a cushioning member, but the present invention is not limited to this. As the cushioning member, a material using various materials such as a foaming material and a water-soluble substance material can be used.

The tire 43 is formed so as to cover the tube 44. The tire 43 protects the tube 44 from the impact and vibration received from the road surface such as the floor and stairs when the elevator hoist 10 moves. The tire 43 is attached to the rim 41a.

The first mounting member 42 is provided at the center of the first wheel 40. The first mounting member 42 is detachably attached to the end portion 30a of the rotary shaft member 30. As a result, the first wheel 40 is detachably attached to the rotary shaft member 30 of the elevator hoisting machine 10 via the first attachment member 42.

A first in-row portion 32a to be fitted with the first mounting member 42 is formed at the end portion 30a of the rotary shaft member 30. Each of the first mounting member 42 and the first inlay portion 32a has an uneven structure. When the first mounting member 42 and the first inlay portion 32a are fitted together, the concave-convex structure of the first mounting member 42 and the concave-convex structure of the first inlay portion 32a mesh with each other. As a result, torque is transmitted between the first mounting member 42 and the rotary shaft member 30. Therefore, the first wheel 40 and the first mounting member 42 rotate integrally with the rotary shaft member 30.

The second wheel 50 has the same configuration as the first wheel 40. The second wheel 50 has a wheel body 51, a tire 53, and a tube 54. The wheel body 51 has a circular outer peripheral shape. A rim 51a is formed on the outer peripheral portion of the wheel body 51. The tube 54 is arranged along the outer peripheral portion of the wheel body 51. The tire 53 is formed so as to cover the tube 54. The tire 53 is attached to the rim 51a.

The second mounting member 52 is provided at the center of the second wheel 50. The second mounting member 52 is detachably attached to the end portion 30b of the rotary shaft member 30. As a result, the second wheel 50 is detachably attached to the rotary shaft member 30 of the elevator hoisting machine 10 via the second attachment member 52.

A second in-row portion 32b to be fitted with the second mounting member 52 is formed at the end portion 30b of the rotary shaft member 30. Each of the second mounting member 52 and the second inlay portion 32b has an uneven structure. When the second mounting member 52 and the second inlay portion 32b are fitted together, the concave-convex structure of the second mounting member 52 and the concave-convex structure of the second in-row portion 32b mesh with each other. As a result, torque is transmitted between the second mounting member 52 and the rotary shaft member 30. Therefore, the second wheel 50 and the second mounting member 52 rotate integrally with the rotary shaft member 30.

When moving the elevator hoisting machine 10, the first wheel 40 and the second wheel 50 of the moving device 11 are attached to the elevator hoisting machine 10. In this state, when a force perpendicular to the axis 30c and in the direction along the road surface is applied to the elevator hoisting machine 10, the first wheel 40 and the second wheel 50 rotate together with the rotary shaft member 30 and the sheave 31. The elevator hoist 10 travels on the road surface by the rotation of the first wheel 40 and the second wheel 50. As a result, the elevator hoisting machine 10 can be moved by rotating the first wheel 40 and the second wheel 50.

As described above, the moving device 11 of the elevator hoist according to the present embodiment includes a first wheel 40 and a second wheel 50. The first wheel 40 is detachably attached to the elevator hoist 10 having the rotary shaft member 30 and the sheave 31 via the first attachment member 42. The second wheel 50 is detachably attached to the elevator hoist 10 in parallel with the first wheel 40 via the second attachment member 52. Each of the first wheel 40 and the second wheel 50 is rotatable about the axis 30c of the rotary shaft member 30. When the elevator hoisting machine 10, the first wheel 40, and the second wheel 50 are viewed along the axis 30c, the contour line OL3 representing the contour of the elevator hoisting machine 10 represents the contour of the outer circumference of the first wheel 40. It fits inside the contour line OL1 and fits inside the contour line OL2 that represents the contour of the outer circumference of the second wheel 50.

According to this configuration, the centers of the first wheels 40 and the second wheels 50 coincide with the axis 30c of the rotary shaft member 30. Therefore, it is possible to increase the diameters of the first wheel 40 and the second wheel 50 while suppressing the position of the center of gravity of the elevator hoist 10 to which the first wheel 40 and the second wheel 50 are attached from becoming higher. can. Therefore, when the elevator hoisting machine 10 is moved by using the moving device 11, it is possible to prevent the moving device 11 from tipping over due to an unstable road surface. Further, since the diameters of the first wheel 40 and the second wheel 50 can be increased, it becomes easy to move the stairs up and down on the moving device 11. Therefore, according to this configuration, the elevator hoisting machine 10 can be stably moved.

Further, when viewed along the axis 30c, the contour line OL3 of the elevator hoisting machine 10 is contained inside the contour line OL1 of the first wheel 40 and the contour line OL2 of the second wheel 50. Therefore, when the elevator hoisting machine 10 is moved by using the moving device 11, it is possible to prevent the elevator hoisting machine 10 from coming into contact with the road surface.

In the moving device 11 of the elevator hoist according to the present embodiment, the first mounting member 42 is configured to mount the first wheel 40 to the rotary shaft member 30, and the second mounting member 52 is the second. The wheels 50 are configured to be attached to the rotary shaft member 30. According to this configuration, since the first wheel 40 and the second wheel 50 can be rotated integrally with the rotary shaft member 30, the first wheel 40 and the second wheel 50 can be stably provided without separately providing a bearing. Can be rotated.

Further, both the first wheel 40 and the second wheel 50 are rotatable with respect to the housing 20 of the elevator hoisting machine 10. Therefore, the elevator hoisting machine 10 can be moved without rotating the housing 20. Therefore, it is possible to prevent the movable wiring drawn from the housing 20 from being wound around the first wheel 40, the second wheel 50, or other equipment.

The elevator hoisting machine 10 according to the present embodiment is equipped with a moving device 11 for the elevator hoisting machine according to the present embodiment. The elevator hoisting machine 10 has a first in-row portion 32a and a second in-row portion 32b. The first in-row portion 32a is provided on the rotary shaft member 30. The first inlay portion 32a is fitted with the first mounting member 42. The second in-row portion 32b is provided on the rotary shaft member 30. The second inlay portion 32b is fitted with the second mounting member 52. According to this configuration, the elevator hoisting machine 10 can be stably moved by using the moving device 11.

The elevator hoist with a mobile device according to the present embodiment has a moving device 11 for the elevator hoist according to the present embodiment and an elevator hoist 10 according to the present embodiment. According to this configuration, the elevator hoisting machine 10 can be stably moved by using the moving device 11.

In the method of moving the elevator hoist according to the present embodiment, the first wheel 40 and the second wheel 50 included in the moving device 11 of the elevator hoist according to the present embodiment are attached to the elevator hoist 10 and the second wheel is attached. The elevator hoist 10 is moved by rotating the 1st wheel 40 and the 2nd wheel 50. According to this moving method, the elevator hoisting machine 10 can be stably moved by using the moving device 11.

Embodiment 2.
The moving device of the elevator hoist and the elevator hoist according to the second embodiment will be described. FIG. 3 is a cross-sectional view showing the configuration of the moving device of the elevator hoist and the elevator hoist according to the present embodiment. The components having the same functions and functions as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted.

As shown in FIG. 3, the first wheel 40 and the second wheel 50 are detachably attached to the elevator hoisting machine 10. In this embodiment, the first wheel 40 and the second wheel 50 are fixed to the sheave 31.

The first wheel 40 is arranged on one end side of the sheave 31 in the axial direction. The first wheel 40 is attached to the sheave 31 via the first attachment member 42. The first wheel 40 has an annular shape as a whole. The first mounting member 42 is provided at the inner peripheral end of the first wheel 40.

The sheave 31 is formed with a first inlay portion 32a that is fitted with the first mounting member 42. Each of the first mounting member 42 and the first inlay portion 32a has an uneven structure. When the first mounting member 42 and the first inlay portion 32a are fitted together, the concave-convex structure of the first mounting member 42 and the concave-convex structure of the first inlay portion 32a mesh with each other. As a result, torque is transmitted between the first mounting member 42 and the sheave 31. Therefore, the first mounting member 42 and the first wheel 40 rotate integrally with the sheave 31.

The second wheel 50 is arranged on the other end side of the sheave 31 in the axial direction. The second wheel 50 is attached to the sheave 31 via the second attachment member 52. The second wheel 50 has an annular shape as a whole. The second mounting member 52 is provided at the inner peripheral end of the second wheel 50.

The sheave 31 is formed with a second inlay portion 32b that is fitted with the second mounting member 52. Each of the second mounting member 52 and the second inlay portion 32b has an uneven structure. When the second mounting member 52 and the second inlay portion 32b are fitted together, the concave-convex structure of the second mounting member 52 and the concave-convex structure of the second in-row portion 32b mesh with each other. As a result, torque is transmitted between the second mounting member 52 and the sheave 31. Therefore, the second mounting member 52 and the second wheel 50 rotate integrally with the sheave 31.

Although not shown, the contour line OL3 of the elevator hoisting machine 10 is contained inside the contour line OL1 of the first wheel 40 when viewed along the axis 30c, and the second wheel 50. It fits inside the contour line OL2 of.

As described above, in the moving device 11 of the elevator hoist according to the present embodiment, the first mounting member 42 is configured to mount the first wheel 40 to the sheave 31. The second mounting member 52 is configured to mount the second wheel 50 to the sheave 31. According to this configuration, since the first wheel 40 and the second wheel 50 can be rotated integrally with the sheave 31, the first wheel 40 and the second wheel 50 can be stably rotated without separately providing a bearing. Can be made to.

Further, both the first wheel 40 and the second wheel 50 are rotatable with respect to the housing 20 of the elevator hoisting machine 10. Therefore, the elevator hoisting machine 10 can be moved without rotating the housing 20. Therefore, it is possible to prevent the movable wiring drawn from the housing 20 from being wound around the first wheel 40, the second wheel 50, or other equipment.

The elevator hoisting machine 10 according to the present embodiment is equipped with a moving device 11 for the elevator hoisting machine according to the present embodiment. The elevator hoisting machine 10 according to the present embodiment has a first in-row portion 32a and a second in-row portion 32b. The first inlay portion 32a is provided on the sheave 31. The first inlay portion 32a is fitted with the first mounting member 42. The second inlay portion 32b is provided on the sheave 31. The second inlay portion 32b is fitted with the second mounting member 52. According to this configuration, the elevator hoisting machine 10 can be stably moved by using the moving device 11.

Embodiment 3.
The moving device of the elevator hoist, the elevator hoist, and the moving method of the elevator hoist according to the third embodiment will be described. FIG. 4 is a cross-sectional view showing the configuration of the moving device of the elevator hoist and the elevator hoist according to the present embodiment. The components having the same functions and functions as those of the first and second embodiments are designated by the same reference numerals and the description thereof will be omitted.

As shown in FIG. 4, the elevator hoist moving device 11 of the present embodiment is different from the elevator hoist moving device 11 of the first embodiment in the structure of the first mounting member 42. The first mounting member 42 has an inner ring 42a, an outer ring 42b, and a rolling element 42c.

The inner ring 42a is detachably attached to the end portion 30a of the rotary shaft member 30. The central axis of the inner ring 42a coincides with the axis 30c of the rotary shaft member 30. The inner ring 42a is fixed to the rotary shaft member 30. The inner ring 42a rotates integrally with the rotary shaft member 30 and the sheave 31 about the axis 30c.

The outer ring 42b is provided on the outer peripheral side of the inner ring 42a. The outer ring 42b is provided coaxially with the inner ring 42a. That is, the central axis of the outer ring 42b coincides with the axis 30c of the rotary shaft member 30. The outer ring 42b is rotatable with respect to the inner ring 42a about the axis 30c.

The rolling element 42c is provided between the inner ring 42a and the outer ring 42b. The rolling element 42c is configured to roll between the inner ring 42a and the outer ring 42b.

The first wheel 40 is fixed to the outer ring 42b. As a result, the first wheel 40 is rotatable with respect to the rotary shaft member 30 about the axis 30c. That is, the first wheel 40 rotates independently of the rotary shaft member 30. On the other hand, the second wheel 50 rotates integrally with the rotating shaft member 30 about the axis 30c. Therefore, the first wheel 40 and the second wheel 50 rotate independently of each other.

The inner ring 42a, the outer ring 42b, and the rolling element 42c may be integrated into one component as a rolling bearing. That is, the first wheel 40 may be attached to the rotary shaft member 30 via a rolling bearing. Even in this case, the first wheel 40 rotates independently of the rotating shaft member 30.

In the present embodiment, since the first wheel 40 and the second wheel 50 rotate independently of each other, the elevator hoist 10 can be easily turned. As a result, the direction of the elevator hoist 10 can be easily changed even in a narrow space such as a landing of stairs.

A method of moving the elevator hoist according to the present embodiment will be described. FIG. 5 is a top view showing an example of a method of moving the elevator hoist according to the present embodiment. FIG. 6 is a side view showing an example of a method of moving the elevator hoist according to the present embodiment.

As shown in FIGS. 5 and 6, the machine room 102 is provided at a position higher than the lower floor 100. A staircase 101 is provided between the lower floor 100 and the machine room 102. A beam 103, a chain block 104, and a fixed pulley 105 are installed in the machine room 102. The chain block 104 is attached to the beam 103. The fixed pulley 105 is provided at the same height as the beam 103.

When moving the elevator hoisting machine 10, the first wheel 40 and the second wheel 50 are attached to the elevator hoisting machine 10. The radius of each of the first wheel 40 and the second wheel 50 is larger than the height of one step of the stairs 101. An eyebolt portion 25 is attached to the housing body 21 of the elevator hoisting machine 10. The eyebolt portion 25 is also used for the installation work of the elevator hoisting machine 10. The eyebolt portion 25 is connected to the hook 104a of the chain block 104 via the wire 106 wound around the fixed pulley 105.

When the elevator hoist 10 is pulled by the chain block 104, the first wheel 40 and the second wheel 50 rotate, and the elevator hoist 10 moves. The elevator hoisting machine 10 moves on the floor surface of the lower floor 100 and the stairs 101, and is pulled up to the machine room 102. Since the diameters of the first wheel 40 and the second wheel 50 are larger, the elevator hoisting machine 10 can stably move on the floor surface of the lower floor 100 and the stairs 101. As a result, the elevator hoisting machine 10 can be stably moved from the lower floor 100 to the machine room 102.

The first mounting member 42 of the present embodiment is configured to mount the first wheel 40 to the rotary shaft member 30, but the first mounting member 42 mounts the first wheel 40 to the sheave 31. It may be configured.

In the present embodiment, the first mounting member 42 has an inner ring, an outer ring, and a rolling element, but the second mounting member 52 may have an inner ring, an outer ring, and a rolling element. In this case, the first wheel 40 rotates integrally with the rotary shaft member 30 and the sheave 31, and the second wheel 50 rotates independently of the rotary shaft member 30 and the sheave 31. As a result, the first wheel 40 and the second wheel 50 rotate independently of each other. In this case, the second mounting member 52 may be configured to mount the second wheel 50 to the rotary shaft member 30, or may be configured to mount the second wheel 50 to the sheave 31. ..

Further, both the first mounting member 42 and the second mounting member 52 may have an inner ring, an outer ring, and a rolling element. In this case, the first wheel 40 and the second wheel 50 rotate independently of each other, and also rotate independently of the rotating shaft member 30 and the sheave 31. As a result, the elevator hoisting machine 10 can be moved without rotating the housing 20, the rotary shaft member 30, and the sheave 31.

As described above, in the moving device 11 of the elevator hoist according to the present embodiment, at least one of the first mounting member 42 and the second mounting member 52 has an inner ring, an outer ring, and a rolling element. The inner ring is fixed to the rotary shaft member 30 or the sheave 31. The outer ring is provided on the outer peripheral side of the inner ring. The rolling element is provided between the inner ring and the outer ring. According to this configuration, since the first wheel 40 and the second wheel 50 can be rotated independently of each other, the elevator hoist 10 can be easily turned.

Further, in the present embodiment, both the first wheel 40 and the second wheel 50 are rotatable with respect to the housing 20 of the elevator hoisting machine 10. Therefore, the elevator hoisting machine 10 can be moved without rotating the housing 20. Therefore, it is possible to prevent the movable wiring drawn from the housing 20 from being wound around the first wheel 40, the second wheel 50, or other equipment.

Embodiment 4.
The moving device of the elevator hoist and the elevator hoist according to the fourth embodiment will be described. FIG. 7 is a cross-sectional view showing the configuration of the moving device of the elevator hoist and the elevator hoist according to the present embodiment. The components having the same functions and functions as those of the first to third embodiments are designated by the same reference numerals and the description thereof will be omitted.

As shown in FIG. 7, a pair of bearings 26 and 27 are provided between the sheave 31 and the rotary shaft member 30. The sheave 31 is rotatably supported by the rotary shaft member 30 via the bearing 26 and the bearing 27. As a result, the sheave 31 rotates with respect to the rotary shaft member 30 about the axis 30c. The rotary shaft member 30 is fixed to the housing 20.

The first wheel 40 is detachably attached to the rotary shaft member 30 via the first attachment member 42. The first mounting member 42 has an inner ring 42a, an outer ring 42b, a rolling element 42c, and an auxiliary shaft member 42d. The auxiliary shaft member 42d is attached coaxially with the rotary shaft member 30 to the end portion 30a on the counterload side of the rotary shaft member 30 as a jig for moving the elevator hoisting machine 10. The auxiliary shaft member 42d is detachably attached to the rotary shaft member 30 by using a fixing member 45 such as a screw. The inner ring 42a is fixed to the auxiliary shaft member 42d. The first wheel 40 is fixed to the outer ring 42b. As a result, the first wheel 40 is rotatable about the axis 30c with respect to the auxiliary shaft member 42d and the rotary shaft member 30.

The second wheel 50 is detachably attached to the sheave 31 via the second attachment member 52. The second mounting member 52 is mounted on the sheave 31 using a fixing member 55 such as a screw. The second wheel 50 is rotatable with respect to the rotary shaft member 30 about the axis 30c. The second wheel 50 rotates integrally with the sheave 31 and independently of the first wheel 40.

In the present embodiment, since the first wheel 40 and the second wheel 50 can be rotated independently of each other, the elevator hoist 10 can be easily turned.

Further, in the present embodiment, since the second wheel 50 is attached to the sheave 31, the second wheel 50 is rotatably supported by the rotary shaft member 30 via the bearing 26 and the bearing 27. Therefore, the second mounting member 52 for mounting the second wheel 50 does not require a structure such as an inner ring, an outer ring, and a rolling element.

Further, in the present embodiment, both the first wheel 40 and the second wheel 50 are rotatable with respect to the housing 20 of the elevator hoisting machine 10. Therefore, the elevator hoisting machine 10 can be moved without rotating the housing 20. Therefore, it is possible to prevent the movable wiring drawn from the housing 20 from being wound around the first wheel 40, the second wheel 50, or other equipment.

Each of the above embodiments can be implemented in combination with each other. For example, in combination of the first embodiment and the second embodiment, one of the first wheel 40 and the second wheel 50 is attached to the rotary shaft member 30, and the other of the first wheel 40 and the second wheel 50 is a sheave. It may be attached to 31.

10 Elevator hoist, 11 moving device, 20 housing, 21 housing body, 21a inner peripheral surface, 22 bearing base, 23, 24 bearings, 25 eyebolts, 26, 27 bearings, 30 rotating shaft members, 30a, 30b ends. , 30c Axis, 31 Pulley, 31a Outer Surface, 32a 1st Inlay, 32b 2nd Inlay, 40 1st Wheel, 41 Wheel Body, 41a Rim, 42 1st Mounting Member, 42a Inner Ring, 42b Outer Ring, 42c Rolling element, 42d auxiliary shaft member, 43 tire, 44 tube, 45 fixing member, 50 second wheel, 51 wheel body, 51a rim, 52 second mounting member, 53 tire, 54 tube, 55 fixing member, 100 lower floor, 101 stairs, 102 machine room, 103 beams, 104 chain blocks, 104a hooks, 105 fixed pulleys, 106 wires, L1 distances, OL1, OL2, OL3 contours, R1, R2 radii.

Claims (6)

A first wheel that can be detachably attached to an elevator hoist having a rotary shaft member and a sheave via a first attachment member,
A second wheel that is detachably attached to the elevator hoist in parallel with the first wheel via a second attachment member,
Equipped with
Each of the first wheel and the second wheel is rotatable about the axis of the rotating shaft member.
When the elevator hoist, the first wheel, and the second wheel are viewed along the axis, the contour line representing the contour of the elevator hoist is the contour representing the contour of the outer periphery of the first wheel. A moving device for an elevator hoist that fits inside the line and fits inside the contour line that represents the contour of the outer circumference of the second wheel. At least one of the first mounting member and the second mounting member
The inner ring fixed to the rotating shaft member or the sheave,
An outer ring provided on the outer peripheral side of the inner ring and
The moving device for an elevator hoist according to claim 1, further comprising a rolling element provided between the inner ring and the outer ring. The first mounting member is configured to mount the first wheel to the rotating shaft member or the sheave.
The moving device for an elevator hoist according to claim 1 or 2, wherein the second mounting member is configured to mount the second wheel to the rotating shaft member or the sheave. An elevator hoist to which the moving device for the elevator hoist according to any one of claims 1 to 3 is attached.
A first in-row portion provided on the rotating shaft member or the sheave and fitted with the first mounting member, and a first in-row portion.
A second in-row portion provided on the rotating shaft member or the sheave and fitted with the second mounting member, and a second in-row portion.
Elevator hoisting machine with. The moving device for the elevator hoist according to any one of claims 1 to 3.
The elevator hoist and
Elevator hoist with mobile device. The first wheel and the second wheel included in the moving device of the elevator hoist according to any one of claims 1 to 3 are attached to the elevator hoist.
A method of moving an elevator hoist that rotates the first wheel and the second wheel to move the elevator hoist.

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