CN112374326A

CN112374326A - Guide shoe of home elevator

Info

Publication number: CN112374326A
Application number: CN202011239782.6A
Authority: CN
Inventors: 李长明; 朱小云; 车超超; 丁明芳; 李少弘; 焦玉
Original assignee: Shandong Bunse Elevator Co ltd
Current assignee: Shandong Bunse Elevator Co ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-02-19

Abstract

The invention discloses a guide shoe of a home elevator, the home elevator comprises a car and T-shaped guide rails positioned on two sides of the car, the guide shoe moving along the T-shaped guide rails is arranged on two sides of the car, the T-shaped guide rails are provided with moving sections for the guide shoe to move, the guide shoe comprises a guide shoe seat connected with the car and a shoe lining arranged on the guide shoe seat, the shoe lining comprises static guide parts and moving guide parts positioned on two sides of the moving sections, when the car moves along the T-shaped guide rails, the static guide parts and the car are relatively static, and the moving guide parts and the car move relatively. For static guide, the car can incline towards the removal guide, consequently, overhauls the removal guide in advance at the in-process of overhauing the guide shoe, judges the degree of wear of whole guide shoe according to the degree of wear of removal guide, degree of difficulty and time when reducing the maintenance.

Description

Guide shoe of home elevator

Technical Field

The invention belongs to the field of home elevators, and particularly relates to a guide shoe of a home elevator.

Background

Along with the continuous improvement of economic level, people's house form also develops to facilities such as villas that private space is great gradually, the floor height of villa generally designs two-layer or three-layer, can not design the elevator in most villas, and because the complete equipment structure of traction type elevator is complicated, need be equipped with the well, can occupy very big space, consider occupation space problem and traction type elevator's cost problem, do not install the elevator in most villas, but, along with the increase of the ageing problem of our country's population in recent years, it is very inconvenient that old person lives on stairs in villa and goes upstairs and downstairs, and there is the potential safety hazard, consequently, the demand to small-size home use elevator is more and more urgent in the market.

In the prior art, a small household elevator also generally adopts a mode that a car slides on a guide rail to realize up-and-down movement, and guide shoes are adopted for limiting the car; therefore, the sliding guide shoe needs to be periodically maintained and replaced, but since the center of gravity of the user is continuously changed when the user takes the elevator, the degree of wear caused by the contact between both sides of the sliding guide shoe and the guide rail cannot be accurately determined, the entire sliding guide shoe needs to be observed, and the difficulty and time for the user to repair the sliding guide shoe are increased.

Disclosure of Invention

In view of the above disadvantages, the present invention provides a guide shoe for a home elevator, which can improve the stability of the guide shoe during operation.

The invention is realized by the following technical scheme:

the utility model provides a home use elevator leads boots, home use elevator includes the car and is located the T type guide rail of car both sides, the car bottom can contact with ground, the car both sides are provided with along the T type guide rail removal lead boots, T type guide rail has the removal section that supplies to lead boots removal, lead boots including with the car be connected lead the boots seat and set up in leading the shoe guide's shoe guide, the shoe guide is including being located the static guide and the removal guide of removal section both sides, the car is followed when T type guide rail removes, static guide is static relatively with the car, and removes the guide and the car produces relative movement. The guide shoe can fix the cage on the T-shaped guide rail, so that the cage can only move up and down, the guide shoe seat is connected with the cage and used for supporting and fixing the shoe bush, the shoe bush clamps the moving section through the static guide piece and the moving guide piece, so that the shoe bush can move along the T-shaped guide rail, and the static guide piece and the moving section are relatively static in the moving process of the shoe bush, so that the static guide piece and the guide rail have sliding friction, the area of a contact part between a contact surface of the static guide piece and the guide rail is increased, a better clamping effect is realized on the guide rail, the stability of the guide shoe in moving is improved, the moving guide piece and the cage generate relative movement, so that the part of the moving guide piece, which is in contact with the guide rail, is in a changing state in the moving process, the friction between the moving guide piece and the guide rail can be reduced, and the up-down moving distance of the home elevator, the movable guide piece moves along the guide rail, the contact frequency of the same point in the movable guide piece and the movable section is reduced, the overall abrasion speed of the movable guide piece is reduced, meanwhile, the movable guide piece is in the continuous moving process, therefore, compared with a static guide piece, the lift car can incline towards the movable guide piece, therefore, in the process of overhauling the guide shoe, the movable guide piece can be overhauled in advance, the abrasion degree of the overall guide shoe is judged according to the abrasion degree of the movable guide piece, and the difficulty and time in overhauling are reduced.

Further, the moving guide is in rolling contact with the guide rail. The area of the contact part between the movable guide piece and the guide rail is reduced, the friction loss is reduced, the vibration and the noise in operation are reduced, the friction force is not required to be reduced by arranging the oil cup, the guide shoe is in an oil-free environment when being matched with the guide rail, and the operation is safer.

Further, the moving guide includes a plurality of vertically arranged rolling wheels with a gap between adjacent rolling wheels; the rolling wheels are multiple, when the rolling wheels are matched with the static guide piece, the clamping effect on the moving section is better, the operation is more stable, gaps are formed between the adjacent rolling wheels, collision between the rolling wheels is avoided, and the safety during use is improved.

Further, the moving guide includes an upper shoe lining and a lower shoe lining arranged from top to bottom, and the upper shoe lining or the lower shoe lining is in sliding contact with the moving section. One of the upper shoe lining and the lower shoe lining moves along the guide rail, the upper shoe lining and the lower shoe lining can be continuously replaced, the abrasion speed of the upper shoe lining and the lower shoe lining is reduced, and the service life of the movable guide piece is prolonged.

Further, the stationary guide comprises a mounting portion arranged on the guide shoe base and a guide portion arranged on the mounting portion, and a moving channel for the moving section to pass through is formed between the guide portion and the moving guide. When the car moves, the moving channel formed between the guide part and the moving guide part moves along the moving section, and the guide part and the moving guide part clamp the moving section located on the moving channel, so that the car is prevented from shaking when moving, and the running is stable.

Further, the guide part is of an L-shaped structure. Simple structure and convenient processing.

Further, the car includes a car door, the moving guide being at a smaller distance from the car door than the stationary guide. When a user enters the car through the car door, the car slightly shifts forwards due to the shift of the gravity center, the relative position of the movable guide piece is close to the car door, after the shift, the movable guide piece is in closer contact with the movable section, but the abrasion of the movable guide piece can be reduced due to the fact that only part of the movable guide piece is in contact with the movable section, the static guide piece is also protected, and the service life of the guide shoe is prolonged.

Further, the guide shoe comprises an upper guide shoe and a lower guide shoe which are arranged from top to bottom, a first interval is formed between the static guide part and the moving guide part of the upper guide shoe, a second interval is formed between the static guide part and the moving guide part of the lower guide shoe, and the width of the first interval is smaller than that of the second interval. The clamping force of the static guide piece and the moving guide piece of the upper guide shoe to the moving section is larger than the clamping force of the static guide piece and the moving guide piece of the lower guide shoe to the moving section, so that even if the lift car shifts due to the change of the center of gravity, the upper guide shoe can be clamped with the moving section, and the shifting distance of the lift car is reduced.

Furthermore, the guide shoe further comprises a brush head arranged on the guide shoe base, and the brush head is provided with a brush surface moving along the moving section. When the guide shoe moves, the brush head correspondingly moves through the brush surface, in the moving process, the moving section is cleaned through the contact between the brush surface and the moving section, dust and particles attached to the moving section are removed, noise is reduced, meanwhile, the phenomenon that the shoe guide is abraded with the moving section at an accelerated speed due to impurities is avoided, and the number of times of user maintenance is reduced.

Further, the shoe guide can be disposed to rotate 180 ° about the center of the guide shoe. The abrasion of all parts of the shoe lining is more uniform, and the problem that the normal use of the shoe lining is influenced because only one side of the shoe lining is seriously abraded due to uneven stress is avoided.

Drawings

FIG. 1 is a schematic diagram illustrating the structure of an exemplary embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating an exemplary embodiment of the moving guide of the present invention;

FIG. 3 is a schematic view illustrating another exemplary embodiment of the moving guide according to the present invention;

figure 4 is a schematic view illustrating the construction of one exemplary embodiment of a brush head according to the present invention.

In the figure: 1. guide shoe seat, 2, shoe guide, 21, static guide, 22, moving guide, 221, upper shoe guide, 222, lower shoe guide, 3, T-shaped guide rail, 31, moving section, 4 and brush head.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

As shown in fig. 1 to 4, the home elevator comprises a car and T-shaped guide rails 3 positioned at two sides of the car, the bottom of the car can be contacted with the ground, the guide shoes moving along the T-shaped guide rails 3 are arranged at two sides of the car, the T-shaped guide rails 3 are provided with a moving section 31 for the guide shoes to move, the guide shoes comprise a guide shoe seat 1 connected with the car and a shoe guide 2 arranged on the guide shoe seat 1, the shoe guide 2 comprises a static guide part 21 and a moving guide part 22 positioned at two sides of the moving section 31, when the car moves along the T-shaped guide rails 3, the static guide part 21 is relatively static with the car, and the moving guide part 22 is relatively moved with the car; the T-shaped guide rail 3 is used for supporting and plays a role of guiding when the car moves, the moving section 31 is a part of the T-shaped guide rail 3 extending towards the car, the guide shoe can fix the car on the T-shaped guide rail 3 to enable the car to move only up and down, the guide shoe seat 1 is connected with the car and is used for supporting and fixing the shoe guide 2, the shoe guide 2 clamps the moving section 31 through the static guide piece 21 and the moving guide piece 22, so that the shoe guide 2 can move along the T-shaped guide rail 3, and during the moving process of the shoe guide 2, the static guide piece 21 is in sliding contact with the moving section 31, so that the sliding friction is formed between the static guide piece 21 and the guide rail, the area of the contact part between the contact surface of the static guide piece 21 and the guide rail is increased, the better clamping effect is achieved for the guide rail, the stability when the guide shoe moves is improved, and the moving guide piece 22 is in contact with the, in this way, the moving guide 22 is in a state of changing the contact part with the guide rail during the moving process, so that the friction between the moving guide 22 and the guide rail can be reduced, the vertical moving distance of the home elevator is short during the operation of the home elevator, the number of times of contact between the same point in the moving guide 22 and the moving section 31 is reduced while the moving guide 22 moves along the guide rail, the wear rate of the whole moving guide 22 is reduced, and the car inclines toward the moving guide 22 relative to the stationary guide 21 because the moving guide 22 is in a process of constantly moving, so that the moving guide 22 can be inspected in advance during the inspection of the guide shoe, the wear degree of the whole guide shoe is determined according to the wear degree of the moving guide 22, and the difficulty and time during the inspection are reduced.

The guide shoe moves along the moving section 31 through the shoe guide 2, but in the moving process, not all the shoe guides 2 are in contact with the moving section 31 at the same time, and the shoe guides 2 are divided into a part in contact with the guide rail and a part in idle state in the moving process, so that the guide rail can be clamped, and meanwhile, the shoe guides 2 in the idle part can be buffered and the abrasion degree can be reduced by continuously changing the contact part with the guide rail through the shoe guides 2.

With reference to fig. 1, the present application provides an embodiment of a moving guide 22, the moving guide 22 rolling along a guide rail by its contact surface; remove guide 22 and be the cylinder structure, will remove and become rolling friction between guide 22 contact surface and the guide rail, reduce the area of the contact segment between removal guide 22 and the guide rail, reduced the friction loss, reduced the vibration and the noise in the operation, and need not to reduce frictional force through setting up the oil cup, lead boots and be in oil free environment when cooperating with the guide rail, the operation is safer.

The moving guide 22 includes a plurality of vertically arranged rolling wheels with a gap between adjacent rolling wheels; the rolling wheels are multiple, when the rolling wheels are matched with the static guide piece 21, the clamping effect on the moving section 31 is better, the operation is more stable, gaps are formed between the adjacent rolling wheels, collision between the rolling wheels is avoided, and the safety in use is improved.

With reference to fig. 2, the present application also provides another embodiment of the moving guide 22, which is different from the above embodiment in that the moving guide 22 includes an upper shoe guide 221 and a lower shoe guide 222 arranged from top to bottom, and the upper shoe guide 221 or the lower shoe guide 222 is in sliding contact with the moving section 31; one of the upper shoe guide 221 and the lower shoe guide 222 moves along the guide rail, and the upper shoe guide 221 and the lower shoe guide 222 can be continuously replaced, so that the wear speed of the upper shoe guide 221 and the lower shoe guide 222 is reduced, and the service life of the moving guide 22 is prolonged.

Before the home elevator runs, the upper shoe guide 221 and the lower shoe guide 222 are in contact with the guide rail, the upper shoe guide 221 and the lower shoe guide 222 form a V-shaped structure, the connection part of the upper shoe guide 221 and the lower shoe guide 222 is rotatably connected with the shoe guide 1, when the home elevator moves upwards, the upper shoe guide 221 and the lower shoe guide 222 rotate under the action of force, so that the upper shoe guide 221 is tightly attached to the guide rail, the upper shoe guide 221 initially contacts with the guide rail and reacts more rapidly, the lower shoe guide 222 forms a gap with the guide rail, the contact surface of the upper shoe guide 221 is the surface of the upper shoe guide 222, when the home elevator moves downwards, the upper shoe guide 221 and the lower shoe guide 222 rotate in opposite directions under the action of force, so that the lower shoe guide 222 is tightly attached to the guide rail, the upper shoe guide 221 forms a gap with the guide rail, the contact surface of the guide rail is the surface of the lower shoe guide rail 222, and the upward or downward movement of the elevator by one floor is a cycle, for the home elevator having more than two floors, the upper shoe 221 or the lower shoe 222 is always in contact with the guide rail when continuously moving up or down, and accordingly, the upper shoe 221 or the lower shoe 222 is continuously in contact with the guide rail for two or more periods.

The present application also provides another example of the moving guide 22, which is different from the above two embodiments in that the moving guide 22 includes a second front shoe guide 2 and a second rear shoe guide 2 which are horizontally arranged, the second front shoe guide 2 and the second rear shoe guide 2 can rotate around a midpoint of a connecting line thereof, wherein the second front shoe guide 2 and the second rear shoe guide 2 are in a fixed state while the moving guide 22 slides along the guide rail, and one of the second front shoe guide 2 and the second rear shoe guide 2 is in contact with the guide rail, and after using for a while, the moving guide 22 can be rotated to exchange the positions of the second front shoe guide 2 and the second rear shoe guide 2, wherein the time between exchanging the positions of the second front shoe guide 2 and the second rear shoe guide 2 is one cycle, and the one cycle can be selected according to actual circumstances, for example, it can be exchanged once for a week, or exchanged once a month.

Next, the moving guide rolling device will be described in detail as an example.

The static guide piece 21 comprises a mounting part arranged on the guide shoe base 1 and a guide part arranged on the mounting part, and a moving channel for the moving section 31 to pass through is formed between the guide part and the moving guide piece 22; when the car moves, the moving channel formed between the guide part and the moving guide piece 22 moves along the moving section 31, and the guide part and the moving guide piece 22 clamp the moving section 31 positioned on the moving channel, so that the car is prevented from shaking when moving, and the running is stable.

Preferably, the guide part is of an L-shaped structure; simple structure and convenient processing.

For the household elevator, most of the running speed and the load capacity of the household elevator are less than those of a common passenger elevator, so that the friction between the shoe linings 2 and the guide rails is reduced by the mode that the static guide piece 21 slides and the movable guide piece 22 rolls without influencing the normal use of the household elevator, the service life of the shoe linings 2 is prolonged, meanwhile, the shoe linings 2 are prevented from being seriously worn and being loosened from the guide rails, the car is enabled to rock, meanwhile, the noise generated during the operation of the elevator is weakened due to the small friction and the stability during use, and the maintenance frequency of a user is greatly reduced.

The car comprises a car door, the distance of the moving guide 22 from the car door being smaller than the distance of the stationary guide 21 from the car door; when a user enters the car through the car door, the user firstly steps on the first half section in the car, the size of the car of the household elevator is small, the number of crossed floors is small, and the user only needs to wait for a short time to reach a target floor after stepping on the car, so that the user can move to the car door for getting off the elevator conveniently, the car slightly shifts forwards due to the shift of the gravity center in the process of just stepping on the elevator and moving to the car door, the relative position of the movable guide 22 is close to the car door, and after the shift, the contact between the movable guide 22 and the movable section 31 is tighter, but the abrasion of the movable guide 22 can be reduced due to the rolling contact of the movable guide 22 and the T-shaped guide rail 3, the stationary guide 21 is also protected, and the service life of the guide shoe is prolonged.

When the household elevator is assembled, the elevator car is fixed on a T-shaped guide rail 3 through guide shoes, shoe bushes 2 are in contact with the T-shaped guide rail 3 to enable the elevator car to move up and down only along the guide rail, in order to keep balance, the number of the guide rails is two, the number of the guide shoes is also multiple, in order to correspond to the guide rail, the number of the guide shoes is usually set to be even, each guide rail corresponds to half of the guide shoes, the abrasion degrees of the shoe bushes 2 on two sides of the guide rail are different, after long-time use, the condition that one side is seriously abraded, and the other side is not abraded basically exists, the guide shoes still need to be replaced, and preferably, the shoe bushes 2 can be arranged by rotating 180 degrees around the center of a guide shoe seat 1; the abrasion of all parts of the shoe lining 2 is more uniform, and the problem that the normal use of the shoe lining 2 is influenced because only one side of the shoe lining 2 is seriously abraded due to uneven stress is avoided.

The guide shoes comprise an upper guide shoe and a lower guide shoe which are arranged from top to bottom, a first interval is formed between the static guide part 21 and the moving guide part 22 of the upper guide shoe, a second interval is formed between the static guide part 21 and the moving guide part 22 of the lower guide shoe, and the width of the first interval is smaller than that of the second interval; the distance between the stationary guide 21 and the moving guide 22 of the upper guide shoe is small, so that the clamping force of the stationary guide 21 and the moving guide 22 of the upper guide shoe on the moving section 31 is larger than the clamping force of the stationary guide 21 and the moving guide 22 of the lower guide shoe on the moving section 31, so that even if the car is shifted due to the change of the center of gravity, the upper guide shoe is clamped with the moving section 31, and the shifting distance of the car is reduced.

Wherein, for the shoe liner 2 composed of the stationary guide 21 and the moving guide 22, the shoe liner 2 is disposed in the middle area of the guide shoe 1, the shoe liner 2 is rotated 180 ° around the center of the guide shoe 1, that is, the positions of the stationary guide 21 and the moving guide 22 are changed, thereby reducing the wear rate of the shoe liner 2; it can be understood that, taking two identical guide shoes as an example, because the two guide shoes are arranged on two opposite sides of the car, the side of the two guide shoes with the higher wear degree of the shoe guide 2 is also different, and the positions of the two guide shoes can be integrally exchanged, so that the wear speed of the shoe guide 2 is reduced.

With reference to fig. 3, the guide shoe further includes a brush head 4 disposed on the guide shoe base 1, the brush head 4 having a brush surface moving along the guide rail; when the guide shoe moves, the brush head 4 correspondingly moves through the brush surface, in the moving process, the brush surface is in contact with the guide rail to clean the guide rail, dust and particles attached to the guide rail are removed, noise is reduced, meanwhile, abrasion of the shoe guide 2 due to impurities between the shoe guide 2 and the guide rail is avoided, the number of times of maintenance of a user is reduced, the brush head 4 can be arranged on the upper portion or the lower portion of the shoe guide 2, or the brush head 4 can be arranged on the upper portion or the lower portion of the shoe guide 2 to better achieve the cleaning effect.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. The utility model provides a home elevator lead boots, which characterized in that, home elevator includes the car and is located the T type guide rail of car both sides, the car bottom can with ground contact, the car both sides are provided with along the lead boots that T type guide rail removed, T type guide rail has the confession lead the removal section that boots removed, lead boots include with what the car is connected lead the shoe holder and set up in lead the shoe guide's shoe guide, the shoe guide is including being located the static guide and the removal guide of removal section both sides, the car is followed when T type guide rail removes, static guide with the car is static relatively, just the removal guide with the car produces relative movement.

2. Guide shoe for a home elevator according to claim 1, characterized in that the moving guide is in rolling contact with the guide rail.

3. The guide shoe of a home elevator according to claim 2, wherein the moving guide includes a plurality of vertically arranged rolling wheels with a gap between adjacent rolling wheels.

4. The guide shoe of a home elevator according to claim 1, wherein the moving guide includes an upper shoe guide and a lower shoe guide arranged from top to bottom, the upper shoe guide or the lower shoe guide being in sliding contact with the moving section.

5. The guide shoe of a home elevator according to claim 1, wherein the stationary guide member includes a mounting portion provided to the guide shoe base, and a guide portion provided to the mounting portion, the guide portion and the moving guide member forming a moving passage therebetween through which the moving section passes.

6. The guide shoe of a home elevator according to claim 5, wherein the guide portion has an L-shaped structure.

7. Guide shoe for a home elevator according to claim 1, characterized in that the car comprises a car door, the distance of the moving guide from the car door being smaller than the distance of the stationary guide from the car door.

8. The guide shoe of a home elevator according to claim 1, wherein the guide shoe comprises an upper guide shoe and a lower guide shoe arranged from top to bottom, the stationary guide and the moving guide of the upper guide shoe are formed with a first interval, the stationary guide and the moving guide of the lower guide shoe are formed with a second interval, and a width of the first interval is smaller than a width of the second interval.

9. The guide shoe of a home elevator according to claim 1, further comprising a brush head provided to the guide shoe base, the brush head having a brush face that moves along the moving section.

10. The guide shoe of a home elevator according to claim 1, wherein the shoe guide is rotatably disposed about the center of the guide shoe by 180 °.