阅读说明：本技术 电梯补偿绳防护装置 (Elevator compensation rope protector ) 是由 K·权 于 2020-12-02 设计创作，主要内容包括：本发明涉及电梯补偿绳防护装置。一种电梯补偿组件的说明性的示例性实施例包括具有构造成接合多个补偿绳部件的外表面的至少一个补偿绳轮。防护装置具有定位成与补偿绳轮的外表面相邻的内表面。多个分隔件远离补偿绳轮的外表面或防护装置的内表面中的至少一个而延伸。分隔件在分隔件中的相邻的分隔件之间建立用于容纳补偿绳部件的空间。(The invention relates to an elevator compensating rope protection device. An illustrative exemplary embodiment of an elevator compensation assembly includes at least one compensation sheave having an outer surface configured to engage a plurality of compensation rope members. The guard has an inner surface positioned adjacent to the outer surface of the compensating sheave. A plurality of spacers extend away from at least one of an outer surface of the compensating sheave or an inner surface of the guard. The partitions establish spaces for accommodating the compensating rope members between adjacent ones of the partitions.)

1. An elevator compensation assembly comprising:

at least one compensating sheave having an outer surface configured to engage the plurality of compensating rope members;

a guard having an inner surface positioned adjacent to the outer surface of the compensation sheave; and

a plurality of dividers extending away from at least one of the outer surface of the compensation sheave or the inner surface of the guard, the dividers establishing spaces between adjacent ones of the dividers for receiving a compensation rope member.

2. The elevator compensation assembly of claim 1, wherein the spacers each comprise a flange on the outer surface of the at least one compensation sheave.

3. The elevator compensation assembly of claim 2, wherein the dividers each include a rib on the inner surface of the guard.

4. The elevator compensation assembly of claim 2, wherein the dividers each include a groove on the inner surface of the guard.

5. The elevator compensation assembly of claim 2, comprising a plurality of compensation rope members received on the outer surface of the compensation sheave, and wherein,

the flange extends from the outer surface of the compensating sheave a distance corresponding to at least half the thickness of the compensating rope element.

6. The elevator compensation assembly of claim 1, wherein the dividers each include a rib on the inner surface of the guard.

7. The elevator compensation assembly of claim 1, wherein the dividers each include a groove on the inner surface of the guard.

8. An elevator system comprising an elevator car, a counterweight, a plurality of compensating rope members coupled to the elevator car and the counterweight, each received in the space between adjacent ones of the dividers, and the compensating assembly of claim 1.

9. The elevator system of claim 8, wherein the compensation sheave includes a plurality of grooves on an exterior of the compensation sheave, and wherein the compensation rope members are respectively received in the grooves.

10. A method of controlling the position of elevator compensating rope members, the method comprising placing compensating rope members within each of the spaces of an elevator compensating assembly according to claim 1.

Technical Field

The invention relates to an elevator compensating rope protection device.

Background

Elevator systems are useful for transporting passengers and items between different floors of a building. Many elevator systems are traction-based and include a traction rope that suspends an elevator car and a counterweight. The machine causes movement of a traction sheave, which in turn causes movement of the traction ropes for moving the elevator car as desired. One feature of a traction-based elevator system is a compensating assembly that includes a compensating rope suspended below the car and counterweight and a restraining mechanism near the bottom of the hoistway. The compensation assembly facilitates maintaining an appropriate tension on the pull-cord to achieve a desired tractive effort.

Some elevator systems are susceptible to rope sway. For example, in high-rise buildings, which may experience building sway, the hoist and compensation ropes may sway laterally at high amplitudes. The compensating rope sheave typically comprises grooves that restrain the compensating ropes, however, in certain situations such swaying may cause one or several of the compensating ropes to jump out of its groove. The jumping compensating ropes can become tangled with other compensating ropes during movement of the elevator car, which requires maintenance by maintenance personnel.

Disclosure of Invention

An illustrative exemplary embodiment of an elevator compensation assembly includes at least one compensation sheave having an outer surface configured to engage a plurality of compensation rope members. The guard has an inner surface positioned adjacent to the outer surface of the compensating sheave. A plurality of spacers extend away from at least one of an outer surface of the compensating sheave or an inner surface of the guard. The partitions establish spaces for accommodating the compensating rope members between adjacent ones of the partitions.

In an exemplary embodiment having at least one feature of the elevator compensation assembly of the preceding paragraph, the spacers each include a flange on an outer surface of the at least one compensation sheave.

In an exemplary embodiment having at least one feature of the elevator compensation assembly of any of the preceding paragraphs, the dividers each include a rib on an inner surface of the guard.

In an exemplary embodiment having at least one feature of the elevator compensation assembly of any of the preceding paragraphs, the dividers each include a groove on an inner surface of the guard.

An exemplary embodiment having at least one feature of the elevator compensation assembly of any of the preceding paragraphs includes a plurality of compensation rope elements received on an outer surface of the compensation sheave, and the flange extends from the outer surface of the compensation sheave a distance corresponding to at least half the thickness of the compensation rope elements.

In an exemplary embodiment having at least one feature of the elevator compensation assembly of any of the preceding paragraphs, the dividers each include a rib on an inner surface of the guard.

In an exemplary embodiment having at least one feature of the elevator compensation assembly of any of the preceding paragraphs, the dividers each include a groove on an inner surface of the guard.

An illustrative example embodiment of an elevator system includes an elevator car, a counterweight, the compensating assembly of any of the preceding paragraphs, and a plurality of compensating rope members coupled to the elevator car and the counterweight, the plurality of compensating rope members each being received in a space between adjacent ones of the partitions.

In an embodiment having at least one feature of the system of the previous paragraph, the compensation sheave comprises a plurality of grooves on an outer portion of the compensation sheave, and the compensation rope members are respectively received in the grooves.

An illustrative example embodiment of a method of controlling the position of an elevator compensating rope assembly includes placing a compensating rope assembly within each of the spaces of the elevator compensating assembly of any of the preceding paragraphs.

The various features and advantages of at least one of the disclosed exemplary embodiments will become apparent to those skilled in the art from the following detailed description. The drawings that accompany the detailed description can be briefly described as follows.

Drawings

Fig. 1 schematically illustrates selected portions of an elevator system.

Fig. 2 is a cross-sectional illustration taken along line 2-2 in fig. 1 showing selected portions of an exemplary elevator compensation assembly.

FIG. 3 is an enlarged view of the portion of FIG. 2 circled at 3, schematically illustrating the portion of the exemplary compensating rope guard configuration.

FIG. 4 schematically illustrates another example compensating rope guard configuration.

Detailed Description

Fig. 1 schematically illustrates selected portions of an elevator system 20. The elevator car 22 is coupled to a counterweight 24 by a traction rope 26. Although not shown in detail, the pull-cord 26 includes a plurality of tension members, such as circular cords or flat belts. The pull-cord 26 follows a path defined at least in part by a sheave 30 and a sheave 32. Sheave 30 is a traction sheave associated with machine 34, machine 34 selectively causing movement of traction ropes 26 to control movement and position of elevator car 22 for providing elevator service to passengers.

The elevator system 20 includes a compensation assembly 40, the compensation assembly 40 facilitating maintaining sufficient tension on the traction ropes 26 to achieve a desired traction force in a variety of elevator system conditions. The compensating assembly 40 includes a compensating rope member 42 suspended below the elevator car 22 and counterweight 24. The compensating rope element 42 follows a path at least partly defined by a compensating sheave 44, which compensating sheave 44 is supported as part of a roping mechanism 46. The guard 50 is positioned to hold the compensating rope element 42 in place over the compensating sheave 44.

Fig. 2 and 3 schematically illustrate selected portions of an exemplary compensation assembly 40. In this example, the plurality of compensating rope members 42 are individual circular ropes, for example, but other embodiments include chains or belts. Each of the compensating rope elements 42 is received in a corresponding groove 54 on each of the compensating sheaves 44. In the exemplary embodiment, the predetermined location of each of the compensation ropes 42 includes the portion of the compensation rope 42 wrapped around each of the compensation sheaves 44 being properly received within a corresponding one of the grooves 54.

The compensating sheaves 44 each include a plurality of flanges 56 adjacent the groove 54. The flange 56 is a sheave divider that divides the outer part of the compensating sheave 44 into a plurality of compensating rope member receiving spaces. The flange 56 differs from the groove 54 in that under normal or expected elevator system operating conditions, the compensating rope member 42 engages the groove 54, but does not contact the flange 56.

The flanges 56 provide a surface on each side of each of the compensating rope elements 42 that extends radially away from the outer surface of the compensating sheave 44 to at least partially establish a receiving space for each of the compensating rope elements 42. In the illustrated example configuration, the outer edge of the flange 56 is spaced further from the center of the compensation sheave 44 than the center of the roping member 42 is spaced from the center of the compensation sheave 44. In the illustrated exemplary embodiment, the flange 56 extends from the outer surface of the compensating sheave 44 along a radially oriented distance that is approximately equal to half the thickness of the compensating rope element 42.

The guard 50 comprises a metal bracket or plate that remains stationary relative to the compensating sheave 44. The guard 50 includes a plurality of dividers 58 aligned with the flanges 56. The spacing between the outermost edge of the flange 56 and the innermost edge of the partition 58 allows the compensation sheave 44 to rotate without any contact between the compensation sheave 44 and the guard 50.

The partitions 58 separate the respective spaces for each of the compensating rope members 42. The dividers 58 and the flanges 56 cooperate to form spaces within which the respective compensating rope members 42 are retained. The flange 56 and the spacer 58 effectively separate the compensating rope members 42 and prevent undesirable contact or tangling between the compensating rope members 42 even in significant rope sway conditions within the elevator system 20.

In the example of fig. 3, the divider 58 includes a rib or protrusion on the interior of the guard 50. The divider may be formed with the body or plate of the guard 50 or may be a separate piece that is secured in place to the body of the guard 50.

Fig. 4 shows another configuration of the guard 50. In this example, the inner surface of the guard 50 includes grooves 60, the grooves 60 facing each of the grooves 54 on the compensating sheave 44. The slot 60 accommodates movement of the compensating rope member 42 outwardly from the slot 54 and, together with the spacer or flange 56, serves to prevent any contact between the compensating rope member 42 and an adjacent one of the compensating rope members.

The spacer or flange 56 and the spacer 58 or groove 60 create a receiving space that restricts undesired movement of the compensating rope element relative to the compensating sheave 44.

While in the exemplary embodiment separate dividers 56, 58 are provided on the compensating sheave 44 and the guard 50, respectively, other embodiments include dividers located only on the sheave 44, and still other embodiments include dividers located only on the guard 50. One benefit of including a divider on both the sheave 44 and the guard 50 is that the divider is less long and therefore more structurally stable to resist deformation that might otherwise result from contact with an undesirably moving compensating rope member 42.

The illustrated and described exemplary embodiment provides protection against the compensating rope elements 42 becoming tangled with each other by preventing the compensating rope elements 42 from coming out of the corresponding grooves 54 on the compensating sheave 44 and contacting another of the compensating rope elements 42. The illustrated exemplary embodiment minimizes or eliminates possible complications that may otherwise occur due to such compensating rope sway or other movement outward from the predetermined position for compensating rope member 42.

The preceding description is exemplary rather than limiting in nature. Variations and modifications to the disclosed examples may become apparent to those skilled in the art that do not necessarily depart from the essence of this invention. The scope of legal protection given to this invention can only be determined by studying the following claims.