The invention relates to a compensation guide for guiding a compensation element arranged between a counterweight frame and an elevator car of an elevator.
The invention further relates to a counterweight screen, traction elevator and method for supporting a compensation element of a traction elevator.
The field of the invention is defined more specifically in the preambles of the independent claims.
In high-rise buildings traction elevators need to be provided with compensation elements, such as a chains, ropes, cables or belts, which connect bottom parts of a counterweight and a car. The compensation element is hanging in an elevator shaft below the vertically movable counterweight and the car. Purpose of the compensation element is to counter-balance weight of suspension ropes. Since the compensation element may begin to swing, different compensation guides are developed. However, the known solutions have shown to contain some disadvantages.
An object of the invention is to provide a novel and improved compensation guide, counterweight screen, traction elevator and method for guiding a compensation element.
The compensation guide according to the invention is characterized by the characterizing features of the first independent apparatus claim.
The counterweight screen according to the invention is characterized by the characterizing features of the second independent apparatus claim.
The traction elevator according to the invention is characterized by the characterizing features of the third independent apparatus claim.
The method according to the invention is characterized by the characterizing features of the independent method claim.
An idea of the disclosed solution is that a compensation guide or guide device is mounted to a counterweight screen or guard at a pit of an elevator shaft. Furthermore, the compensation guide is allowed to move vertically relative to the fixedly mounted counterweight screen. The guide is configured to provide support for a loop portion of the compensation element hanging in the elevator shaft. Therefore, a guide opening, through which the loop portion passes, is directed horizontally. During normal operation of the elevator the compensation guide is located at its lower initial position at a bottom part of the screen and, in case there exist a so called buffer strike causing the compensation element to jump i.e. to move suddenly upwards, then the compensation guide moves in upward direction and continues providing proper support for the compensation element. Thus, the guide may be considered to be dynamically movable in vertical direction during the operation.
An advantage of the disclosed compensation guide is that the horizontal compensation guide provides the loop part of the compensation element with proper support in the normal elevator operation as well as in buffer strike situations. The guide is allowed to move vertically together with a horizontal portion of the loop of the compensation element. The guide is not located below the vertically moving counterweight, whereby no collision between the counterweight and the guide is possible when the counterweight strikes a buffer mounted at a counterweight movement space. Thus, there is no need to reserve redundant vertical clearance distance below the counterweight for preventing collisions, whereby height of the counterweight frame may be increased, which may provide several advantages for the design of the elevator. Due to the disclosed structure more options are available for designing space efficient low pit elevator configurations. When the disclosed solution allows increasing effective vertical dimensions of the counterweight assembly, it also allows to implement in a more versatile manner different materials for plates or tanks of the counterweight.
Since the compensation guide is supported to the fixedly mounted counterweight screen, the guide is well supported and its vertical movements have proper guidance.
A further advantage is that the structure is simple, inexpensive and durable.
Since the guide is supported to the counterweight guard and not to the buffer of the counterweight, there is no need use any specially designed buffers and support structures connected to them. Thereby, normal buffers with simpler structure and lower price can be implemented.
According to an embodiment, the disclosed compensation guide is supported only to the screen and requires no additional support means.
According to an embodiment, the disclosed compensator guide is mountable to any counterweight screen or guard. The screen may be made of metallic material, composite material, plastic material or any suitable material for providing proper guard and fulfilling set requirements. Further, the disclosed guide may be retrofittable to any existing screen. The screen may already comprise an opening at a bottom part of the screen whereby it is relatively easy to mount the guide to the opening. In case not vertical opening exist, it is easy to cut the opening by means of normal tools.
According to an embodiment, the guide is freely movable in vertical direction. The guide simply follows movement of the loop part of the compensation element in case of a buffer strike.
According to an embodiment, the guide is freely movable in the vertical direction along a vertical movement range due to the bearing elements whereby the bearing elements provide the guide with a floating mounting relative to the supporting structure.
According to an embodiment, the guide has two part form comprising two halves connectable to each other. In other words, the structure of the guide can be opened in order to facilitate the mounting. The guide can be opened, arranged around the compensation element and finally reassembled.
According to an embodiment, the guide comprise more than two parts connectable to each other. In other words, the structure of the guide can be assembled of three, four, or even more components in order to facilitate the mounting. The guide can be opened, arranged around the compensation element and finally reassembled.
According to an embodiment, the bearing elements of the guide comprise slide surfaces on opposite vertical sides of the body. Slide bearing provides simple, reliable and inexpensive bearing for the guide.
According to an embodiment, the body is provided with removable slide bearing elements. Then the slide bearing elements can be manufactured separately and desired slide bearing materials can be used. The bearing elements may also be changed later on if needed.
According to an embodiment, both slide bearing element comprise a groove configure to receive an edge portion of a plate like support structure. Then, inner sides of the groove as well as a bottom of the groove are part of the slide bearing element.
According to an embodiment, the slide surfaces are made of slide bearing plastic material, such as polyamide (nylon), polyether ether ketone (PEEK), polyacetal (POM) or polyethylene.
According to an embodiment, the bearing elements of the guide comprise bearing rollers on opposite vertical sides of the body. There may be side rollers facing towards side surfaces of the edge portion, edge rollers facing towards the edges of the opening.
According to an embodiment, the guide comprises a bearing arrangement which is a combination of a slide bearing solution and a bearing roller solution. In other words, different bearing solutions can be utilized in versatile manner.
According to an embodiment, an opening at a bottom part of the screen is provided with vertical slide elements or corresponding vertical bearing or guiding bars. Further, the guide or support bars may reinforce the edge portions of the opening.
According to an embodiment, an opening at a bottom part of the screen is provided with a frame element configured to frame the opening. The frame element may comprise bearing surfaces, Further, the frame element may reinforce the edge portions of the opening.
According to an embodiment, an edge portion of the horizontally directed opening of the guide is provided with slide bearing plastic material, such as polyamide (nylon), polyether ether ketone (PEEK), polyacetal (POM) or polyethylene. There may be a plastic bearing ring surrounding the opening. The plastic bearing ring or sleeve may facilitate movement of the compensation element relative to the guide due to lower friction, and it may also dampen possible noise caused by the compensation element.
According to an embodiment, the mentioned bearing ring may alternatively be made of metallic slide bearing material, such as slide bearing bronze.
According to an embodiment, the mentioned bearing ring may be one uniform piece or alternatively it may comprises two, three or even more pieces which are connectable to each other.
According to an embodiment, the solution relates to a counterweight screen which is mountable to a pit of an elevator shaft and is configured to serve as a partition wall for preventing objects to enter into a vertical movement space of a counterweight of a traction elevator. In other words, the counterweight screen is a protective safety cover. The screen comprises a panel having rectangular shape with two vertical side edges, a horizontal top edge and a horizontal bottom edge. The mentioned panel is provided with at least one longitudinal opening extending a distance from the bottom edge towards the top edge. Further, the screen is provided with at least compensating guide mounted vertically movably to the mentioned opening. The mentioned compensation guide is in accordance with the features disclosed in this document.
According to an embodiment, the screen may be made of metallic, plastic or composite material, for example.
According to an embodiment, the screen is a planar object.
According to an embodiment, the screen may be transparent or it may be mesh like object provided with openings.
According to an embodiment, the longitudinal edges of the opening of the screen are configured to provide support for the guide.
According to an embodiment, the guide comprises grooves facing towards the vertical edges of the longitudinal opening. The grooves provide the guide with proper support and guidance.
According to an embodiment, the disclosed solution relates to a traction elevator comprising: a car assembly provided with an elevator car; a counterweight assembly provided with a counterweight frame and at least one filler element; a first guide assembly provided with first vertical guide rails mountable to the elevator shaft and first guide shoes mountable to the car assembly, and correspondingly a second guide assembly provided with second vertical guide rails and second guide shoes for the counterweight frame and wherein the mentioned guide shoes are supportable against the guide rails; a hoisting machinery comprising an electric motor and a traction sheave driven by means of the electric motor; at least one suspension rope connecting the car assembly and the counterweight assembly and arranged to pass over the traction sheave; at least one compensation element arranged between bottom parts of the counterweight assembly and the car assembly and comprising vertically hanging two vertical parts in the elevator shaft and a loop part connecting the vertical parts; at least one compensation guide for providing support for the compensation element and comprising at least one guide opening through which the compensation element is arranged to pass; a counterweight screen arranged at a pit of the elevator shaft and configured to serve as a guard structure preventing objects entering on movement path of the counterweight assembly. Furthermore, the compensation guide is arranged at the mentioned loop portion of the compensation element whereby the compensation element is configured to be guided through a horizontally directed guide opening of the guide. The guide and the screen are in accordance with the features disclosed in this document.
According to an embodiment, the counterweight screen divides a bottom part of the pit into a counterweight space and a car space and to thereby serve as a guard structure between the spaces. The screen can be mounted to the above mentioned second vertical guide rails arranged for the counterweight frame. Alternatively, the screen can be mounted to walls of the pit.
According to an embodiment, the disclosed solution relates to a method for providing guidance for a compensation element of a traction elevator. The compensation element is arranged between bottom parts of a counterweight assembly and a car assembly of the elevator and comprises vertically hanging two vertical parts in an elevator shaft and a loop part connecting the vertical parts. The method comprises directing the loop part of the compensation element through a horizontally directed guide opening of at least one compensation guide.
According to an embodiment, the method further comprises supporting the compensation guide vertically movably to a counterweight screen of the elevator.
According to an embodiment, the method further comprises providing the horizontal compensation guide with a floating mounting and allowing it to move vertically upwards from its initial normal position. The guide moves along with the compensation element.
According to an embodiment, the method further comprises allowing the compensation guide to move vertically upwards in situation when the counterweight assembly is moved against a buffer whose vertical length is configured to shorten due to a buffer strike.
According to an embodiment, the disclosed solution comprises at least one detecting device, sensor or measuring device mounted in connection with the compensation guide or the screen to sense movements of the guide. Generated sensing data is transmitted to at least one control unit or electrical terminal device configured to control or monitor operation of the elevator.
According to an embodiment, the disclosed solution comprises at least one spring element arranged in connection with the compensation guide. The spring element may be an elastic element or a mechanical spring. The spring element may keep the guide element in a desired vertical position in normal operational situations and allow the guide to move in special situations. The spring element or several elements affecting vertical movements of the guide may be arranged between the guide and the screen, or between the guide and a bottom surface of the pit.
According to an embodiment, the disclosed solution comprises at least one damper, damper element or damper device arranged in connection with the compensation guide. The damper is configured to dampen possible vibrations in the compensation guide. The damper of the guide may be arranged between the guide and the screen, or between the guide and a bottom surface of the pit.
According to an embodiment, weight by volume of the counterweight may be lower since volume of counterweight assembly may be greater than before. This way the greater volume allows use of lower priced filler materials. Filler pieces or plates made of material having lower specific weight are also easier and safer to handle when being loaded on load supporting frame of the counterweight assembly. The mentioned greater volume of the counter weight is possible since the counterweight can be dimensioned to extend greater distance in lower direction since there is no risk of collision between the counterweight assembly and the guide.
The above disclosed embodiments may be combined in order to form suitable solutions having those of the above features that are needed.
Some embodiments are described in more detail in the accompanying drawings, in which
For the sake of clarity, the figures show some embodiments of the disclosed solution in a simplified manner. In the figures, like reference numerals identify like elements.
A counterweight assembly 4 comprises a counterweight frame 15 and filler elements 23. The frame 15 is supported to the elevator shaft 2 by means of a second guide assembly 24 comprising second vertical guide rails 25 and second guide shoes 26. Also the counterweight assembly 4 may be provided with breaking shoes 27 for decelerating movement of the counterweigh assembly 4.
In
Between the screen 30, or bottom surface, there may be a spring element 48 and a damper 49 which both have effect on vertical movements of the guide 31. Transmission elements 50 have shown in a simplified manner. However, the transmission elements may comprise wire ropes, bars or any other suitable elements.
The drawings and the related description are only intended to illustrate the idea of the invention. In its details, the invention may vary within the scope of the claims.
Number | Date | Country | Kind |
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20172299.8 | Apr 2020 | EP | regional |