RU2543446C2 - Device for prevention of elevator rope deflection - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed invention relates to device for prevention of elevator rope deflection. The device contains plate (8) for rope engagement, rotating unit, holder (3) for switch mounting and base frame of the said rotating unit. The mentioned rotating unit is suspended under the mentioned plate (8) to engage rope by means of the mentioned base frame of rotating unit, and emergency switch (4) is suspended under the mentioned plate (8) to engage rope by means of the holder (3) for switch mounting. In this structure, the base frame of rotating unit contains immovable plate (6) and resilient support. One end of the mentioned immovable supporting plate (6) is rigidly connected with the mentioned plate (8) for rope engagement, and its other end is hinged on rotating unit (2) by means of articulated pivot (7). The mentioned resilient support contains threaded rod (1) and compression spring (5), enveloping the mentioned threaded rod. When pressure is applied to rotating unit to provide its rotation around articulated pivot the compression plate applies pressure to movable contact of emergency switch (4).

EFFECT: device is able to automatically switch off power supply for elevator stopping caused by steel rope tearing when elevator cabin is moving to provide safety of elevator operation.

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Description

Technical field

The invention relates to a device that prevents the sagging of the elevator rope and is a protective device designed to stop the elevator in case of weakening or accidental rupture of the steel rope. In General, the present invention relates to the field of technology related to the safety of elevators.

State of the art

It is impossible to detect signs that a steel rope of a super-high-speed elevator loosened or ruptured during its movement, if the shaft is closed, which can subsequently lead to emergencies and even irreversible losses. Thus, there is a need to develop a protective device that allows you to quickly respond to deviations in the operation of the elevator, for example to weaken the steel rope, and ensuring the elevator stops.

Disclosure of invention

Given the disadvantages of the devices known from the prior art, the present invention proposes a device for preventing sagging of the elevator rope, which allows you to quickly respond to deviations in the operation of the elevator, for example to weaken the steel rope, and stop the elevator.

To solve the above problem in the invention, the following technical solutions are used.

The proposed device for preventing sagging of the elevator rope contains a plate for engaging the rope, and under the specified plate for engaging the rope, a rotating assembly is suspended by the supporting frame of the rotating assembly and an emergency switch is fixed by means of a holder for mounting the switch. Said carrier frame of the rotating assembly comprises a fixed support plate and an elastic supporting strut, one end of said fixed supporting plate being rigidly connected to said plate to engage the rope, and the other end is pivotally fixed to the rotating assembly via a hinge axis. The specified elastic support column contains a threaded rod and a pressure spring covering the threaded rod. One end of said threaded rod passes through a through hole provided in the rotating assembly and is connected to the restrictive nut by means of a thread, and its other end passes through the plate for engaging the rope. The threaded rod between the plate for engaging the rope and the rotating assembly is connected to the clamping nut by means of a thread. The compression spring is precompressed between the restrictive and clamping nuts. In this case, the threaded rod is located between the fixed support plate and the holder for mounting the switch. In the case of applying pressure to the rotating unit to ensure its rotation around the hinge axis, the pressure plate presses on the movable contact of the emergency switch.

The specified elastic support column is located on the axial line of the rotating unit, and the fixed supporting plate and the specified pressure plate are located symmetrically on both sides of the rotating unit.

The through hole provided in the rotating assembly has a narrowing in the middle part.

The rotating assembly comprises a rotating shaft and two connecting plates connected to two ends of the rotating shaft, with each connecting plate being supported in the central part by an elastic support post. In this case, one end of each connecting plate is pivotally mounted on a fixed support plate rigidly connected to the specified plate for meshing the rope. Fixed base plates connected to two connecting plates are located on one side of the rotating shaft. While the specified pressure plate is located on the connecting plate, and the clamping nut is located above the connecting plate, while the elastic element is compressed between the connecting plate and the restrictive nut.

Fixed base plates mounted on two connecting plates are mounted on the same line.

The lower end of the fixed support plate is located and secured to the connecting plate by means of a hinge axis, and the upper end of the fixed support plate by means of a threaded fastener is rigidly connected to the plate to engage the rope.

The connecting plate has an L-shaped cross-section, with a rope mesh supporting frame fixed to its horizontal end, and the vertical end of the plate being connected to the rotating shaft.

The horizontal end of the L-shaped connection plate is a pressure plate, and the movable contact of the emergency switch is located under the horizontal end of the L-shaped connection plate.

The technical solution described above provides the following advantages.

Since, according to the present invention, the supporting frame of the rotating assembly comprises a fixed support plate and an elastic supporting strut, the lower end of the spring in the meshing unit of the steel rope passes through the plate for meshing of the rope and, in the normal state of the steel elevator ropes, is above the rotating shaft, i.e. the rotating shaft does not experience pressure . In the case of weakening or rupture of the steel rope, the lower end of the spring in the meshing unit of the steel rope, passing through the plate for meshing the rope, creates pressure on the rotating shaft, that is, the downward force acts on the said shaft, and the elastic element of the specified elastic support strut begins to compress. As a result, the rotating shaft overcomes the elastic force created by the pressure spring and rotates. In this case, the horizontal end of the L-shaped connecting plate will come into contact with the movable contact of the emergency switch and, thereby, will lead to a power outage and stop the elevator. Note also that the resilient member described in the present invention is compressed between the restriction nut and the connecting plate by means of a clamping nut. As a result, by adjusting the clamping nut, it is possible to conveniently and easily adjust the distance at which the emergency switch trips. Thus, as can be seen from the above description, although the device disclosed in the present invention has a simple design, it allows you to quickly respond to emergency situations in the elevator associated with breakage or weakening of the steel rope, and take effective responses, in particular, automatically turn off power supply to stop the elevator. Due to this, it is possible to avoid collisions caused by the breakage of the steel rope during the operation of the elevator, to ensure the safe operation of the elevator and to improve the quality of the elevator. The present invention has a low cost and can significantly increase the competitiveness of products on the market.

Brief Description of the Drawings

Figure 1 schematically shows the design of the proposed device.

Figure 2 schematically illustrates how the proposed device is installed in the elevator.

In figures 1 and 2, the position numbers denote the following components: 1 - threaded rod, 2 - rotating assembly, 21 - rotating shaft, 22 - connecting plate, 3 - holder for mounting the switch, 4 - emergency switch, 5 - pressure spring, 6 - fixed support plate, 7 - hinge axis, 8 - plate for wire meshing.

The implementation of the invention

Schematically depicted in the drawings, a preferred embodiment of the present invention does not limit the scope of the invention. The following is a detailed description of the present invention with reference to the accompanying drawings.

As shown in figures 1 and 2, the proposed device for preventing sagging of the elevator rope contains a plate 8 for engaging the rope, a rotating unit 2, suspended under the specified plate 8 by the supporting frame of the rotating node, and an emergency switch 4, suspended under the specified plate 8 by means of a holder 3 for mounting the switch. The carrier frame of the rotating assembly comprises a fixed support plate 6 and an elastic support strut. At the same time, one end of the said fixed support plate 6 is rigidly connected to the specified plate 8 to engage the rope, and the other is pivotally attached to the rotating unit 2 by the hinge axis 7. The specified elastic support column contains a threaded rod 1 and a compression spring 5 covering this threaded rod . In this case, one end of the threaded rod 1 passes through the through hole provided in the indicated rotating unit 2, and is connected to the restrictive nut by the thread, and the other end passes through the specified plate 8 to engage the rope. Between the specified plate for engaging the rope and the rotating assembly, the threaded rod 1 is connected to the clamping nut by means of a thread. The pressure spring 5 is precompressed between the specified restrictive and clamping nuts. In addition, a threaded rod 1 is located between the fixed support plate 6 and the holder 3 for mounting the switch. The pressure plate presses on the movable contact of the emergency switch 4 when pressure is applied to the rotating unit 2 to ensure its rotation around the hinge axis 7, while the emergency switch is a switch with normally closed contacts. In fact, in order to ensure that the rotating assembly 2 can be pressed to rotate around the hinge axis 7 so that the pressure plate can act on the emergency switch 4 to break the elevator control circuit, thus providing a timely response to the fact that pressure is applied to the rotating node 2, and at the same time, in order to ensure the normal operation of steel ropes, the specified elastic support column must have a predetermined tension to effectively maintain the rotation node 2 and prevent the incorrect action of this node, that is, to eliminate false positives of the pressure plate. To do this, the specified elastic support column is preferably located on the axial line of the rotating unit 2, and the specified fixed support plate 6 and the specified pressure plate are located symmetrically on both sides of the rotating unit 2. This arrangement provides a strong and reliable installation of the plate 8 for engaging the rope, as well as stable rotational downward movement of the rotating shaft 21 under the action of the lower end of the spring of the meshing unit of the steel rope when the rope breaks. The rotating assembly 2 includes a rotating shaft 21 and two connecting plates 22 connected to the ends of said shaft 21. Moreover, each connecting plate is respectively supported in the central part by an elastic support post. One end of each connecting plate 22 is pivotally mounted on a fixed support plate rigidly attached to the plate 8 to engage the rope. In this case, the fixed support plates 6 mounted on the two connecting plates 22 are located on one side of the rotary shaft 21. In addition, a pressure plate is installed on the connecting plate 22, that is, the pressure plate and the fixed support plate 6 are mounted on the connecting plate 22 with two sides of the rotating shaft 21, respectively. The upper end of the threaded rod 1 passes through the plate 8 for engaging the rope and is left free, and the lower end of the rod 1 passes through the connecting plate 22 and is further connected to the restrictive nut. The elastic element is sandwiched between the restrictive nut and the connecting plate 22 by means of a clamping nut screwed on a threaded rod 1 above the connecting plate 22. In this case, the fixed support plates 6, mounted on two connecting plates 22, are located on the same line. The connecting plate 22 has an L-shaped cross-section, with a rope mesh supporting frame mounted on its horizontal end and a vertical end connected to the rotating shaft 21. The horizontal end of the L-shaped connecting plate 22 acts as a pressure plate, with the movable contact of the emergency switch 4 is located under the horizontal end of the connecting plate 22. The lower end of the fixed support plate 6 is located and secured to the connecting plate 22 by the hinge axis 7, and hny end fixed supporting plate 6 by means of threaded fastening element is rigidly connected to the plate 8 for engaging the rope.

As can be seen from the above description, by means of a set of a clamping nut, a restrictive nut and a compression spring 5, in the present invention, it is possible to obtain a device for increasing the preload, which can be adjusted depending on the current installation conditions, which helps to prevent the elevator from working incorrectly during its movement with high speed. In the case of sagging or breaking of the steel rope, the spring in the rope engagement unit presses on the shaft 21, which leads to the rotation of the connecting plate 22 around the hinge axis 7 and its effect on the emergency switch 4 to stop the elevator. In addition to the above, it should be noted that the design of the device is simple, reliable, has a low cost and is suitable for widespread use.

In addition, to ensure the sensitivity of the rotational motion of the proposed device, the through hole in the connecting plate 22 for the threaded rod 1 is made with narrowing in the middle part. Thus, when pressure is applied to the rotating shaft, the rotating assembly rotates and its part, located on the opposite side from the fixed base plate, presses the emergency switch, causing it to quickly operate to stop the elevator.

Claims (7)

1. A device for preventing sagging of the elevator rope, comprising a plate for engaging the rope, wherein under the said plate for engaging the rope a rotating assembly is suspended by a supporting frame of the rotating assembly and an emergency switch is fixed by means of a holder for fixing the switch; wherein the supporting frame of the rotating assembly comprises a fixed support plate and an elastic supporting strut, with one end of said fixed supporting plate being rigidly connected to said plate to engage the rope, and the other end is pivotally fixed to the rotating assembly via an articulated axis; moreover, the specified elastic support column contains a threaded rod and a pressure spring covering the specified threaded rod; moreover, one end of the threaded rod passes through the through hole provided in the rotating unit, and is connected to the restrictive nut by means of a thread, and its other end passes through the specified plate to engage the rope; wherein the threaded rod between the plate for engaging the rope and the rotating assembly is connected to the clamping nut by means of a thread; moreover, the compression spring is precompressed between the restrictive and clamping nuts; wherein the threaded rod is located between the fixed support plate and the holder for mounting the switch; in the case of applying pressure to the rotating unit to ensure its rotation around the hinge axis, the pressure plate presses on the movable contact of the emergency switch. 2. The device for preventing sagging of the elevator rope according to claim 1, in which the elastic support column is located on the axial line of the rotating unit, and the fixed supporting plate and the specified pressure plate are located symmetrically on both sides of the rotating unit. 3. The device for preventing sagging of the elevator rope according to claim 2, in which the through hole provided in the rotating unit has a narrowing in the middle part. 4. The device for preventing sagging of the elevator rope according to claim 2 or 3, in which the rotating assembly comprises a rotating shaft and two connecting plates connected to two ends of the rotating shaft, each connecting plate being supported in the central part by an elastic support column, with one end each connecting plate is pivotally mounted on a fixed support plate rigidly mounted on the specified plate to engage the rope; wherein the fixed support plates connected to the two connecting plates are located on one side of the rotating shaft; wherein said pressure plate is located on the connection plate, wherein the pressure nut is located above the connection plate, wherein the elastic member is compressed between the connection plate and the restriction nut. 5. The device for preventing sagging of the elevator rope according to claim 4, in which the fixed support plates mounted on two connecting plates are installed on the same line. 6. The device for preventing sagging of the elevator rope according to claim 1, in which the lower end of the fixed support plate is located and secured to the connecting plate by a hinge axis, and the upper end of the fixed support plate by means of a threaded fastener is rigidly connected to the plate to engage the rope. 7. The device for preventing sagging of the elevator rope according to claim 6, in which the connecting plate has an L-shaped cross-section, with a rope engagement supporting frame fixed to its horizontal end and the vertical end of the plate connected to a rotating shaft; moreover, the horizontal end of the L-shaped connecting plate is a pressure plate, and the movable contact of the emergency switch is located under the horizontal end of the L-shaped connecting plate.

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