RU199644U1 - EMERGENCY SWITCH FOR LATING CURTAIN WINCH - Google Patents

Abstract

The utility model relates to the field of construction, and more precisely to the construction of a lifting door designed to cover large-sized openings of various buildings, mainly industrial premises, i.e. workshops for various purposes, warehouse hangars, sheds for storage, parking and repair of vehicles, for example, such as aircraft, sea and river vessels, etc. The essence of the utility model lies in the fact that an emergency stop switch for a lifting door containing a contact an element in the form of a roller, made in the form of a cylinder, interacting in a working position with a rope and mounted on an axle with the possibility of rotation, both ends of which are connected to a fragment of the structure by means of levers that ensure the movement of the contact element relative to the structure under the action of a spring with an adjustable stiffness connecting them, while one of the levers has the ability to interact with the limit switch for stopping the winch motor. The levers are mounted with the possibility of reciprocating movement in linear guides attached to a fragment of the structure, and springs are installed between the axis and the guide on the levers, each of which is connected with one end to the lever, and the other to the guide, while on a part of the lever adjacent to axis, a thread is made on which a nut is installed, to which the corresponding end of the spring is connected. The technical result of the utility model is that the part necessary to compensate for the gravity of the contact element and partly for the gravity of the broken rope is excluded from the calculated elastic force of the springs, thereby reducing the tension of the springs in working condition, which leads to an increase in the operational reliability of the emergency switch as a whole. A smooth change in the tension force of the springs allows you to optimize the load on them, which also leads to increased reliability. 2 ill.

Description

The utility model relates to the field of construction, or rather, to the construction of a lifting door designed to cover large openings of various buildings, mainly industrial premises, i.e. workshops for various purposes, warehouse hangars, sheds for storage, parking and repair of vehicles, such as aircraft, sea and river vessels, etc.

Known design of a lifting door, made in the form of a cloth curtain (curtain), for a structure in the form of a boathouse, intended to contain large objects, in particular, sea and air vehicles, for the purpose of preventive inspection and repair. The opening closed by the curtain is a rectangular surface with an area of hundreds of meters. The base of the curtain is made up of a pair of beams, the upper of which is load-bearing, fixed to the structure, and the lower one interacts with the base of the structure and carries a sealing agent and fixing mechanisms that connect it to this base. In addition, the lower beam is installed with the possibility of reciprocating movement relative to the upper supporting beam under the action and control of the drive, the basis of which is a rope winch with several drums, connected through a gearbox with an electric motor. Between both beams, the curtain itself is mounted, made of at least two canvases, interconnected by transverse flat trusses, evenly installed along the height of the canvases. In this case, the ends of the trusses are displaceable in vertically installed, side and common intermediate guide posts, the last of which is connected to the upper supporting beam by means of a hinge that ensures its movement in the direction perpendicular to the plane of the opening, while the side posts are rigidly knitted with the walls of the building ... Flat trusses, as a rule, are made of aluminum alloy to lighten the weight, while the belts of the trusses are equipped with a means of communication with fabric strips that form the curtain fabrics. It should be noted that each curtain fabric is associated with its own separate part of the lower beam, i.e. the latter is made of two parts [WWW.MEGADOR.COM].

As a rule, fabric curtains (curtain doors) designed to cover large-sized openings have a weight calculated in tons, and even tens of tons. In this regard, special requirements are imposed on the reliability and safety of operation of the rope drive for lifting and lowering the curtain. These qualities are largely ensured by the presence in the electric motor control system of the last switch from operation in the event of an emergency that occurs, most often, when the ropes of the lower beam lifting mechanism break.

The known design of the switch, described in WO 2008/048561, is designed to stop the drive of the cable winch for lifting the door, containing several drums installed on the upper supporting beam of the building. The basis of the switch is a contact element in the form of a metal rod, rigidly connected with a pair of side strips to a building element. The length of the rod is such that the rope has the ability to interact with it in any position relative to the drum only if it breaks or looses. Otherwise, in a non-emergency situation, the rope and the rod are located with a slight gap relative to each other. The rod is electrically isolated from the building elements and is included in the control circuit of the winch drive electric motor. In the event of a loosening or breaking of the cable, it contacts the rod, which causes a short circuit (ground) of the drive control circuit and leads to a stop of the electric motor.

The disadvantage of the switch described above is the complexity of its design, which is not predetermined by the mechanical part, but mainly by the electrical control circuit. In addition, an emergency situation with the drive is possible due to the "non-standard behavior" of the rope, in particular, when it looses or breaks, the rope bending can occur not in the direction of the rod, but in the opposite direction, i.e. From him. Even a slight pause in the contact between the rope and the rod can damage the electric door lift drive.

The analogue described in SU 130652 has a simpler and more reliable design in relation to the previous analogue. The indicated advantages are associated with the fact that the force of gravity or the intrinsic force of gravity of the contact element is used as a driving force in the switch. The design of the latter is formed by a pivot arm, pivotally connected to the fixed part of the structure, bearing at one end a contact element in the form of a roller interacting in the working position with a tensioned rope, and at the other end with a limit switch closed to the control system of the lifting drive of the actuator (grab) ... In an emergency, the lever with the roller under their combined gravity pivots counterclockwise downward, activating the limit switch and stopping the hoist drive.

The design of the switch according to SU 130652 is designed to work together with a device (grab), the working rope of which makes a longitudinal movement along its own axis, which determines the shape of the applied contact element made in the form of a roller, while the rope is analogous to WO 2008 \ 048561, in addition to longitudinal movement, it also has a transverse movement along the winch drum. It follows from this that, despite the obvious advantages, the switch according to RU 130652 cannot be used as a switch for a hoist winch, in particular, a curtain door.

The design of the switch according to RU 2646553 is intended for use in lifting curtain doors for covering large-sized openings containing an upper - fixed crossbar and a lower - movable, interconnected by means of a flexible curtain. The design of the circuit breaker is based on the combination of two technical solutions described in SU 130652 and WO 2008/048561. From the first, from the indicated patent sources, the gravitational principle of operation of the switch and the main design solution are borrowed - a pivot arm, carrying a contact element and connected to the structure, and also having the ability to interact with a rope and a limit switch. From the second source, the form of the contact element in the form of a frame is borrowed, formed from a rod, the ends of which are connected to the strips, hingedly connected to the structure.

The main disadvantage of this analogue is that in the event of a cable break near the lower crossbar or close to its middle, the part of the cable remaining on the drum will oppose the rotation of the frame until the horizontal component of the frame gravity acting on the cable overcomes the resistance from the weight free hanging cable, i.e. will not begin to move it to the side, making its own turn and then activating the limit switch. Inertial forces play a significant role in reducing the efficiency of the circuit breaker, which prevents the rapid acceleration of the frame. In this situation, the shutdown of the winch motor occurs much slower, which ultimately can lead to its failure due to irreversible disturbances caused by a sharp increase in electric current in the conductors of the stator coil winding.

To a large extent, the design of the circuit breaker, chosen as a prototype and described in RU 156808, is free from the disadvantages of the previous analogue and, first of all, due to its speed. The switch is intended for emergency stop of the motor of the rope winch of the roller shutter door. The base of the switch is a contact element in the form of a roller, made in the form of a cylinder, interacting in the working position with a rope and mounted on an axis with the possibility of rotation, the ends of which are connected to a fragment of the structure by means of levers that provide a vertical rotation of the contact element. At least one of the levers along the length is provided with through holes, one of which is caught by a coil spring, which is simultaneously connected to one of the fragments of the structure. The system of holes forms a means for adjusting the spring tension. The spring creates an upward pulling force on the frame, due to which the rod abuts against the rope, which in the working position has the shape of a stretched string. One of the levers has a kinematic connection with a limit switch fixed on the fragment of the structure and built into the electric circuit of the door lifting mechanism drive. In the event of an emergency, i.e. loosening or breaking of the rope, the contact element under the action of the spring, almost instantly, turns up and activates the limit switch with a lever, which will stop the door lifting motor.

The disadvantage of the prototype design is that when the circuit breaker is operating in an emergency mode, the elastic force of the spring is forced to overcome not only the gravity of the frame, but also the weight of the part of the broken rope remaining on the drum, directed in the opposite direction relative to the direction of the elastic force, significantly increasing the stress state of the spring , activating relaxation processes and, thus, reducing the reliability of its work. In addition, the means for regulating the tension of the spring provides a stepwise nature of the change in this force, which prevents the optimization of the value of the latter during its regulation.

Thus, the task of the utility model is to reduce the stress state of the spring, which is necessary to ensure reliable operation of the circuit breaker, and to obtain the possibility of smooth and optimal control of its elastic force.

The problem is solved due to the fact that in the switch for emergency stop of the lifting door, containing a contact element in the form of a roller, made in the form of a cylinder, interacting in the working position with a rope and mounted on an axis with the possibility of rotation, both ends of which are connected to a fragment of the structure with by means of levers that provide movement of the contact element relative to the structure under the action of a spring with an adjustable stiffness connecting them, while one of the levers has the ability to interact with the limit switch for stopping the winch motor. The levers are mounted with the possibility of reciprocating movement in linear guides attached to a fragment of the structure, and springs are installed between the axis and the guide on the levers, each of which is connected with one end to the lever and the other with the guide, while on the part of the lever adjacent to axis, a thread is made on which a nut is installed, with which the corresponding end of the spring is connected.

The technical result of the utility model is that from the calculated elastic force of the spring, its part necessary to compensate for the force of gravity of the contact element is excluded, thereby reducing the tension of the latter in working condition, which leads to an increase in its operational reliability. The fact that the contact element does not lift, but pushes the rope aside, which partially removes the load from the spring, works for the same result. A smooth change in the tension force of the spring allows you to optimize the load on it, which also leads to increased reliability.

The accompanying drawings show schematic general views of the circuit breaker in top view (Fig. 1) and in side view (Fig. 2). The emergency switch contains a contact element 1, which includes a cylindrical roller 2, constantly interacting with the rope 3 and mounted with the possibility of rotation on an axis 4. The latter, with its ends 5, is connected with the lugs 6 of the levers 7, which are placed at the other ends in linear guides 8 forming with the levers 7 a kinematic pair providing these levers with the possibility of reciprocating movement. The guides 8 are equipped with flanges 9, by means of which they are attached to one of the fragments of the building 10. On each lever 7 there is a spring 11 operating in tension. One end of each spring 11 is attached to the guide 8, and the other end to the lever 7. But not directly, but through a unit consisting of a nut 12 and an adapter 13, interconnected in such a way that when rotating and correspondingly moving the nut 12 along the thread 14, which is made at the end of the lever 7 adjacent to the axis 4, the adapter 13 does not rotate, i.e. nut 12 has a movable connection with the latter, the design of which is widely described in the technical literature. One of the levers 7, or rather, its end, located outside the corresponding guide 8 on the right (Fig. 2), is provided at the end with a bevel 15 passing into a horizontal platform 16, designed to interact with the pusher 17 of the limit switch 18 built into the control system the electric motor of the winch and fixed on one of the fragments of the structure 10. In the drawings (Figs. 1 and 2), position 19 gives the position of the roller 2 and the rope 3 after the switch is triggered in an emergency.

The switch works as follows.

An emergency situation can be expressed in the breakage of the rope at the point of its attachment to the lower movable beam of the lifting door

Thus, in the rope 3, which was constantly in a stressed and stretched state like a string, the tensile stress becomes equal to zero. As a result, the contact element 1, pressed by the springs 11 to the rope 3, loses its support and, under the action of these springs, almost instantly along the linear guides 8 is shifted to the right towards the latter. The end of the lever 7 slant 15 over the pusher 17, sinking the latter into the housing of the limit switch 18 and transferring it to the platform 16, and thereby turns off the winch motor. The contact element 1 and the rope 3 occupy position 19. The design of the circuit breaker according to the proposed utility model allows, by eliminating the force of gravity of the contact element 1 and replacing the gravity of the rope 3 with the force on its movement to the side (displacement), to have the calculated tension force of the springs in working order less than that of the prototype circuit breaker. In other words, it is possible to reduce the load on the springs, i.e. to reduce their stress state, which is very important, given the nature of the operation of springs that are constantly in a tensioned (charged) state, which is accompanied by relaxation of internal stresses, which in time reduce the elastic force of the springs. It is known that the lower the internal stresses, the less the influence of relaxation processes. To maintain the tension force at an optimal level, which is determined by a systematic practical check of the breaker operation time, the springs are tightened in a stressed state, increasing their length by rotating the nuts 12 on the thread 14 of the levers 7.

Claims (1)

Emergency switch for a rope winch of a curtain door, containing a contact element in the form of a roller, made in the form of a cylinder, interacting in a working position with a rope and mounted on an axle with the possibility of rotation, both ends of which are connected to a fragment of the structure by means of levers that move the contact element relative to the structure under the action of a spring with adjustable stiffness connecting them, while one of the levers has the ability to interact with the limit switch for stopping the electric motor of the winch, characterized in that the levers are mounted with the possibility of reciprocating movement in linear guides attached to the fragment of the structure, and between the axis and the guide on the levers there are springs, each of which is connected with one end to the lever, and the other with the guide, while on the part of the lever adjacent to the axis a thread is made, on which a nut is installed, to which the corresponding end of the spring is connected.

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