RU162490U1 - SPRING CABLE DRUM - Google Patents

Abstract

1. A cable drum with a spring drive, comprising a drum mounted on a fixed axis, including a pulley, on which a flexible element in the form of a cable-cable is wound, two end walls connected to each other and a spring drive located in the drum, including a spring mounted on a fixed axis drum rotating sleeve and two parallel to each other and sequentially connected to each other spiral belt springs with the same direction of winding, while the inner end of the first spring is fixed in rotate lining sleeve, and the outer end on the drum, between the springs there is an intermediate element in the form of a disk mounted on the end of the rotary sleeve, the inner end of the second spring is fixed in the fixed axis of the drum, and the outer end of the second spring is connected with the edge of the intermediate element, characterized in that the second spring is equipped with a cylindrical protective casing including a shell on which the outer end of the second spring is fixed, and two end walls, one of which is made ring-shaped, and the other end wall Names the specified intermediate element. 2. The cable drum according to claim 1, characterized in that the end walls and the shell of the protective casing are made of sheet material, while rectangular holes are made on the edges of the end walls, and the shell is equipped with tabs inserted into the rectangular holes of the end walls and pushed to them from the outside with the formation of a precast protective casing. 3. The cable drum according to claim 2, characterized in that the shell of the protective casing is made with an open cylindrical surface, the edges of which form a gap in which

Description

Technical field

The utility model relates to lifting equipment and can be used in devices for measuring the linear movement of sections of the telescopic boom of a lifting machine and transmitting electricity and electrical signals to equipment installed on its retractable section.

Known drum with a spring drive, which is part of the device for determining the length of the telescopic boom of the crane. The drum body includes a pulley with flanges and an end wall made of light alloy in one piece. A flexible element in the form of a cable is wound around the pulley. A spring block is placed in the drum, which includes its own case with a cover and a spiral tape spring located in this case, the inner end of which is guided by a sleeve cantileverly mounted on the end wall of the drum, and the outer end of the spring is mounted on the spring block case (Safety devices for hoisting cranes Part II - teaching aid. St. Petersburg; 2001, p. 77-79, Fig. 3.6, 3.7).

The drum has a simple design, but specialized equipment is needed to make it. In this design, the drum capacity, and accordingly the range of increment of the boom length, is determined by the maximum number of revolutions of the coil spring. Therefore, the use of this design on modern lifting machines with an increased telescopic boom length would lead to the need to increase the length of the spiral spring and, accordingly, to increase the outer diameter of the drum and its mass.

Also known is a cable drum with a spring drive, which is part of the device for determining the length of the telescopic boom of the hydraulic automobile crane NG-700EG of the company TADANO LTD (Japan). A cable drum contains a drum itself, including a pulley with flanges, on which a flexible element is wound in the form of a cable-cable, two end walls and a fixed axis. A spring drive is placed in the drum, including a spiral tape spring, the inner end of which is fixed in a fixed axis, and the outer end is fixed on the drum (Repair Instructions for Hydraulic Truck Crane NG-700EG. TADANO LTD, 1988, section “Boom Length Sensor”, p. 2).

This cable drum has the same disadvantages as described above.

The closest to the claimed utility model in terms of essential features is a cable drum with a spring drive, containing the drum itself, including a pulley with flanges, on which a flexible element in the form of a cable-cable is wound, two end walls connected to each other by a pulley and a fixed axis. A spring drive is placed in the drum, which includes a rotating sleeve mounted on a fixed axis and two spiral belt springs with the same direction of winding parallel to each other and connected in series. In this case, the inner end of the first spring is fixed in the rotary sleeve, and the outer end is on the drum, between the springs there is an intermediate element in the form of a disk mounted on the end of the rotary sleeve, on the edge of which there is a finger in which the outer end of the second spring is fixed, the inner end of which fixed in the fixed axis (Repair Instructions for the NG-700EG hydraulic automobile crane. TADANO LTD, 1988, section “Boom length sensor”, page 3).

The design of this cable drum makes it possible to use it on hoisting cranes with an increased boom length due to the successive inclusion of two interconnected coil springs. However, the cantilever mounting of the finger, in which the external end of the second spring is fixed, leads to the fact that the disk perceives bending loads that reduce the reliability of the spring drive.

Utility Model Disclosure

The task to which the claimed utility model is directed is to increase the reliability of the cable reel.

The solution of the tasks and the achievement of the technical result is ensured by the fact that in a cable drum with a spring drive containing a drum mounted on a fixed axis, including a pulley, on which a flexible element in the form of a cable-cable is wound, two end walls connected to each other and placed in the drum spring drive, which includes a rotating sleeve mounted on the fixed axis of the drum and two spiral belt springs parallel to each other and connected in series with each other in the same direction of winding, while the inner end of the first spring is fixed in the rotating sleeve, and the outer end is on the drum, between the springs there is an intermediate element in the form of a disk mounted on the end of the rotating sleeve, the inner end of the second spring is fixed in the fixed axis of the drum, and the outer end the second spring is connected with the edge of the intermediate element, according to a utility model, the second spring is provided with a cylindrical protective casing including a shell on which the outer end of the second spring is fixed s, and two end walls, one of which is made ring-shaped, and the other end wall forms the specified intermediate element.

The achievement of the technical result is also facilitated by the private essential features of the utility model.

The end walls and the shell of the protective casing are made of sheet material, while rectangular holes are made on the edges of the end walls, and the shell is equipped with tabs inserted into the rectangular holes of the end walls and pressed against them from the outside to form a prefabricated protective casing.

The shell of the protective casing is made with an open cylindrical surface, the edges of which form a gap into which the outer end of the second spring is inserted, made in the form of a hook with a deep pharynx, which is engaged with one of these edges.

The inner end of the first coil spring is made in the form of a hook formed by the bent flat end of the first spring, the edge of which is additionally bent along an arc of a circle to form the first cylindrical gripping element, while on the outer cylindrical surface of the rotating sleeve there is a first longitudinal groove with rounded entrance edges formed by an opening under the first cylindrical gripping element, made on the end surface of the rotating sleeve, and a narrow longitudinal slot under the flat onets first spring, made in the body of the rotating sleeve along a tangent to the cylindrical surface of said hole.

The inner end of the second coil spring is made in the form of a hook formed by the bent flat end of the second spring, the edge of which is additionally bent along an arc of a circle to form a second cylindrical gripping element, while on the outer cylindrical surface of the stationary axis of the drum a second longitudinal groove is made having a flat guide surface for the second cylindrical gripping element parallel to the diametrical plane of the fixed axis of the drum, and two rotated curved in an arc of a circle one of which is aligned with the indicated flat guide surface and forms a recess in the body of the sleeve for the second cylindrical gripping element, and the other surface curved in an arc of a circle forms a rounded edge of the second longitudinal groove in contact with the flat end of the second coil spring.

The second spring is supplied with a cylindrical protective casing, including a shell on which the outer end of the second spring is fixed, and two end walls, one of which is ring-shaped, and the other end wall forms the specified intermediate element, eliminates the possibility of skewing of the intermediate element under the action of bending loads and thereby increases the reliability of the spring drive. In addition, the location of the second spring in the cylindrical protective casing also eliminates the possibility of injury to the cable drum collector when the second spring is accidentally unwound during the assembly of the spring drive, since the protective casing with the second spring installed in it can be placed on the cable drum assembly in the form of a pre-assembled spring block.

The implementation of the elements of the protective casing of sheet steel provides the possibility of its manufacture by simple assembly from individual parts without using any specialized equipment for shaping the protective casing, and the shell of the protective casing with an open cylindrical surface, the edges of which form a gap into which the outer end of the second springs, made in the form of a hook that is meshed with one of these edges, simplifies the assembly process of the spring block.

The proposed fastening of the inner end of the first spiral spring in the longitudinal groove of the rotating sleeve eliminates the possibility of their accidental disconnection during assembly of the spring drive and thereby increases its reliability, and the proposed fastening of the inner end of the second spiral spring in the longitudinal groove of the fixed axis of the cable drum prevents the possibility of spring breakage in the event of a sudden break cable, which also increases the reliability of the spring drive.

Thus, the achieved technical result is expressed in increasing the reliability of the cable drum by increasing the reliability of its spring drive.

Brief Description of the Drawings

In FIG. 1 shows a cable drum of an open type with a spring drive mounted on a telescopic boom of a lifting machine; in FIG. 2 - fastening of the inner and outer ends of the first coil spring (section AA in FIG. 1); in FIG. 3 and 4 - places B and D in FIG. 2; in FIG. 5 - fastening of the inner and outer ends of the second coil spring (section BB in Fig. 1); in FIG. 6 and 7 - places D and E in FIG. 5; in FIG. 8 and 9 - side walls of the protective casing; in FIG. 10 - unfolded in terms of the shell of the protective casing. In FIG. 2 and 5, the flexible cable is conventionally not shown. In the figures shown, the same parts are denoted by the same reference numbers.

Utility Model Implementation

The cable drum with a spring drive contains the drum 1 itself with a flexible element wound on it in the form of a cable cable 2, and a spring drive 3 located in the cavity of the drum 1.

Drum 1 includes a pulley 4, on which a cable-rope 2 is wound, two end walls 5 and 6, interconnected by means of threaded fasteners 7 in the form of bolts with nuts, two supporting elements 8 and 9 with rolling bearings installed in them 10 and 11, respectively mounted on the inner surface of the end wall 5 and the outer surface of the end wall 6, and the fixed axis 12 installed in the bearings 10 and 11, one of the ends of which is rigidly fixed to the bottom of the glass 13, equipped with a flange 14 for attaching a cable bar ana on the telescopic boom 15 hoisting machine.

The spring drive 3 includes a rotating sleeve 16 mounted on the axis 12 and two spiral belt springs with the same winding direction, arranged in parallel and connected in series with each other, the first 17 and second 18.

The location of the spring 17 in the cavity of the drum 1 is limited by an annular element 19 and is fixed from displacement by bushings 20 mounted on the fastening elements 7.

The spring 18 is equipped with a protective casing 21, mounted on the end of the sleeve 16 with screws 22. The protective casing 21 includes two end walls 23 and 24 and a shell 25 made of sheet steel. At the same time, rectangular holes 26 are made on the edges of the end walls 23 and 24, and the shell 25 is made with an open cylindrical surface and is equipped with tabs 27 inserted into the rectangular holes 26 of the end walls 23 and 24 and drawn to them from the outside. The end wall 23 forms an intermediate element located between the springs 17 and 18 in the form of a disk connecting the springs 17 and 18, in which holes 28 are made for screws 22, and the end wall 24 is made ring-shaped with the possibility of inserting the spring 18 into the cavity of the protective casing 21 as in a free state, and in a minimized form.

The outer ends of the springs 17 and 18 are gripping means made in the form of hooks 29 and 30 with a deep jaw, formed by bent flat ends 31 and 32 of the springs 17 and 18. The hook 29 is engaged with one of the fasteners 7, and the hook 30 is wound in the slot 33 formed by the edges of the shell 25, and is engaged with one of its edges.

The inner ends of the springs 17 and 18 are also gripping means made in the form of hooks 34 and 35 that are engaged with the sleeve 16 and the axis 12, respectively. Structurally, the hooks 34 and 35 are made equally. The hooks 34 and 35 are formed by bent flat ends 36 and 37 of the springs 17 and 18, the edges of which are additionally bent along an arc of a circle with the formation of cylindrical gripping elements 38 and 39.

To engage the hook 34 with the sleeve 16, a longitudinal groove 40 is made in it with rounded input edges, formed by an opening 41 for a cylindrical gripping element 38, made on the end surface of the sleeve 16, and a narrow longitudinal slot 42 under the flat end 36 of the spring 17, made in the body of the sleeve 16 tangentially to the cylindrical surface of the hole 41.

To engage the hook 35 with the axis 12, a longitudinal groove 43 is made in it, having a flat guide surface 44 for the cylindrical gripping element 39 parallel to the diametrical plane of the axis 12 and two circumferentially curved surfaces 45 and 46. The surface 45 is aligned with the flat guide surface 44 and forms in the body of the sleeve 16 a recess for the cylindrical gripping element 39, and the surface 46 forms a rounded edge of the longitudinal groove 43 in contact with the flat end 37 of the coil spring 18.

The cable drum is provided with a current collector 47, as shown in FIG. 1, for transmitting electrical energy to the head of the boom and transmitting control, measuring and control signals between the structural elements of the hoisting machine and the converter 48 of the angle of rotation of the cable drum into an electrical information signal to determine the length of the telescopic boom of the hoisting machine. The designs of the current collector 47 and the converter 48 of the angle of rotation of the cable reel into an electrical information signal are not the subject of this utility model. They are in particular made as shown in patent RU 154954 U1.

Cable drum with a spring drive operates as follows. In the initial position, a flexible element in the form of a cable-cable 2 is wound on the drum 1. When the cable-cable 2 is pulled, the drum 1 rotates, compressing the spring 17 and the spring connected with it 18. The spring-loaded drum interacting with the flexible element (cable-cable 2), provides its constant tension. The movement of the drum 1 in the opposite direction occurs under the influence of coil springs 17 and 18.

When the cable cable 2 is broken under the action of the spring drive 3 formed by the springs 17 and 18, the rotation of the pulley 4 starts. After the springs 17 and 18 are completely uncleaned by inertia, the pulley 4 will continue to rotate. In this case, the moment of inertia of the pulley 4 is transmitted through the springs 17 and 18 to the gripping means in the form of a hook 35. The hook 35 will begin to move along the guide surface 44 and further along the cylindrical surface of the fixed axis 12 until the moment when the hook 35 does not return to its original state. This rotation will occur until the pulley 4 stops. After repairing the cable-cable 2, when the pulley 4 rotates to the side, when the springs begin to compress, the hook 35 will be set to its original state and will be held motionless on the axis 12.

The utility model also allows other examples of the implementation of the proposed cable drum with a spring drive while maintaining the general inventive concept outlined in the formula of the utility model.

Industrial applicability

The proposed utility model can be manufactured industrially at a machine-building enterprise using well-known materials and technologies. For example, the pulley 4 of the drum 1 can be made of a polymer pipe, and the end walls 5 and 6, the restrictive ring-shaped element 19, the end walls 23 and 24 and the shell 25 can be made of sheet steel using high-precision laser cutting at a specialized enterprise using modern computer technology.

Claims (5)

1. A cable drum with a spring drive, comprising a drum mounted on a fixed axis, including a pulley, on which a flexible element in the form of a cable-cable is wound, two end walls connected to each other and a spring drive located in the drum, including a spring mounted on a fixed axis drum rotating sleeve and two parallel to each other and sequentially connected to each other spiral belt springs with the same direction of winding, while the inner end of the first spring is fixed in rotate lining sleeve, and the outer end on the drum, between the springs there is an intermediate element in the form of a disk mounted on the end of the rotary sleeve, the inner end of the second spring is fixed in the fixed axis of the drum, and the outer end of the second spring is connected with the edge of the intermediate element, characterized in that the second spring is equipped with a cylindrical protective casing including a shell on which the outer end of the second spring is fixed, and two end walls, one of which is made ring-shaped, and the other end wall Indicates the specified intermediate element. 2. The cable drum according to claim 1, characterized in that the end walls and the shell of the protective casing are made of sheet material, while the edges of the end walls are made of rectangular holes, and the shell is equipped with tabs inserted into the rectangular holes of the end walls and pressed to them with external side with the formation of a precast protective casing. 3. The cable drum according to claim 2, characterized in that the shell of the protective casing is made with an open cylindrical surface, the edges of which form a gap into which the outer end of the second spring is inserted, made in the form of a hook with a deep pharynx, which is engaged with one of these edges. 4. The cable drum according to claim 1, characterized in that the inner end of the first coil spring is made in the form of a hook formed by a bent flat end of the first spring, the edge of which is additionally bent along an arc of a circle to form the first cylindrical gripping element, while on the outer cylindrical surface of the rotating sleeve, a first longitudinal groove is made with rounded input edges, formed by an opening for the first cylindrical gripping element, made on the end surface of the rotating tulkus, and the narrow circumferential slit for the flat end of the first spring, made in the body of the rotating sleeve along a tangent to the cylindrical surface of said hole. 5. The cable drum according to claim 1, characterized in that the inner end of the second coil spring is made in the form of a hook formed by a bent flat end of the second spring, the edge of which is additionally bent along an arc of a circle to form a second cylindrical gripping element, while on the outer cylindrical surface the second axis of the drum has a second longitudinal groove having a flat guide surface for the second cylindrical gripping element parallel to the diametrical plane of the stationary axis ba rabana, and two surfaces bent along an arc of a circle, one of which is combined with the indicated flat guide surface and forms a recess in the body of the sleeve for a second cylindrical gripping element, and the other surface curved in an arc of a circle forms a rounded edge of the second longitudinal groove in contact with the flat end of the second spiral spring.

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