CN216009241U - Rubber wheel structure for reducing friction of steel wire rope - Google Patents

Abstract

The utility model provides a slow down frictional rubber wheel structure of wire rope, it includes the halfcylinder, the latch segment, the holding tank, cable hole and fastener, link into an integrated entity through two latch segments and halfcylinder both ends, per two halfcylinders intercombination become the gyro wheel, cable hole axial passes the gyro wheel, the holding tank is located the both sides of two halfcylinder contact surfaces, the fastener passes latch segment and holding tank and links into a whole with the gyro wheel, pass cable hole and cooperation through wire rope, it is spacing to it to set up the cable card on the wire rope that is located the gyro wheel both ends, avoid wire rope and the frequent friction of basal plane contact, lead to generating heat and lead to the bearing capacity to reduce or become invalid, be favorable to improving life, reduce the maintenance cost.

Description

Rubber wheel structure for reducing friction of steel wire rope

Technical Field

The utility model belongs to the technical field of prevent hindering and fall to hinder, a rubber wheel structure that slows down wire rope friction is related to.

Background

The steel wire rope is widely applied to various industries such as engineering construction, traffic operation and the like, and particularly is widely used as an important force transmission and stress structure in the process of hydropower engineering construction and operation. The hydropower station is built and operated on a river channel, the slope of the river channel and the building surface of a building are not vertical structures, so that the steel wire rope is frequently contacted with the structural surface, for example, the steel wire rope for blocking a buoy or a ship in the channel is not only stressed greatly, but also is influenced by more factors in the stress process. Along with uneven stress caused by the fluctuation of the water level, the steel wire rope swings back and forth and frequently rubs with the base surface, so that the steel wire rope is abraded, the service life is shortened, the operation and maintenance cost is improved, and if the steel wire rope generates heat due to frequent friction, the bearing capacity of the steel wire rope is reduced, and even the steel wire rope is broken and fails.

Disclosure of Invention

The utility model aims to solve the technical problem that a rubber wheel structure that slows down wire rope friction is provided, adopt two latch segments and semi-cylinder both ends to link into an integrated entity, per two semi-cylinder intercombination become the gyro wheel, cable hole axial passes the gyro wheel, the holding tank is located the both sides of two semi-cylinder contact surfaces, the fastener passes latch segment and holding tank and connects into a whole with the gyro wheel, wire rope passes cable hole and cooperates rather than, it is spacing to it to set up the cable clip on the wire rope that is located the gyro wheel both ends, avoid wire rope and the frequent friction of basal surface contact, lead to generating heat and lead to the bearing capacity to reduce or become invalid, be favorable to improving life, reduce the maintenance cost.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a rubber wheel structure for slowing down friction of a steel wire rope comprises a semi-cylinder, a locking block, an accommodating groove, a rope hole and a fastener; the locking block is located the halfcylinder both ends and is connected with it, and the gyro wheel is constituteed to two halfcylinders, and the locking block and the halfcylinder of gyro wheel are passed to cable hole axial, and the holding tank is located the mutual symmetry in both sides of two halfcylinder contact surfaces, and the fastener passes locking block and holding tank and connects into a whole with the gyro wheel.

The ends at the two ends of the fastener are positioned in the accommodating groove.

The locking block is a semicircular block body, notches are formed in two sides of the locking block, and the ends at two ends of the fastening piece are located in the notches.

The cable holes are matched with the steel wire ropes, and the steel wire ropes at the two ends of the idler wheel are provided with cable clamps.

The utility model discloses a main beneficial effect lies in:

the steel wire rope penetrates through the rope holes of the rollers, the rollers with larger diameters support the steel wire rope, and after the steel wire rope is pulled, the steel wire rope between every two rollers is not in contact with the foundation surface, so that the steel wire rope is prevented from being rubbed with the foundation surface.

The roller adopts two half-cylinder integrated configuration, is locked by the fastener, and the damaged back of roller is convenient for change rapidly.

The steel wire ropes on the two sides of the roller are provided with cable clamps to limit the roller, and the stability of the roller and the foundation surface is improved in the rolling process.

The fastener is located notch and holding tank, is not influenced when the gyro wheel rolls.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic top view of fig. 2.

Fig. 4 is a schematic cross-sectional view at a-a of fig. 2.

Fig. 5 is a state diagram of the present invention connected to a wire rope.

In the figure: the cable clamp comprises a semi-cylinder 1, a locking block 2, a notch 21, a containing groove 3, a cable hole 4, a fastener 5, a steel wire rope 6 and a cable clamp 7.

Detailed Description

As shown in fig. 1 to 5, a rubber wheel structure for reducing friction of a steel wire rope comprises a semi-cylinder 1, a locking block 2, an accommodating groove 3, a rope hole 4 and a fastener 5; the locking block 2 is located 1 both ends of halfcylinder and is connected with it, and two halfcylinders 1 constitute the gyro wheel, and 4 axial of cable hole pass the locking block 2 and the halfcylinder 1 of gyro wheel, and holding tank 3 is located the mutual symmetry in both sides of 1 contact surface of two halfcylinders, and fastener 5 passes locking block 2 and holding tank 3 and connects into a whole with the gyro wheel. During the use, wire rope 6 passes cable hole 4 rather than the cooperation, and the wire rope 6 that is located the gyro wheel both ends sets up cable clip 7 and is spacing to it, avoids wire rope 6 and the frequent friction of basal surface contact, leads to generating heat to lead to bearing capacity to reduce or become invalid, is favorable to improving life, reduces the maintenance cost.

In a preferred scheme, the ends of the two ends of the fastening piece 5 are positioned in the accommodating groove 3. When in use, the fastening piece 5 is prevented from contacting with the base surface when the roller rolls.

In the preferred scheme, the locking block 2 is a semicircular block body, notches 21 are arranged on two sides of the locking block, and the ends of two ends of the fastening piece 5 are positioned in the notches 21. During the use, two latch segments 2 that are located the gyro wheel end pass through fastener 5 to be connected, have further improved overall structure intensity, and fastener 5 is located notch 21, avoids its end to stretch out the gyro wheel border outside.

In the preferred scheme, the cable hole 4 is matched with a steel wire rope 6, and cable clamps 7 are arranged on the steel wire rope 6 positioned at the two ends of the roller. When the device is used, the two cable clamps 7 limit one roller, so that the roller can move radially in a limited range of the steel wire rope 6 between the two cable clamps 7; when the roller is damaged and replaced, the cable clip 7 does not need to be detached, and the replacement is convenient and fast.

The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (4)

1. The utility model provides a slow down frictional rubber wheel structure of wire rope which characterized by: the cable fixing device comprises a semi-cylinder (1), a locking block (2), an accommodating groove (3), a cable hole (4) and a fastener (5); the locking block (2) is located halfcylinder (1) both ends and is connected with it, and the gyro wheel is constituteed in two halfcylinders (1), and cable hole (4) axial passes locking block (2) and halfcylinder (1) of gyro wheel, and holding tank (3) are located the bilateral symmetry each other of two halfcylinders (1) contact surface, and fastener (5) pass locking block (2) and holding tank (3) and connect into a whole with the gyro wheel.

2. The rubber wheel structure for reducing friction of the steel wire rope according to claim 1, wherein: the ends at the two ends of the fastening piece (5) are positioned in the accommodating groove (3).

3. The rubber wheel structure for reducing friction of the steel wire rope according to claim 1, wherein: the locking block (2) is a semicircular block-shaped body, notches (21) are formed in two sides of the locking block, and the ends of two ends of the fastening piece (5) are located in the notches (21).

4. The rubber wheel structure for reducing friction of the steel wire rope according to claim 1, wherein: the cable holes (4) are matched with the steel wire ropes (6), and cable clamps (7) are arranged on the steel wire ropes (6) at the two ends of the idler wheel.

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