CN221025712U - Belt for feeding belt conveyor with good wear resistance - Google Patents

Abstract

The utility model relates to the technical field of feeding belts, in particular to a belt with good wear resistance for a feeding belt conveyor, which has the technical scheme that: the feeding belt comprises a first steel wire rope core and a second steel wire rope core, wherein the first steel wire rope cores are transversely arranged, the second steel wire rope cores are longitudinally arranged, the first steel wire rope core and the second steel wire rope core are mutually and vertically inserted and woven into a steel wire rope core layer, and the steel wire rope core layer formed by the first steel wire rope core and the second steel wire rope core can internally support the feeding belt, and the feeding belt has the beneficial effects that: the steel wire rope core layer is woven by the steel wire rope core I and the steel wire rope core II in the feeding belt, and the feeding belt is supported from the inside under the condition that the bottom of the feeding belt is not supported, so that when the spherical materials which are easy to roll are conveyed, the surface of the feeding belt is prevented from bending downwards and deforming, the spherical materials cannot be accumulated in the middle of the feeding belt, the flatness of the surface of the feeding belt is improved, and the service life of the feeding belt is prolonged.

Description

Belt for feeding belt conveyor with good wear resistance

Technical Field

The utility model relates to the technical field of feeding belts, in particular to a belt with good wear resistance for a feeding belt conveyor.

Background

The feeding belt conveyor is a common material conveying device, and is generally composed of a belt, a transmission device, a carrier roller, a support and the like, the working principle of the feeding belt conveyor is that the belt is driven by a motor to rotate, materials are conveyed from one end point to the other end point, the feeding belt conveyor has the characteristics of continuous conveying, long conveying distance, large conveying capacity and the like, and the belt for the feeding belt conveyor is further developed along with the wide application of the feeding belt conveyor in the field of material conveying.

The prior art has the following defects: the belt for the material loading belt feeder that is used commonly used is PVC material loading belt, PU material loading belt or rubber material loading belt, when carrying the easy spherical material that rolls, because traditional material loading belt feeder is with the belt surface level and smooth, and have certain elasticity, under the condition that the bottom does not support in the transportation process, spherical material can oppress material loading belt surface downwarping deformation to roll gradually and pile up material loading belt middle part, after long-time use, material loading belt middle part wearing and tearing condition is far more serious than material loading belt both sides, has influenced material loading belt surface's roughness greatly, has reduced material loading belt's life.

Therefore, it is necessary to invent a belt for a feeding belt conveyor with good wear resistance.

Disclosure of utility model

Therefore, the utility model provides the belt for the feeding belt conveyor with good wear resistance, the feeding belt is supported from the inside by weaving the first steel wire rope core and the second steel wire rope core in the feeding belt, so that the problems that the surface flatness of the feeding belt conveyor is greatly affected and the service life of the feeding belt is reduced due to the fact that the spherical material can press the surface of the feeding belt to bend downwards and deform and gradually roll and accumulate in the middle of the feeding belt after long-time use when the conventional belt for the feeding belt conveyor is used for conveying the spherical material which is easy to roll under the condition that the bottom is not supported are solved.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a belt for material loading belt feeder that wearability is good, includes wire rope core one and wire rope core two, the horizontal arrangement of many wire rope cores one, many wire rope core two longitudinal arrangements, wire rope core one and wire rope core two mutually perpendicular interlude weave into wire rope sandwich layer, wire rope sandwich layer that wire rope core one and wire rope core two constitute can be from inside support material loading belt.

Preferably, the first PVC layer is adhered to the top surface of the steel wire rope core layer woven by the first steel wire rope core and the second steel wire rope core, and the second PVC layer is adhered to the bottom surface of the steel wire rope core layer woven by the first steel wire rope core and the second steel wire rope core.

Preferably, the first two ends of the steel wire rope core are provided with a third PVC layer, the middle part of the third PVC layer is bent towards one side far away from the first steel wire rope core, the upper end of the third PVC layer is fixedly bonded on the first two sides of the first PVC layer, and the lower end of the third PVC layer is fixedly bonded on the two sides of the second PVC layer.

Preferably, the first top surface of the PVC layer is adhered with the first rubber layer, the first top surface of the rubber layer is fixedly provided with anti-slip strips, the anti-slip strips are uniformly arranged on the first surface of the rubber layer, the anti-slip strips are parallel to the first steel wire rope core, and one side of each anti-slip strip is provided with an arc groove.

Preferably, the second bottom surface of the PVC layer is adhered with the second rubber layer, the second bottom surface of the rubber layer is provided with a particle layer, and the particle layer is embedded into the second surface of the rubber layer.

Preferably, one side of the PVC layer III, which is far away from the first steel wire rope core, is adhered with a rubber layer III, the inner wall of the rubber layer III is adhered to the three surfaces of the PVC layer III, the upper ends of the rubber layer III are fixedly adhered to the two sides of the rubber layer I, and the lower ends of the rubber layer III are fixedly adhered to the two sides of the rubber layer II.

Preferably, the first rubber layer, the second rubber layer and the third rubber layer are fixedly provided with bulges at two ends perpendicular to the first steel wire rope core, the bulges at two sides can be mutually embedded and bonded together, and the first rubber layer, the second rubber layer and the third rubber layer are mutually spliced through the bulges.

Preferably, the connecting buckles are fixedly arranged at two ends of the steel wire rope core II, round holes are formed in the top surface of the connecting buckle, the connecting buckles at two ends can be connected through bolts, and the steel wire rope core layers woven by the plurality of steel wire rope cores I and the steel wire rope core II are connected with each other through the connecting buckles at two ends.

The beneficial effects of the utility model are as follows: the steel wire rope core layer is woven by the steel wire rope core I and the steel wire rope core II in the feeding belt, and the feeding belt is supported from the inside under the condition that the bottom of the feeding belt is not supported, so that when the spherical materials which are easy to roll are conveyed, the surface of the feeding belt is prevented from bending downwards and deforming, the spherical materials cannot be accumulated in the middle of the feeding belt, the flatness of the surface of the feeding belt is improved, and the service life of the feeding belt is prolonged.

Drawings

FIG. 1 is a front view of a belt for a feeding belt conveyor with good wear resistance;

FIG. 2 is an exploded view of a good wear resistance belt for a feeding belt conveyor provided by the utility model;

FIG. 3 is a schematic diagram of a wire rope core layer structure of a belt for a feeding belt conveyor with good wear resistance;

FIG. 4 is a top view of a good wear resistance belt for a feeding belt conveyor provided by the utility model;

fig. 5 is a bottom view of a belt for a feeding belt conveyor with good wear resistance.

In the figure: the rubber comprises a first rubber layer 11, a second rubber layer 12, a third rubber layer 13, a bulge 14, a non-slip strip 15, a particle layer 16, a first PVC layer 17, a second PVC layer 18, a third PVC layer 19, a first steel wire rope core 21, a second steel wire rope core 22 and a connecting buckle 23.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Example 1

As shown in fig. 1 to 3, a belt for a feeding belt conveyor with good wear resistance in the first embodiment of the present utility model includes a first wire rope core 21 and a second wire rope core 22, where the first wire rope cores 21 are arranged transversely, the second wire rope cores 22 are arranged longitudinally, the first wire rope core 21 and the second wire rope core 22 are woven in a mutually perpendicular and interpenetrated manner to form a wire rope core layer, and the wire rope core layer formed by the first wire rope core 21 and the second wire rope core 22 can support the feeding belt from inside.

In the above embodiment, it should be noted that, the first wire rope core 21 and the second wire rope core 22 are made of flexible metal materials, and the first wire rope core and the second wire rope core are woven into the wire rope core layer in the feeding belt, so that the feeding belt is supported from the inside under the condition that the bottom of the feeding belt is not supported, and when the spherical material easy to roll is conveyed, the surface of the feeding belt is prevented from bending downwards, so that the spherical material cannot be accumulated in the middle of the feeding belt, the surface flatness of the feeding belt is improved, and the service life of the feeding belt is prolonged.

Example 2

As shown in fig. 1 and fig. 2, a belt for a feeding belt conveyor with good wear resistance comprises the whole content of embodiment 1, in addition, the top surface of a steel wire rope core layer woven by a first steel wire rope core 21 and a second steel wire rope core 22 is adhered with a first PVC layer 17, the bottom surface of the steel wire rope core layer woven by the first steel wire rope core 21 and the second steel wire rope core 22 is adhered with a second PVC layer 18, two ends of the first steel wire rope core 21 are provided with a third PVC layer 19, the middle part of the third PVC layer 19 is bent towards one side far away from the first steel wire rope core 21, the upper ends of the third PVC layer 19 are fixedly adhered to two sides of the first PVC layer 17, and the lower ends of the third PVC layer 19 are fixedly adhered to two sides of the second PVC layer 18.

In the above embodiment, it should be noted that, the PVC layer one 17, the PVC layer two 18 and the PVC layer three 19 are made of polyvinyl chloride, the PVC layer one 17, the PVC layer two 18 and the PVC layer three 19 form a waterproof layer, and the PVC layer one 17, the PVC layer two 18 and the PVC layer are used for protecting the wire rope core layer woven by the wire rope core one 21 and the wire rope core two 22, thereby improving the waterproof performance and prolonging the service life.

Example 3

As shown in fig. 1, fig. 2, fig. 4 and fig. 5, a belt for a feeding belt machine with good wear resistance comprises the whole content of embodiment 2, in addition, the top surface of the first PVC layer 17 is adhered with the first rubber layer 11, the top surface of the first rubber layer 11 is fixedly provided with the anti-slip strips 15, the anti-slip strips 15 are uniformly arranged on the surface of the first rubber layer 11, the anti-slip strips 15 are parallel to the first steel wire rope core 21, an arc-shaped groove is arranged on one side of the anti-slip strips 15, the bottom surface of the second PVC layer 18 is adhered with the second rubber layer 12, the bottom surface of the second rubber layer 12 is provided with the particle layer 16, the surface of the second rubber layer 12 is embedded with the third PVC layer 19, one side of the third PVC layer 19 far from the first steel wire rope core 21 is adhered with the third rubber layer 13, the inner wall of the third rubber layer 13 is adhered with the surface of the third PVC layer 19, the upper ends of the third rubber layer 13 are fixedly adhered on two sides of the first rubber layer 11, and the lower ends of the third rubber layer 13 are fixedly adhered on two sides of the second rubber layer 12.

In the above embodiment, it should be noted that, the first rubber layer 11, the second rubber layer 12 and the third rubber layer 13 are made of rubber materials, and are more wear-resistant and elastic than PVC and PU belts, and can be used in a wider temperature range, the anti-slip strip 15 has the function of preventing the rolling of the spherical material, and the particle layer 16 has the function of increasing the friction force between the feeding belt and the transmission roller, so that the transmission efficiency of the transmission roller is improved.

Example 4

As shown in fig. 1, 2 and 4, a belt for a feeding belt conveyor with good wear resistance comprises the whole content of embodiment 3, in addition, protrusions 14 are fixedly installed at two ends of the first rubber layer 11, the second rubber layer 12 and the third rubber layer 13 perpendicular to the first steel wire rope core 21, the protrusions 14 at two sides can be mutually embedded and adhered together, and the first rubber layer 11, the second rubber layer 12 and the third rubber layer 13 are mutually spliced through the protrusions 14.

In the above embodiment, the protrusions 14 on both sides of the first rubber layer 11, the second rubber layer 12 and the third rubber layer 13 are fitted and bonded to each other to achieve the effect of freely extending the length of the feeding belt.

Example 5

As shown in fig. 1-3, a belt for a feeding belt conveyor with good wear resistance comprises the whole content of embodiment 1, in addition, connecting buckles 23 are fixedly installed at two ends of a second steel wire rope core 22, round holes are formed in the top surface of the connecting buckles 23, the connecting buckles 23 at two ends can be connected through bolts, and steel wire rope core layers woven by a plurality of first steel wire rope cores 21 and the second steel wire rope cores 22 are connected with each other through the connecting buckles 23 at two ends.

In the above embodiment, the first wire rope core 21 and the second wire rope core 22 are connected to each other by the connecting buckle 23, so as to achieve the effect of freely extending the length of the feeding belt.

The application process of the utility model is as follows: a person skilled in the art installs the feeding belt on the transmission device by combining the bulge 14 and the connecting buckle 23, starts the transmission device to drive the feeding belt, places the spherical material on the top surface of the first rubber layer 11, rolls the spherical material into the arc-shaped groove of the anti-slip strip 15 in the conveying process, supports the first rubber layer 11 from the inside under the condition that the bottom of the feeding belt is not supported, and avoids downward bending deformation of the surface of the first rubber layer 11, so that the spherical material cannot be accumulated in the middle of the first rubber layer 11.

The above description is of the preferred embodiments of the present utility model, and any person skilled in the art may modify the present utility model or make modifications to the present utility model with the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present utility model falls within the scope of the protection claimed by the present utility model.

Claims (8)

1. The utility model provides a material loading belt feeder belt that wearability is good, includes wire rope core one (21) and wire rope core two (22), its characterized in that: the first steel wire rope cores (21) are transversely arranged, the second steel wire rope cores (22) are longitudinally arranged, the first steel wire rope cores (21) and the second steel wire rope cores (22) are mutually vertically inserted and woven into steel wire rope core layers, and the steel wire rope core layers formed by the first steel wire rope cores (21) and the second steel wire rope cores (22) can internally support a feeding belt.

2. The belt for a feeding belt conveyor with good wear resistance according to claim 1, characterized in that: the PVC layer I (17) is adhered to the top surface of the steel wire rope core layer woven by the steel wire rope core I (21) and the steel wire rope core II (22), and the PVC layer II (18) is adhered to the bottom surface of the steel wire rope core layer woven by the steel wire rope core I (21) and the steel wire rope core II (22).

3. The belt for a feeding belt conveyor with good wear resistance according to claim 2, characterized in that: the PVC cable rope is characterized in that PVC layers III (19) are arranged at two ends of the steel cable rope core I (21), the middle of the PVC layers III (19) is bent towards one side far away from the steel cable rope core I (21), the upper ends of the PVC layers III (19) are fixedly bonded to two sides of the PVC layers I (17), and the lower ends of the PVC layers III (19) are fixedly bonded to two sides of the PVC layers II (18).

4. The belt for a feeding belt conveyor with good wear resistance according to claim 3, wherein: the PVC layer I (17) top surface bonds has rubber layer I (11), rubber layer I (11) top surface fixed mounting has antislip strip (15), antislip strip (15) evenly arranged sets up on rubber layer I (11) surface, antislip strip (15) are parallel to each other with wire rope core I (21), antislip strip (15) one side sets up the arc recess.

5. The belt for a feeding belt conveyor with good wear resistance according to claim 4, wherein: the PVC layer II (18) bottom surface bonds and has rubber layer II (12), rubber layer II (12) bottom surface is provided with particle layer (16), particle layer (16) embedding rubber layer II (12) surface.

6. The belt for a feeding belt conveyor with good wear resistance according to claim 5, wherein: one side of the PVC layer III (19) far away from the steel wire rope core I (21) is adhered with a rubber layer III (13), the inner wall of the rubber layer III (13) is adhered to the surface of the PVC layer III (19), the upper end of the rubber layer III (13) is fixedly adhered to the two sides of the rubber layer I (11), and the lower end of the rubber layer III (13) is fixedly adhered to the two sides of the rubber layer II (12).

7. The good-wear-resistance belt for a feeding belt conveyor according to claim 6, wherein: the two ends of the first rubber layer (11), the second rubber layer (12) and the third rubber layer (13) perpendicular to the first steel wire rope core (21) are fixedly provided with protrusions (14), the protrusions (14) on the two sides can be mutually embedded and bonded together, and the first rubber layer (11), the second rubber layer (12) and the third rubber layer (13) are mutually spliced through the protrusions (14).

8. The belt for a feeding belt conveyor with good wear resistance according to claim 1, characterized in that: the wire rope core two (22) both ends fixed mounting have connector link (23), connector link (23) top surface is provided with the round hole, connector link (23) at both ends can pass through bolted connection, wire rope core layer that a plurality of wire rope cores one (21) and wire rope core two (22) were woven passes through connector link (23) interconnect at both ends.