CN213111475U - Clamping mechanism of peeling machine for steel wire rope conveying belt - Google Patents

Abstract

The utility model discloses a clamping mechanism of a peeling machine for a steel wire rope conveying belt, which comprises two clamping guide rods which are relatively fixed and are arranged in parallel, wherein a fixed clamping rod is fixedly connected between one ends of the two clamping guide rods, and a force application connecting device is arranged between the other ends of the two clamping guide rods; the two clamping guide rods are respectively provided with a movable clamping sleeve in a sliding manner, a movable clamping rod corresponding to the fixed clamping rod is fixedly arranged between the two movable clamping sleeves, and an elastic force applicator is arranged between the movable clamping rod and the clamping guide rod or between the movable clamping rod and the fixed clamping rod. The utility model discloses simple structure, convenient to use presss from both sides the dress more firmly reliable.

Description

Clamping mechanism of peeling machine for steel wire rope conveying belt

Technical Field

The utility model relates to a conveyer belt skinning machinery technical field especially relates to a wire rope conveyer belt peeler presss from both sides dress mechanism.

Background

The conveyer belt peeling machine can be used for separating a covering glue layer and a canvas layer of the steel wire rope conveyer belt and separating the covering glue layer, the steel wire rope and the canvas layer. The traditional conveying belt peeling machine is mainly of a pincer-shaped structure, and has the defect that the clamping force of the pincer head is small, and the clamped covering adhesive layer is easy to separate during peeling operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a simple structure, convenient to use just press from both sides reliable wire rope conveyer belt peeler clamping mechanism of dress is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: the clamping mechanism of the wire rope conveying belt peeling machine comprises two clamping guide rods which are fixed relatively and arranged in parallel, a fixed clamping rod is fixedly connected between one ends of the two clamping guide rods, and a force application connecting device is arranged between the other ends of the two clamping guide rods; the two clamping guide rods are respectively provided with a movable clamping sleeve in a sliding manner, a movable clamping rod corresponding to the fixed clamping rod is fixedly arranged between the two movable clamping sleeves, and an elastic force applicator is arranged between the movable clamping rod and the clamping guide rod or between the movable clamping rod and the fixed clamping rod.

As a preferred technical scheme, the elastic force applicator comprises two force application bulges which are respectively and fixedly arranged on the two clamping guide rods, and the force application bulges are arranged on one side of the movable clamping sleeve away from the fixed clamping guide rod; clamping force application springs are sleeved between the movable clamping sleeves and the force application bulges on the clamping guide rods respectively.

As a preferred technical scheme, the force application connecting device comprises two force application connecting longitudinal rods which are respectively arranged concentrically with the two clamping guide rods, a force application connecting transverse rod is fixedly connected between the two force application connecting longitudinal rods, and a force application connecting hook is fixedly arranged in the middle of the force application connecting transverse rod; and a force application connecting sleeve is connected between the force application connecting longitudinal rod and the corresponding clamping guide rod in a threaded manner, and threads corresponding to the force application connecting longitudinal rod and the threads corresponding to the clamping guide rod are arranged on the force application connecting sleeve in opposite spiral directions.

As a preferable technical scheme, the force application connecting sleeve also serves as the force application protrusion.

As a preferred technical scheme, an anti-skid device is fixedly arranged on the movable clamping rod.

As a preferred technical scheme, the anti-slip device comprises a rubber tube or a silicone tube fixedly coated on the movable clamping rod.

By adopting the technical scheme, the clamping mechanism of the peeling machine for the steel wire rope conveying belt comprises two clamping guide rods which are fixed relatively and arranged in parallel, a fixed clamping rod is fixedly connected between one ends of the two clamping guide rods, and a force application connecting device is arranged between the other ends of the two clamping guide rods; the two clamping guide rods are respectively provided with a movable clamping sleeve in a sliding manner, a movable clamping rod corresponding to the fixed clamping rod is fixedly arranged between the two movable clamping sleeves, and an elastic force applicator is arranged between the movable clamping rod and the clamping guide rod or between the movable clamping rod and the fixed clamping rod. The utility model discloses the manpower is overcome elasticity of elasticity strength applicator, pulling the activity is pressed from both sides the dress pole and is kept away from the fixed dress pole that presss from both sides, then will cover the tip of glue film and follow the activity is pressed from both sides the dress pole and is kept away from fixed dress pole one side of pressing from both sides upwards winds to being close to fixed dress pole one side of pressing from both sides. After the manual power is loosened, the elastic force applicator promotes the movable clamping rod and the fixed clamping rod to firmly clamp the covering glue layer by elasticity. After the force application connecting device is pulled by peeling and force application, the hysteresis force of the adhesive layer is covered, so that the self is coated on the movable clamping rod and applied to the acting force of the movable clamping rod towards the fixed clamping rod. The acting force can be matched with the elastic force of the elastic force applicator, so that the movable clamping rod and the fixed clamping rod can clamp the covering glue layer more firmly and reliably. The utility model has simple structure and convenient use.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

fig. 1 is a schematic top view of an embodiment of the present invention;

fig. 2 is a schematic view of the structure a-a of fig. 1.

In the figure: 1-clamping a guide rod; 11-fixing the clamping rod; 2-movable clamping sleeve; 21-movable clamping rods; 3-an anti-skid device; 4-elastic force applying device; 41-clamping a force application spring; 5-a force application connecting device; 51-force application connecting longitudinal rods; 52-force applying connecting cross bar; 53-force application connection hook; 54-force application connecting sleeve; 6-conveying belt; and 61-covering the adhesive layer.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, exemplary embodiments of the invention are described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1 and 2, the clamping mechanism of the wire rope conveyor belt peeling machine comprises two clamping guide rods 1 which are fixed relatively and arranged in parallel, a fixing clamping rod 11 is fixedly connected between one ends of the two clamping guide rods 1, and the fixing connection of the fixing clamping rod 11 is preferably a welding mode, but may also be a bolt connection mode. And a force application connecting device 5 is arranged between the other ends of the two clamping guide rods 1, and the force application connecting device 5 is used for being connected with a steel wire rope of a conveying belt peeling machine.

The two clamping guide rods 1 are respectively provided with a movable clamping sleeve 2 in a sliding way, and the movable clamping sleeve 2 and the clamping guide rods 1 are in clearance fit to form sliding installation. A movable clamping rod 21 corresponding to the fixed clamping rod 11 is fixedly arranged between the two movable clamping sleeves 2, and an elastic force applicator 4 is arranged between the movable clamping rod 21 and the clamping guide rod 1 or between the movable clamping rods 11.

In this embodiment, the user pulls the movable clamping rod 21 away from the fixed clamping rod 11 against the elastic force of the elastic force applicator 4, and then winds the end of the adhesive coating 61 from the side of the movable clamping rod 21 away from the fixed clamping rod 11 up to the side close to the fixed clamping rod 11. After the manual force is released, the elastic force applicator 4 urges the movable clamping rod 21 and the fixed clamping rod 11 to clamp the covering adhesive layer 61 through elasticity, and the covering adhesive layer 61 is initially clamped reliably and is not easy to separate. After the force application connecting device 5 is pulled by peeling and force application, the hysteresis force of the covering adhesive layer 61 can make the movable clamping rod 21 be coated with the hysteresis force and apply the acting force to the movable clamping rod 21 towards the fixed clamping rod 11. This force will cooperate with the elastic force of the elastic force applicator 4, so that the movable clamping rod 21 and the fixed clamping rod 11 will clamp the adhesive coating 61 more firmly and reliably.

In this embodiment, the elastic force applicator 4 includes two force applying protrusions respectively fixedly disposed on the two clamping guide rods 1, and the force applying protrusions are disposed on one side of the movable clamping sleeve 2 away from the fixed clamping guide rod 11. A clamping force application spring 41 is respectively sleeved on each clamping guide rod 1 between the movable clamping sleeve 2 and the force application bulge, and the clamping force application spring 41 provides elastic force for clamping the movable clamping rod 21 to the fixed clamping rod 11. In addition, the elastic force applicator 4 of the present embodiment may also be in the form of a tension spring or an elastic rubber band connected between the movable clamping rod 21 and the fixed clamping rod 11.

The force application connecting device 5 comprises two force application connecting longitudinal rods 51 which are respectively concentric with the two clamping guide rods 1, a force application connecting transverse rod 52 is fixedly connected between the two force application connecting longitudinal rods 51, a force application connecting hook 53 is fixedly arranged in the middle of the force application connecting transverse rod 52, and the force application connecting hook 53 is connected with a steel wire rope of the conveying belt peeling machine. A force application connecting sleeve 54 is connected between the force application connecting longitudinal rod 51 and the corresponding clamping guide rod 1 in a threaded manner, and threads corresponding to the force application connecting longitudinal rod 51 and threads corresponding to the clamping guide rod 1 on the force application connecting sleeve 54 are arranged in opposite spiral directions. Thus, when the force-applying connecting sleeve 54 is screwed, the clamp guide rod 1 and the force-applying connecting longitudinal rod 51 can move toward or away from each other, so that the force-applying connecting device 5 can be mounted or the force-applying connecting device 5 can be dismounted.

In this embodiment, the force applying connecting sleeve 54 doubles as the force applying protrusion, which can simplify the structure of this embodiment, and the clamping guide rod 1 can be made of the existing round steel or steel pipe and processed with screw threads.

The movable clamping rod 21 is fixedly provided with the antiskid device 3, and the antiskid device 3 can increase the friction force between the covering glue layer 61 and the movable clamping rod 21, so that the clamping reliability is further improved. In this embodiment, the antiskid device 3 comprises a rubber tube or a silicone tube fixedly wrapped on the movable clamping rod 21, and the rubber tube or the silicone tube is in viscoelastic contact with the covering rubber layer 61, so that friction is obviously increased, and the clamping reliability is further improved. When peeling is carried out, the covering effect of the covering rubber layer 61 on the movable clamping rod 21 is more remarkable, and the clamping reliability is further improved.

In this embodiment, the cover adhesive layer 61 can be clamped firmly by the elastic force of the elastic force applicator 4, so that the cover adhesive layer is not easy to separate. The hysteresis of the glue layer 61 after peeling has begun will allow the movable clamping rod 21 and the fixed clamping rod 11 to better clamp the glue layer 61. The utility model discloses simple structure, the dismouting is maintained and is used all very conveniently.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. Wire rope conveyer belt peeler clamping mechanism, its characterized in that: the clamping device comprises two clamping guide rods which are fixed oppositely and arranged in parallel, wherein a fixed clamping rod is fixedly connected between one ends of the two clamping guide rods, and a force application connecting device is arranged between the other ends of the two clamping guide rods; the two clamping guide rods are respectively provided with a movable clamping sleeve in a sliding manner, a movable clamping rod corresponding to the fixed clamping rod is fixedly arranged between the two movable clamping sleeves, and an elastic force applicator is arranged between the movable clamping rod and the clamping guide rod or between the movable clamping rod and the fixed clamping rod.

2. The clamping mechanism of a wire rope conveyor belt debarker of claim 1, characterized in that: the elastic force applicator comprises two force applying bulges which are respectively and fixedly arranged on the two clamping guide rods, and the force applying bulges are arranged on one side of the movable clamping sleeve away from the fixed clamping guide rods; clamping force application springs are sleeved between the movable clamping sleeves and the force application bulges on the clamping guide rods respectively.

3. The wire rope conveyor belt debarker clamping mechanism of claim 2, characterized in that: the force application connecting device comprises two force application connecting longitudinal rods which are respectively concentric with the two clamping guide rods, a force application connecting transverse rod is fixedly connected between the two force application connecting longitudinal rods, and a force application connecting hook is fixedly arranged in the middle of the force application connecting transverse rod; and a force application connecting sleeve is connected between the force application connecting longitudinal rod and the corresponding clamping guide rod in a threaded manner, and threads corresponding to the force application connecting longitudinal rod and the threads corresponding to the clamping guide rod are arranged on the force application connecting sleeve in opposite spiral directions.

4. The wire rope conveyor belt debarker clamping mechanism of claim 3, characterized in that: the force application connecting sleeve also serves as the force application bulge.

5. The clamping mechanism of a wire rope conveyor belt debarker of claim 1, characterized in that: and an anti-skid device is fixedly arranged on the movable clamping rod.

6. The wire rope conveyor belt peeler clamping mechanism of claim 5, further comprising: the anti-skid device comprises a rubber tube or a silicone tube fixedly coated on the movable clamping rod.

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