CN113071952B - Novel rope mechanism is held to double row chain - Google Patents

Abstract

A novel double-row chain rope holding mechanism comprises: the clamping carrier adopts a double-chain structure and is provided with a polymer clamping carrier, and the groove bottom of the clamping steel wire rope is in a semi-arc shape and is matched with the diameter of the rope. The clamping carriers can be spliced into a closed-loop chain structure, and an auxiliary driving part is matched with the upper closed-loop chain structure and the lower closed-loop chain structure to finish large clamping force and linear direction traction on the steel wire rope. The defects that in the prior art, the cross section of the steel wire can be seriously deformed in the process of forced traction due to the fact that the steel wire rope is clamped in a winding mode, resonance can be generated due to the fact that the front end of the steel wire rope is clamped in the winding mode, and the safety and the stability are greatly affected are effectively overcome by combining other structures.

Description

Novel rope mechanism is held to double row chain

Technical Field

The invention belongs to the technical field of steel wire rope clamping and holding mechanisms, and particularly relates to a novel double-row chain rope holding mechanism, in particular to occasions needing clamping and holding in steel wire rope transportation sites of ports, mines, cable cars, power plants and the like.

Background

In the occasion of using the wire rope to realize the traction transportation of a larger load, the rope holding mode needs to be stable and reliable. The clamping mechanism is required to have enough clamping force, and the steel wire rope cannot be damaged, so that the safety is ensured. Normally when the transportation to winding form, wire rope is pull in the centre gripping, and the cross-section of steel wire can produce serious deformation in the atress traction process, and again, winding form's centre gripping, its wire rope's front end length is longer, can produce resonance, causes very big influence to security and stationarity.

Disclosure of Invention

In order to solve the defects, the invention provides a novel double-row chain rope holding mechanism which effectively avoids the defects that the cross section of a steel wire can be seriously deformed in the process of forced traction when a traction steel wire rope is clamped in a winding mode, and the front end of the steel wire rope can be resonated and greatly affects the safety and the stability when the front end of the steel wire rope is clamped in a winding mode in the prior art.

In order to overcome the defects in the prior art, the invention provides a solution of a novel double-row chain rope holding mechanism, which comprises the following specific steps: a novel double-row chain rope holding mechanism comprises: the clamping carrier adopts a double-chain structure and is provided with a polymer clamping carrier, and the groove bottom of the clamping steel wire rope is in a semi-arc shape and is matched with the diameter of the rope. The clamping carriers can be spliced into a closed-loop chain structure, and an auxiliary driving part is matched with the upper closed-loop chain structure and the lower closed-loop chain structure to finish large clamping force and linear direction traction on the steel wire rope.

This novel rope mechanism is held to double row chain, the essential element includes: a chain link round pin axle 1 for through connection duplex structure, every chain link round pin axle all is equipped with two split pins 2 and prevents the axial float, all has box supporting body 3 and pin thread supporting body 7 in the middle of every double chain link of group, installs gyro wheel 4 additional in the middle of every kind of carrier and is used for bearing, and gyro wheel 4 is fixed inside with two kinds of round pins respectively, and one kind is gyro wheel short pin axle 5, and another kind is gyro wheel long pin axle 8, and both sides installation pin thread chain link 9 and box link joint 10 install the polymer supporting body at last and press from both sides tightly 6.

The carrier in the middle of install gyro wheel 4 additional, transmit clamping-force to box supporting body 3 and pin supporting body 7 through supplementary hydraulic pressure spare for centre gripping wire rope provides enough clamp force, at corresponding guide rail surface, roll along straight line traction direction simultaneously, go out the rope.

The polymer clamping bearing body 6 is arranged on the female buckle bearing body 3 and the male buckle bearing body 7, and different corresponding semicircular grooves are formed in different steel wire ropes so as to facilitate replacement, and flexible load transferring and clamping are realized.

The male buckle chain link 9 and the female buckle chain link 10 are connected at two sides, and are a unit body forming a double-row chain rope holding mechanism, a plurality of unit bodies are combined to form a closed-loop chain structure, and are combined up and down to press and clamp to be pulled in a linear mode.

The roller 4 is arranged below the double-row rope holding mechanism and used for guiding the whole rope holding mechanism.

The male buckle chain link 9 and the female buckle chain plate 10 are arranged on two sides to provide synchronous chain transmission.

The chain link pin shaft 1 is used for realizing that the double-row rope holding units are strung to form a closed chain structure.

The polymer clamping bearing body 6 is used for clamping the transmission of the steel wire rope and is pulled in a linear mode.

The macromolecule clamping bearing body 6 is replaceable in an internal groove shape and is used for steel wire ropes of different types.

Therefore, the steel wire rope can be ensured not to be wound under the condition of large load, and the linear and section deformation of the steel wire rope is reduced; the flexible load transmission clamping is realized, and the dual purposes of clamping, traction and protecting the steel wire rope body are effectively realized. The steel wire rope is pulled in a linear mode, so that the resonance phenomenon caused by the fact that the steel wire rope is pulled outwards for a long time is avoided, and the pulling stability is improved.

This novel rope mechanism is held to double-row chain, as a cell cube, numerous cell cubes link together, and the combination forms closed loop chain structure, and two are stretched chain structure and are placed from top to bottom, and the middle wire rope that will the centre gripping. When the steel wire rope clamping device works, the hydraulic oil cylinder below the lower chain is pushed upwards, so that the upper chain and the lower chain are provided with the bearing transmission bodies corresponding to the semicircular grooves, and the steel wire rope is clamped tightly. Chain type driving devices are arranged in front of the upper chain and the lower chain to drive the upper chain and the lower chain to rotate inwards, and chain type linear traction is realized on the fixed guide rail surface through the idler wheels, so that the effects of protecting a steel wire rope, reducing deformation and the like are achieved.

The invention has the beneficial effects that: the invention realizes that the safety and the stability of the steel wire rope are improved and the service life is prolonged in the continuous clamping and traction process. The defects that in the prior art, the cross section of the steel wire can be seriously deformed in the process of forced traction due to the fact that the steel wire rope is clamped and pulled in a winding mode, resonance can be generated due to the fact that the front end of the steel wire rope is clamped in the winding mode, and the safety and the stability are greatly affected are effectively overcome.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that for a person skilled in the art, other drawings can be derived from these drawings without inventive effort.

Fig. 1 is a perspective view of the novel double-row chain rope holding mechanism of the present invention.

Fig. 2 is an exploded view of the novel double row chain retention mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples.

As shown in fig. 1-2, the novel double-row chain rope holding mechanism comprises: the clamping carrier adopts a double-chain structure and is provided with a polymer clamping carrier, and the groove bottom of the clamping steel wire rope is in a semi-arc shape and is matched with the diameter of the rope. The clamping carriers can be spliced into a closed-loop chain structure, and an auxiliary driving part is matched with the upper closed-loop chain structure and the lower closed-loop chain structure to finish large clamping force and linear direction traction on the steel wire rope.

This novel rope mechanism is held to double row chain, the essential element includes: a chain link round pin axle 1 for through connection duplex structure, every chain link round pin axle all is equipped with two split pins 2 and prevents the axial float, all has box supporting body 3 and pin thread supporting body 7 in the middle of every double chain link of group, installs gyro wheel 4 additional in the middle of every kind of carrier and is used for bearing, and gyro wheel 4 is fixed inside with two kinds of round pins respectively, and one kind is gyro wheel short pin axle 5, and another kind is gyro wheel long pin axle 8, and both sides installation pin thread chain link 9 and box link joint 10 install the polymer supporting body at last and press from both sides tightly 6.

The carrier in the middle of install gyro wheel 4 additional, transmit clamping-force to box supporting body 3 and pin supporting body 7 through supplementary hydraulic pressure spare for centre gripping wire rope provides enough clamp force, at corresponding guide rail surface, roll along straight line traction direction simultaneously, go out the rope.

The polymer clamping bearing body 6 is arranged on the female buckle bearing body 3 and the male buckle bearing body 7, and different corresponding semicircular grooves are formed in different steel wire ropes so as to facilitate replacement, and flexible load transferring and clamping are realized.

The male buckle chain link 9 and the female buckle chain link 10 are connected at two sides, and are a unit body forming a double-row chain rope holding mechanism, a plurality of unit bodies are combined to form a closed-loop chain structure, and are combined up and down to press and clamp to be pulled in a linear mode.

The roller 4 is arranged below the double-row rope holding mechanism and used for guiding the whole rope holding mechanism.

The male buckle chain link 9 and the female buckle chain plate 10 are arranged on two sides to provide synchronous chain transmission.

The chain link pin shaft 1 is used for realizing that the double-row rope holding units are strung to form a closed chain structure.

The polymer clamping bearing body 6 is used for clamping the transmission of the steel wire rope and is pulled in a linear mode.

The macromolecule clamping bearing body 6 is replaceable in an internal groove shape and is used for steel wire ropes of different types.

Therefore, the steel wire rope can be ensured not to be wound under the condition of large load, and the linear and section deformation of the steel wire rope is reduced; the flexible load transmission clamping is realized, and the dual purposes of clamping, traction and protecting the steel wire rope body are effectively realized. The steel wire rope is pulled in a linear mode, so that the resonance phenomenon caused by the fact that the steel wire rope is pulled outwards for a long time is avoided, and the pulling stability is improved.

This novel rope mechanism is held to double-row chain, as a cell cube, numerous cell cubes link together, and the combination forms closed loop chain structure, and two are stretched chain structure and are placed from top to bottom, and the middle wire rope that will the centre gripping. When the steel wire rope clamping device works, the hydraulic oil cylinder below the lower chain is pushed upwards, so that the upper chain and the lower chain are provided with the bearing transmission bodies corresponding to the semicircular grooves, and the steel wire rope is clamped tightly. Chain type driving devices are arranged in front of the upper chain and the lower chain to drive the upper chain and the lower chain to rotate inwards, and chain type linear traction is realized on the fixed guide rail surface through the idler wheels, so that the effects of protecting a steel wire rope, reducing deformation and the like are achieved.

The present invention has been described in the foregoing embodiments, and it should be understood by those skilled in the art that the present disclosure is not limited to the above-described embodiments, but various changes, modifications and substitutions can be made without departing from the scope of the present invention.

Claims (1)

1. A novel double-row chain rope holding mechanism is characterized by comprising: the clamping carrier adopts a double-chain structure and is provided with a polymer clamping carrier, and the bottom of the clamping steel wire rope is in a semi-arc shape and is matched with the diameter of the rope; the clamping carriers can be spliced into a closed-loop chain structure, and the upper and lower closed-loop chain structures are matched with auxiliary driving parts to finish larger clamping force and linear traction on the steel wire rope,

wherein, novel rope mechanism is held to double row chain, the essential element includes: each chain link pin shaft is provided with two cotter pins for stopping axial movement, a female buckle bearing body and a male buckle bearing body are arranged in the middle of each group of double-row chain links, a roller is additionally arranged in the middle of the female buckle bearing body and the male buckle bearing body for bearing, the roller is respectively fixed inside by two pin shafts, one is a roller short pin shaft, the other is a roller long pin shaft, the male buckle chain links and the female buckle chain plates are arranged on the two sides, and finally a polymer clamping bearing body is arranged,

wherein, the roller is additionally arranged between the female buckle bearing body and the male buckle bearing body, the clamping force is transmitted to the female buckle bearing body and the male buckle bearing body through the auxiliary hydraulic part to provide enough clamping force for clamping the steel wire rope, and simultaneously, the steel wire rope rolls along the straight traction direction on the corresponding guide rail surface until the steel wire rope is discharged,

wherein the polymer clamping bearing body is arranged on the female buckle bearing body and the male buckle bearing body, different semicircular grooves corresponding to different steel wire ropes are arranged for convenient replacement, flexible load transferring and clamping are realized,

wherein, both sides of the female buckle bearing body and the male buckle bearing body are provided with a male buckle chain link and a female buckle chain plate for connection, the male buckle chain link and the female buckle chain plate are a unit body forming a double-row chain rope holding mechanism, a plurality of unit bodies are combined to form a closed-loop chain structure and are combined up and down to press and clamp to be drawn in a straight line form,

wherein the roller is arranged below the double-row rope holding mechanism and used for guiding the whole rope holding mechanism,

wherein the male buckle chain link and the female buckle chain link are arranged at two sides to provide synchronous chain transmission,

wherein, the chain link pin shaft is used for realizing that the double-row rope holding units are strung to form a closed chain structure,

wherein the polymer clamping carrier is used for clamping the transmission of the steel wire rope and is pulled in a linear mode,

the polymer clamping bearing body is replaceable in an internal groove shape and is used for steel wire ropes of different models.

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