CN210457239U - Self-propelled and layered structure cable bearing device structure of cable hoisting system - Google Patents
Self-propelled and layered structure cable bearing device structure of cable hoisting system Download PDFInfo
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- CN210457239U CN210457239U CN201921312886.8U CN201921312886U CN210457239U CN 210457239 U CN210457239 U CN 210457239U CN 201921312886 U CN201921312886 U CN 201921312886U CN 210457239 U CN210457239 U CN 210457239U
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Abstract
The utility model discloses a self-propelled and layered structure cable bearing device structure of a cable hoisting system, which comprises an upper travelling mechanism, a middle traction mechanism and a lower hoisting mechanism; the upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley, a corresponding side wall plate and positioning rope anchoring areas on two sides, and is connected with a shaft sleeve through a pin shaft, and the shaft sleeve on the top of the traction rope adopts a fillet form; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve. An object of the utility model is to provide a cable hoist and mount system self-propelled, layered structure hold a rope ware tectonic structure, the solution that can be fine holds twisting of a rope ware, can effectively avoid haulage rope, jack-up rope, location rope and bearing rope winding scheduling problem simultaneously. Thereby reducing the operation risk of the cable crane system and ensuring the normal, safe and smooth operation of the system.
Description
Technical Field
The utility model relates to a cable hoist and mount field, particularly a cable hoist and mount system self-propelled, layered structure hold cable ware structural construction.
Background
The cable crane system is generally large in span, heavy in crane weight and various in steel rope types, so that a certain number of rope bearings are required to be arranged on two sides of the sports car to comb the traction rope and the lifting rope, and meanwhile, the cable crane system is also used for reducing the span of the traction rope and the lifting rope, reducing the tension of the traction rope and the lifting rope, reducing the load of a winch and improving the safety of the system. The conventional rope bearing device mostly adopts a mode that a single positioning rope and a traction rope are arranged above a bearing rope, and the mode is easy to cause torsion of the rope bearing device, so that the bearing rope, the traction rope and a hoisting rope are damaged by friction with wall plates on two sides; meanwhile, the traction rope, the hoisting rope, the positioning rope and the bearing rope can be wound to influence the smoothness and the safety of the system operation. Therefore, a novel cable bearing device is needed to solve the problems.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a cable hoist and mount system self-propelled, layered structure hold a rope ware tectonic structure, the solution that can be fine holds twisting of a rope ware, can effectively avoid haulage rope, jack-up rope, location rope and bearing rope winding scheduling problem simultaneously. Thereby reducing the operation risk of the cable crane system and ensuring the normal, safe and smooth operation of the system.
The utility model discloses a realize like this, construct a cable hoist and mount system self-propelled, layered structure and hold cable ware structure, its characterized in that: the traction mechanism comprises a walking mechanism on the upper portion, a traction mechanism in the middle portion and a hoisting mechanism on the lower portion, wherein the three portions are connected into a whole through a pin shaft. The upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley, a corresponding side wall plate and positioning rope anchoring areas on two sides, the traction pulley is connected with the shaft sleeve through a pin shaft, and the shaft sleeve on the top of the traction rope is in a fillet form, so that the traction rope is prevented from being damaged due to chamfer friction with the shaft sleeve after being tightened and lifted; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve.
According to cable hoist system self-propelled, layered structure hold cable ware tectonic structure, its characterized in that: in the running process of the cable system, the cable bearing device realizes self-walking through the action of the positioning rope and the sports car, the cable bearing device in front of the sports car advances under the pushing of the sports car, and the cable bearing device behind the sports car advances under the traction of the positioning rope; the traction rope, the hoisting rope and the positioning rope are uniformly distributed below the bearing rope through layered arranged running lines; meanwhile, the positioning ropes are arranged on two sides of the rope bearing device, so that collision with the traction rope and the hoisting rope is avoided.
A self-propelled and layered structure cable bearing device structure installation method of a cable hoisting system is characterized in that: the installation sequence is as follows:
the method comprises the following steps: firstly, assembling a traveling mechanism at the upper part and a hoisting mechanism at the lower part on the flat ground;
step two: firstly, a tower crane is utilized to place a travelling mechanism above a bearing cable and prevent the travelling mechanism from sliding downwards;
step three: hoisting the hoisting mechanism part from bottom to top by using a tower crane;
step four: after the hoisting mechanism part is hoisted in place, the pin shaft and the shaft sleeve are sequentially arranged in corresponding positions;
step five: and finally, sequentially installing the pin shaft, the pulley and the shaft sleeve of the traction mechanism in the middle into corresponding positions to complete the installation of the cable bearing device.
The utility model has the advantages that: the utility model provides a cable hoist and mount system self-propelled, layered structure hold cable ware tectonic structure here, including the running gear on upper portion, the drive mechanism at middle part and the hoisting mechanism of lower part, the three all forms wholly through the round pin hub connection. The upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley, a corresponding side wall plate and positioning rope anchoring areas on two sides, the traction pulley is connected with the shaft sleeve through a pin shaft, and the shaft sleeve on the top of the traction rope is in a fillet form, so that the traction rope is prevented from being damaged due to chamfer friction with the shaft sleeve after being tightened and lifted; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve. For the utility model, (1) the self-propelled cable bearing device does not need to be provided with a traction winch for providing power; (2) the layered rope bearing device can effectively layer and limit the bearing rope, the traction rope, the hoisting rope and the positioning rope, and can well solve the problems of winding of various steel ropes in the air and the like; (3) the double-positioning rope mode can effectively prevent the rope bearing device from twisting, so that the friction damage of the bearing rope, the traction rope and the hoisting rope and the wall plates on the two sides is avoided; (4) the chamfer angle of the shaft sleeve adopts a fillet form, so that the friction damage between the traction rope and the chamfer angle of the shaft sleeve can be effectively reduced; (5) the traction rope, the hoisting rope and the positioning rope of the layered cable bearing device are all arranged below the bearing rope, so that the conflict between the traction rope, the hoisting rope, the positioning rope and the bearing rope is effectively avoided, the normal operation of a cable crane system is further ensured, and the construction risk is reduced.
Drawings
Fig. 1-2 are general schematic views of the cable bearer;
fig. 3 is a sequence diagram of the cable bearer assembly on site.
Wherein: the cable crane comprises a cable crane bearing rope 1, a cable crane traction rope 2, a cable crane hoisting rope 3, a bearing rope pulley 4, a traction pulley 5, a pulley 6, a positioning rope 7 and a shaft sleeve 8 with a rounded corner.
Detailed Description
The present invention will be described in detail with reference to fig. 1 to 3, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
As shown in the figure: the utility model provides a cable hoist and mount system self-propelled, layered structure hold a rope ware structure, the solution that can be fine holds twisting of a rope ware, can effectively avoid haulage rope, jack-up rope, location rope and bearing rope winding scheduling problem simultaneously. Thereby reducing the operation risk of the cable crane system and ensuring the normal, safe and smooth operation of the system. The traction mechanism comprises a walking mechanism on the upper portion, a traction mechanism in the middle portion and a hoisting mechanism on the lower portion, wherein the three portions are connected into a whole through a pin shaft. The upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley, a corresponding side wall plate and positioning rope anchoring areas on two sides, the traction pulley is connected with the shaft sleeve through a pin shaft, and the shaft sleeve on the top of the traction rope is in a fillet form, so that the traction rope is prevented from being damaged due to chamfer friction with the shaft sleeve after being tightened and lifted; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve.
In the operation process of the cable system, the cable bearing device automatically walks under the action of the positioning rope and the sports car, the cable bearing device in front of the sports car advances under the pushing of the sports car, and the cable bearing device behind the sports car advances under the traction of the positioning rope. The traction rope, the hoisting rope and the positioning rope are uniformly distributed below the bearing rope through layered arranged running lines; meanwhile, the positioning ropes are arranged on two sides of the rope bearing device, so that collision with the traction rope and the hoisting rope is avoided.
The self-propelled, layered structure cable bearer construction of a cable hoist system is installed in the following sequence, as shown in fig. 3;
firstly, ①② parts in the upper figure 3 are assembled on a flat ground;
step two, firstly, ① parts in the upper drawing are placed above the bearing rope by using a tower crane and prevented from sliding downwards;
hoisting ② part of the upper drawing from bottom to top by using a tower crane;
fourthly, after the ② part is hoisted in place, sequentially installing the pin shaft of the ③ part and the shaft sleeve thereof into corresponding positions;
and step five, sequentially installing the pin shaft, the pulley and the shaft sleeve of the ④ part in the figure into corresponding positions to finish the installation of the cable bearing device.
The utility model discloses a cable hoist and mount system self-propelled, layered structure hold cable ware tectonic structure and mounting method, its characterized in that: the traction mechanism comprises a walking mechanism on the upper portion, a traction mechanism in the middle portion and a hoisting mechanism on the lower portion, wherein the three portions are connected into a whole through a pin shaft. The upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley, a corresponding side wall plate and positioning rope anchoring areas on two sides, the traction pulley is connected with the shaft sleeve through a pin shaft, and the shaft sleeve on the top of the traction rope is in a fillet form, so that the traction rope is prevented from being damaged due to chamfer friction with the shaft sleeve after being tightened and lifted; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve. The utility model discloses an implement: (1) the self-propelled cable bearing device does not need to be provided with a traction winch for providing power; (2) the layered rope bearing device can effectively layer and limit the bearing rope, the traction rope, the hoisting rope and the positioning rope, and can well solve the problems of winding of various steel ropes in the air and the like; (3) the double-positioning rope mode can effectively prevent the rope bearing device from twisting, so that the friction damage of the bearing rope, the traction rope and the hoisting rope and the wall plates on the two sides is avoided; (4) the chamfer angle of the shaft sleeve adopts a fillet form, so that the friction damage between the traction rope and the chamfer angle of the shaft sleeve can be effectively reduced; (5) the traction rope, the hoisting rope and the positioning rope of the layered cable bearing device are all arranged below the bearing rope, so that the conflict between the traction rope, the hoisting rope, the positioning rope and the bearing rope is effectively avoided, the normal operation of a cable crane system is further ensured, and the construction risk is reduced.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (2)
1. The utility model provides a cable hoist and mount system self-propelled, layered structure hold cable ware tectonic structure which characterized in that: the device comprises an upper walking mechanism, a middle traction mechanism and a lower hoisting mechanism, wherein the three parts are connected into a whole through a pin shaft; the upper travelling mechanism comprises travelling wheels and corresponding side wall plates, and is connected with the shaft sleeves through pin shafts; the traction mechanism in the middle comprises a traction pulley (5), a corresponding side wall plate and positioning rope anchoring areas on two sides, the traction pulley is connected with the shaft sleeve through a pin shaft, and the shaft sleeve (8) on the top of the traction rope adopts a fillet form, so that the traction rope is prevented from being damaged due to chamfer friction with the shaft sleeve after being tightened and lifted; the hoisting mechanism at the lower part comprises a hoisting pulley and a corresponding side wall plate which are connected with each other through a pin shaft and a shaft sleeve.
2. A self-propelled, layered construction, cable bearer construction for a cable hoist system as claimed in claim 1, wherein: in the running process of the cable system, the cable bearing device realizes self-walking through the action of the positioning rope and the sports car, the cable bearing device in front of the sports car advances under the pushing of the sports car, and the cable bearing device behind the sports car advances under the traction of the positioning rope; the traction rope, the hoisting rope and the positioning rope are uniformly distributed below the bearing rope through layered arranged running lines; meanwhile, the positioning ropes are arranged on two sides of the rope bearing device, so that collision with the traction rope and the hoisting rope is avoided.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110407111A (en) * | 2019-08-14 | 2019-11-05 | 四川路桥华东建设有限责任公司 | CABLEWAY ERECTION SYSTEM self-propelled, layered structure Rope bearing equipment structural texture and installation method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110407111A (en) * | 2019-08-14 | 2019-11-05 | 四川路桥华东建设有限责任公司 | CABLEWAY ERECTION SYSTEM self-propelled, layered structure Rope bearing equipment structural texture and installation method |
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