CN111692287A

CN111692287A - Special tow chain system of aerial working platform

Info

Publication number: CN111692287A
Application number: CN202010505359.XA
Authority: CN
Inventors: 罗磊; 莫鹏举; 王海滨; 邓富强
Original assignee: Nantong Rainbow Heavy Machineries Co Ltd
Current assignee: Jiangsu Runbang Industrial Equipment Co., Ltd
Priority date: 2020-06-05
Filing date: 2020-06-05
Publication date: 2020-09-22
Anticipated expiration: 2040-06-05
Also published as: CN111692287B

Abstract

The invention discloses a special towline system for an aerial working platform, which comprises a square pipe, a chute and a towline, wherein the chute comprises an upper chute and a lower chute, the upper chute is fixed on the upper side of the lower chute and one end part of the upper chute and one end part of the lower chute are communicated up and down, the other ends of the upper chute and the lower chute are fixed on a second knuckle arm of the platform, a transversely arranged chute is arranged on the inner side wall of the lower chute, one end of the towline is fixed on the first knuckle arm of the platform, the other end of the towline sequentially penetrates through the inner part of the lower chute and the inner part of the upper chute and is fixedly connected with one end of the square pipe, the square pipe is arranged in the upper chute in a sliding manner and can freely slide along the inner wall of the upper chute, and the. The whole drag chain is wrapped in the sliding groove, so that the drag chain, the electric pipeline and the hydraulic pipeline move in the sliding groove and are separated from the external environment, and a good protection effect is achieved.

Description

Special tow chain system of aerial working platform

Technical Field

The invention relates to a drag chain system, in particular to a drag chain system special for an aerial work platform, and belongs to the field of electricity.

Background

The arm support of the aerial work platform is usually a three-section arm support, the three sections of arms can be mutually telescopic, in the telescopic process, electric and hydraulic pipelines also need to move along with the three sections of arms, and in order to prevent the pipelines from winding, wearing, interfering and other problems in the moving process, the pipelines are usually protected by adopting a drag chain structure. However, the drag chain is used as a protection device of the pipeline, and is a component which is easy to damage, and the drag chain is found to be stuck when silt or concrete slag falls onto the drag chain in the outdoor operation process of the aerial work platform to cause the drag chain to move, so that the damage of the drag chain is caused, and the operation stability of the aerial work platform is influenced.

Disclosure of Invention

The invention aims to provide a special drag chain system for an aerial work platform, and solves the problem that outdoor work sediment or concrete slag falls onto a drag chain to cause the drag chain to be locked.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a special tow chain system of high altitude construction platform which characterized in that: contain square pipe, spout and tow chain, the spout contains upper spout and lower floor's spout, the spout of upper strata is fixed at lower floor's spout upside and the one end tip of upper spout and lower floor's spout communicates from top to bottom, the other end of upper spout and lower floor's spout is fixed on platform second festival arm, it has a channel of horizontal setting to open on the inboard lateral wall of lower floor's spout, tow chain one end is fixed on the first festival arm of platform and the tow chain other end passes lower floor's spout in proper order inside, the inside back of upper spout and square pipe one end fixed connection, square pipe slides and sets up and can freely slide along upper spout inner wall in the upper spout, square pipe other end is fixed on platform third festival arm.

Further, platform third festival arm one end sets up in platform second festival arm and can freely slide along platform second festival arm inner wall, and platform second festival arm one end sets up in platform first festival arm and can freely slide along platform first festival arm inner wall.

Furthermore, a square tube fixing frame is fixed at the end part of the other end of the third section arm of the platform, and the end part of the other end of the square tube is fixedly arranged on the square tube fixing frame.

Furthermore, a sliding groove fixing support is fixed at the end part of the other end of the second section arm of the platform, and an upper sliding groove of the sliding groove and the other end of the lower sliding groove are fixed on the sliding groove fixing support.

Furthermore, one end of the drag chain is fixed at the end part of the first section arm of the platform through a drag chain fixing bracket.

Furthermore, one end parts of the upper layer sliding groove and the lower layer sliding groove are in transition communication through a circular arc-shaped end part shell, the shape of the circular arc-shaped end part shell is matched with the upper layer bending shape and the lower layer bending shape of the drag chain, a supporting wheel, a limiting wheel and a supporting block are arranged in the circular arc-shaped end part shell, two ends of the supporting wheel are rotatably arranged on two sides of the circular arc-shaped end part shell, the supporting block is a wedge-shaped block and is fixed in the sliding groove, two ends of the limiting wheel are rotatably arranged on side walls of two sides of the sliding groove, and the distance between.

Furthermore, one end part of the sliding groove is arranged on the first section arm of the platform in a sliding mode through a sliding mechanism.

Further, slide mechanism contains pulley, slide bar and slide bar support, and the pulley rotates the one end tip downside that sets up at the spout, and the slide bar sets up and fixes in the first section arm side of platform through the slide bar support along the length direction of the first section arm of platform, and the pulley setting is in the slide bar upper end and can make a round trip to walk at the horizontal direction along the slide bar.

Furthermore, the upper side surface of the slide bar is in an inverted V shape and protrudes upwards, a V-shaped groove matched with the protrusion on the upper side of the slide bar is formed in the pulley, and the pulley is arranged on the protrusion on the upper side of the slide bar through the V-shaped groove.

Further, be provided with electric, hydraulic pressure pipeline in tow chain and the square pipe, electric, hydraulic pressure pipeline one end is fixed at the tip of the first section arm of platform, and electric, hydraulic pressure pipeline other end penetrates in the spout of lower floor from the inboard channel of spout of lower floor, then penetrates in tow chain and the side pipe in proper order, and electric, hydraulic pressure pipeline other end tip is worn out square pipe other end tip and is fixed at the other end tip of the third section arm of platform.

Compared with the prior art, the invention has the following advantages and effects: the whole drag chain is wrapped in the sliding groove, so that the drag chain, the electric pipeline and the hydraulic pipeline move in the sliding groove and are separated from the external environment, and a good protection effect is achieved. In addition, a V-shaped sliding rod is arranged on the first section arm, a V-shaped pulley is arranged at the bottom of the whole drag chain system, and the whole drag chain system moves back and forth on the sliding rod through the pulley. Because the spout can have the supporting role to the tow chain all the time, consequently do not have the requirement to the rigidity of tow chain to make things convenient for tow chain selection reduce cost.

Drawings

Fig. 1 is a schematic diagram of a special drag chain system for an aerial work platform of the invention.

Fig. 2 is a schematic a-a diagram of a special tow chain system for an aerial work platform of the present invention.

FIG. 3 is a schematic B-B diagram of a special tow chain system for an aerial work platform of the present invention.

Detailed Description

To elaborate on technical solutions adopted by the present invention to achieve predetermined technical objects, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, it is obvious that the described embodiments are only partial embodiments of the present invention, not all embodiments, and technical means or technical features in the embodiments of the present invention may be replaced without creative efforts, and the present invention will be described in detail below with reference to the drawings and in conjunction with the embodiments.

As shown in fig. 1, 2 and 3, the special drag chain system for the aerial work platform comprises a square pipe 1, a sliding groove 2 and a drag chain 3, wherein the sliding groove 2 comprises an upper sliding groove 4 and a lower sliding groove 5, the upper sliding groove 4 is fixed on the upper side of the lower sliding groove 5, one end parts of the upper sliding groove 4 and the lower sliding groove 5 are communicated up and down, the other ends of the upper sliding groove 4 and the lower sliding groove 5 are fixed on a second knuckle arm 6 of the platform, a transverse channel 9 is formed in the inner side wall of the lower sliding groove 5, one end of the drag chain 3 is fixed on the first knuckle arm 6 of the platform, the other end of the drag chain 3 sequentially penetrates through the inner part of the lower sliding groove 5 and is fixedly connected with one end of the square pipe 1 after the inner part of the upper sliding groove 4, the square pipe 1 is slidably arranged in the upper sliding groove 4 and can freely slide along the inner wall of the upper sliding groove 4, and the. The system is suitable for the three-section arm frame, one end of the drag chain is fixed on the first section arm of the platform, the other end of the drag chain is connected with the third section arm of the platform through a square pipe, the whole drag chain is arranged in a sliding groove connected with the second section arm of the platform, the sliding groove and the drag chain extend out simultaneously along with the extension of the arm frame, but the extending speed of the drag chain is one time faster than that of the sliding groove, so that relative motion can be generated on the sliding groove, namely the drag chain can gradually move from a lower layer groove of the sliding groove to an upper layer groove of the.

One end of the platform third knuckle arm 8 is arranged in the platform second knuckle arm 7 and can freely slide along the inner wall of the platform second knuckle arm 7, and one end of the platform second knuckle arm 7 is arranged in the platform first knuckle arm 6 and can freely slide along the inner wall of the platform first knuckle arm 6.

The other end of the third arm section 8 of the platform is fixed with a square tube fixing frame 10, and the other end of the square tube 1 is fixed on the square tube fixing frame 10. The other end of the second section arm 7 of the platform is fixed with a chute fixing bracket 11, and the chute 4 on the upper layer of the chute 2 and the chute fixing bracket 11 on the other end of the chute 5 on the lower layer are fixed. One end of the drag chain 3 is fixed at the end of the platform first knuckle arm 6 through a drag chain fixing bracket 12.

One end parts of the upper layer sliding groove 4 and the lower layer sliding groove 5 are in transition communication through a circular arc-shaped end part shell 13, the shape of the circular arc-shaped end part shell 13 is matched with the upper layer and lower layer bending shapes of the drag chain 3, a supporting wheel 14, a limiting wheel 15 and a supporting block 16 are arranged in the circular arc-shaped end part shell 13, two ends of the supporting wheel 14 are rotatably arranged on two sides of the circular arc-shaped end part shell 13, the supporting block 16 is a wedge-shaped block and the supporting block 16 is fixed in the sliding groove 2, two ends of the limiting wheel 15 are rotatably arranged on the side walls of two sides of the sliding groove 2, and the distance between.

One end part of the sliding chute 2 is arranged on the first section arm 6 of the platform in a sliding way through a sliding mechanism. The sliding mechanism comprises a pulley 17, a sliding rod 18 and a sliding rod support 19, wherein the pulley 17 is rotatably arranged at the lower side of one end part of the sliding chute 2, the sliding rod 18 is arranged along the length direction of the first section arm 6 of the platform and is fixed on the side surface of the first section arm 6 of the platform through the sliding rod support 19, and the pulley 17 is arranged at the upper end of the sliding rod 18 and can move back and forth along the sliding rod 18 in the horizontal direction. The upper side surface of the sliding rod 18 is in an inverted V shape and protrudes to the upper side, a V-shaped groove matched with the protrusion on the upper side of the sliding rod 18 is formed in the pulley 17, and the pulley 17 is arranged on the protrusion on the upper side of the sliding rod 18 through the V-shaped groove.

Electric and hydraulic pipelines are arranged in the drag chain 3 and the square pipe 1, one end of each electric and hydraulic pipeline is fixed at the end of the first section arm 6 of the platform, the other end of each electric and hydraulic pipeline penetrates into the lower-layer sliding groove 5 from the channel 9 on the inner side of the lower-layer sliding groove 5 and then penetrates into the drag chain 3 and the square pipe 1 in sequence, and the end of the other end of each electric and hydraulic pipeline penetrates out of the end of the other end of the square pipe 1 and is fixed at the end of the other end of the third section.

The working principle of the invention is as follows: when the first section of arm 6 of platform is fixed, when platform second section arm 7 and platform third section arm 8 stretch out simultaneously, platform second section arm 7 and platform third section arm 8 take spout 2 and square pipe 1 motion respectively, and square pipe 1 can take the tow chain 3 of being connected with it to move together simultaneously. And the other end of the drag chain 3 is connected with the first section arm 6 of the platform through the drag chain fixing support 12, and is in the upper and lower two-layer groove of the sliding groove 2, because the moving speed of the third section arm 8 of the platform is twice of that of the second section arm 7 of the platform, therefore along with the gradual extension of the second section arm 7 of the platform and the third section arm 8 of the platform, the drag chain 3 can generate relative motion to the sliding groove, gradually transit motion from the sliding groove 5 of the lower layer to the sliding groove 4 of the upper layer through the supporting wheel 14, and meanwhile, the motion trail of the drag chain is normalized and limited by the limiting wheel 16 (the position of which can be. When the arm support stretches out in place, the drag chain 3 and the electric and hydraulic pipelines in the drag chain synchronously stretch out in place. And similarly, when the second section arm 7 of the platform and the third section arm 8 of the platform retract simultaneously, the sliding chute 2 and the square pipe 1 retract synchronously, the drag chain 3 and the electric and hydraulic pipelines therein move to the sliding chute 5 at the lower layer from the sliding chute 4 at the upper layer step by step, and when the second section arm 7 of the platform and the third section arm 8 of the platform retract to the right position, the drag chain 3 and the electric and hydraulic pipelines therein retract to the right position synchronously, thereby completing one motion cycle of the drag chain system.

The whole drag chain is wrapped in the sliding groove, so that the drag chain, the electric pipeline and the hydraulic pipeline move in the sliding groove and are separated from the external environment, and a good protection effect is achieved. In addition, a V-shaped sliding rod is arranged on the first section arm, a V-shaped pulley is arranged at the bottom of the whole drag chain system, and the whole drag chain system moves back and forth on the sliding rod through the pulley. Because the spout can have the supporting role to the tow chain all the time, consequently do not have the requirement to the rigidity of tow chain to make things convenient for tow chain selection reduce cost.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a special tow chain system of high altitude construction platform which characterized in that: contain square pipe, spout and tow chain, the spout contains upper spout and lower floor's spout, the spout of upper strata is fixed at lower floor's spout upside and the one end tip of upper spout and lower floor's spout communicates from top to bottom, the other end of upper spout and lower floor's spout is fixed on platform second festival arm, it has a channel of horizontal setting to open on the inboard lateral wall of lower floor's spout, tow chain one end is fixed on the first festival arm of platform and the tow chain other end passes lower floor's spout in proper order inside, the inside back of upper spout and square pipe one end fixed connection, square pipe slides and sets up and can freely slide along upper spout inner wall in the upper spout, square pipe other end is fixed on platform third festival arm.

2. The special tow chain system for aerial work platform of claim 1, wherein: platform third festival arm one end sets up in platform second festival arm and can freely slide along platform second festival arm inner wall, and platform second festival arm one end sets up in platform first festival arm and can freely slide along platform first festival arm inner wall.

3. A special tow chain system for aerial work platforms according to claim 2, characterised in that: the other end of the third arm section of the platform is fixedly provided with a square tube fixing frame, and the other end of the square tube is fixedly arranged on the square tube fixing frame.

4. A special tow chain system for aerial work platforms according to claim 2, characterised in that: and a sliding chute fixing support is fixed at the end part of the other end of the second section arm of the platform, and an upper sliding chute of the sliding chute and the other end of a lower sliding chute of the sliding chute are fixed on the sliding chute fixing support.

5. A special tow chain system for aerial work platforms according to claim 2, characterised in that: one end of the drag chain is fixed at the end part of the first section arm of the platform through a drag chain fixing support.

6. The special tow chain system for aerial work platform of claim 1, wherein: the end parts of one ends of the upper layer sliding groove and the lower layer sliding groove are in transition communication through the arc-shaped end part shell, the shape of the arc-shaped end part shell is matched with the upper layer bending shape and the lower layer bending shape of the drag chain, the supporting wheel, the limiting wheel and the supporting block are arranged in the arc-shaped end part shell, the two ends of the supporting wheel are rotatably arranged on the two sides of the arc-shaped end part shell, the supporting block is a wedge-shaped block and is arranged in the sliding groove, the two ends of the limiting wheel are rotatably arranged on the side walls of the two sides of the sliding.

7. The special tow chain system for aerial work platform of claim 6, wherein: one end part of the sliding groove is arranged on the first section arm of the platform in a sliding mode through a sliding mechanism.

8. A special tow chain system for aerial work platforms according to claim 7 wherein: slide mechanism contains pulley, slide bar and slide bar support, and the pulley rotates the one end tip downside that sets up at the spout, and the slide bar sets up and fixes in the first section arm side of platform through the slide bar support along the length direction of the first section arm of platform, and the pulley setting is in the slide bar upper end and can make a round trip to walk at the horizontal direction along the slide bar.

9. A special tow chain system for aerial work platforms according to claim 8, characterised in that: the upper side surface of the slide bar is in an inverted V shape and protrudes upwards, the pulley is provided with a V-shaped groove matched with the protrusion on the upper side of the slide bar, and the pulley is arranged on the protrusion on the upper side of the slide bar through the V-shaped groove.

10. The special tow chain system for aerial work platform of claim 1, wherein: electric and hydraulic pipelines are arranged in the drag chain and the square pipe, one ends of the electric and hydraulic pipelines are fixed at the end part of the first section arm of the platform, the other ends of the electric and hydraulic pipelines penetrate into the lower-layer chute from the channel on the inner side of the lower-layer chute and then penetrate into the drag chain and the square pipe in sequence, and the end part of the other ends of the electric and hydraulic pipelines penetrates out of the end part of the other end of the square pipe and is fixed at the end part of the other end of the.