CN203602267U

CN203602267U - Asynchronous telescoping built-in pipeline conveying system of aerial work platform

Info

Publication number: CN203602267U
Application number: CN201320629973.2U
Authority: CN
Inventors: 王贤荣; 李星原; 张晓花; 徐庆阳
Original assignee: NANJING AEROSUN-SOOSAN ELECTRO-HYDRAULIC SPECIAL-PURPOSE VEHICLE Co Ltd
Current assignee: Nanjing Aerosun Morita Environmental Protection S&t Co ltd
Priority date: 2013-10-12
Filing date: 2013-10-12
Publication date: 2014-05-21
Anticipated expiration: 2023-10-12

Abstract

The utility model discloses an asynchronous telescoping built-in pipeline conveying system of an aerial work platform. The asynchronous telescoping built-in pipeline conveying system comprises a telescopic boom system and a pipeline conveying system sleeved in the telescopic boom system, wherein the telescopic boom system comprises a first-section boom, a telescopic structure composed by a second-section boom, a third-section boom and a fourth-section boom is sleeved inside the first-section arm by sections, and a corresponding first telescopic oil cylinder, a corresponding second telescopic oil cylinder and a corresponding third telescopic oil cylinder are sequentially arranged between every two sections of section booms; the pipeline conveying system comprises a drag chain as well as an upper conveying frame and a lower conveying frame which are arranged in parallel in a vertical direction, one end of the drag chain is arranged on the upper conveying frame, and the other end of the drag chain is connected to the lower conveying frame after rotating for 180 DEG. The asynchronous telescoping built-in pipeline conveying system is compact in structure, convenient to operate, high in safety performance and long in service life, and can be used as a four-section boom type pipeline conveying system and also a three-section boom type pipeline conveying system.

Description

The asynchronous flexible built-in pipeline conveying system of high-altitude operation platform

Technical field

The utility model relates to the mechanical part of aerial lift device, is specifically related to the asynchronous flexible built-in pipeline conveying system of a kind of high-altitude operation platform.

Background technology

On the workplatform of 4 sections of telescopic booms (or 4 sections of telescopic boom+2 section flexible upper arm+2 section telescopic boom) high-altitude operation platform, be provided with complete machine revolution handling device, walking steering operation device, 4 sections of main working arms rise and fall and the handling device that stretches, 2 sections of upper arm stretch and fluctuating handling device, 2 sections of support arms stretch and fluctuating handling device, workplatform rotary operating device, workplatform handling device, walking and steering operation device, workplatform electronics leveling equipment, emergent stopping handling device, illumination equipment, other devices such as various indicating alarm devices, need to be by cable, hydraulic oil pipes etc. are transported on workplatform by pipeline transport system, on the high-altitude operation platform of the arm-type work of four joints, generally pipeline transport system is arranged on working arm side, built-in or above synchronous telescoping mechanism---adopts the realization of a telescopic oil cylinder+running block, the steel rope of on four sections of working arms, running block being installed is after slider wear, easily wearing and tearing working arm, bring potential safety hazard, avoid as more in foreign material such as iron rust, dust, paint, welding slag, sands under rugged environment simultaneously, easily cause the damage of guide rail carriage.

Find the patent that domestic aerial platform producer applied for two kinds of transport sectors through retrieval.

First patent is that application number is 20062006948.7 utility application, the pipeline transport system of telescopic truck is disclosed, feature is: hydraulic tubing and cable are arranged in telescopic boom, be provided with below by

bracket

1,2 two sections of brackets that form of bracket, bracket 1 one end is fixed on a joint arm, the other end is freely placed on above bracket 2 by slide block: bracket 2 one end are fixed on two joint arms, and the other end is freely placed by slide block; Hydraulic tubing and the cable part after by bracket 1 covers with U-shaped plate, and holder chain is placed on above U-shaped plate; Holder chain, holder chain support, slide block and U-shaped plate are all fixed on same one end of bracket 1; The other end of holder chain is connected with rectangular tube one end, and rectangular tube two ends are fixed by support and three joint arms; Enter rectangular tube from pipeline out of bracket 1 and cable through holder chain, enter operation control cabin and actuating unit by the through wires hole of three joint arms from rectangular tube out.

This Patent design has avoided hydraulic tubing and cable to be arranged on a joint telescopic boom side or drawback above.But be only applicable to the arm-type working arm of three joints, although be all built-inly, high-altitude operation platform pipeline transport system structure is very different with it.High-altitude operation platform built-in pipeline conveying system was not applied for patent at present.According to market research, high-altitude operation platform producer generally adopts Pipeline transport to be placed on working arm one side or top.Be specially: at working arm two ends mounting bracket, guide rail is fixed under support, hydraulic pipe, cable are fixed on carriage by engineering plastics drag chain, and guide rail and carriage are connected by slide block, and the slip by carriage on guide rail realizes the transmission of pipeline.The external feature of Pipeline transport is that the installation and maintenance of pipeline are more convenient, but the use of this structure has certain limitation, as more in foreign material such as iron rust, dust, paint, welding slag, sands under rugged environment, easily cause the damage of guide rail carriage, and the external overall appearance degree of platform and the performance of equipment of affecting of Pipeline transport.

Second patent is that application number is 200920039597.5 utility application, disclose four sections of telescopic boom built-in pipeline conveying systems, feature is: built-in pipeline conveying system of the present utility model comprises the pipeline introducing section that is fixed on one section of arm of aerial lift device frame; Described aerial lift device has the scalable two sections of arms that are nested according to the order of sequence in one section of arm, three sections of arms and four sections of arms; Described pipeline is introduced section and is positioned at both sides, one section of arm top, after its inner is turned round 180 °, becomes drag chain section; Described drag chain section and drag chain are together extended by one section of arm upper center, and turn round 180 ° of inner ends that are fixed to two sections of arms, become afterwards extension; Described extension is extended by two sections of arm inner ends and is wound around 180 ° to being placed on the first roller of one section of arm front end inside, continues extend and be wound around 180 ° to being placed on the second roller of two sections of arms, then continues extend to the outer end of four sections of arms and fix.

It is as more in foreign material such as iron rust, dust, paint, welding slag, sands under rugged environment that this Patent design has been avoided, and easily causes the damage of guide rail carriage, and the external overall appearance degree of platform and the performance of equipment of affecting of Pipeline transport.But be only suitable for the flexible working arm of four segment syncs; The steel rope of simultaneously on four sections of working arms, running block being installed is after slider wear, and the working arm that easily weares and teares, brings potential safety hazard.

Utility model content

Goal of the invention: in order to overcome the deficiencies in the prior art, the utility model provides a kind of high-altitude operation platform asynchronous flexible built-in pipeline conveying system, the utility model will solve the steel rope of on four sections of working arms, running block being installed after slider wear, easily wearing and tearing working arm, bring the problem of potential safety hazard, and be different from the Pipeline transport structure of traditional built-in extension arm aerial lift device, improve the performance of high-altitude operation platform.

Technical scheme: for solving the problems of the technologies described above, the asynchronous flexible built-in pipeline conveying system of a kind of high-altitude operation platform of the present utility model, comprise telescopic boom system and in be placed on the pipeline transport system of telescopic boom system, described telescopic boom system comprises first paragraph arm, first paragraph arm inside is inserted with section by section second segment arm, the 3rd section of arm and the 4th section of arm and forms Collapsible structure, and is provided with successively corresponding the first telescopic oil cylinder, the second telescopic oil cylinder and the 3rd telescopic oil cylinder between every adjacent two sections of section arms; Described pipeline transport system comprises upper carriage and the lower carriage on drag chain, vertical direction, installed side by side, and one end of described drag chain is installed on carriage, and the other end is connected in lower carriage after turning round 180 °.

Wherein, second segment arm, the 3rd section of arm and the 4th section of arm can complete fore and aft motion arbitrarily by corresponding telescopic oil cylinder, and pipeline transport systems is built-in and telescopic boom internal system, can avoid entering of the foreign material such as the oxidation of equipment and dust, welding slag, sand, thereby avoid the damage of upper and lower carriage, increase the service life, improve usage safety performance.

Preferably, the bottom of described the first telescopic oil cylinder, the second telescopic oil cylinder and the 3rd telescopic oil cylinder is all provided with slide block, slide block is conducive to sliding of the first telescopic oil cylinder, the second telescopic oil cylinder and the 3rd telescopic oil cylinder, reduces the loss that friction brings, and can increase the service life.

Preferably, described upper carriage and lower carriage are hollow structure, and first paragraph arm is fixed in one end of upper carriage, and one end of lower carriage is connected in the 4th section of arm; External oil pipe and cable can stretch into carriage and be connected in control system by drag chain and lower carriage successively.

Preferably, described drag chain is the drag chain that corrosion-resistant steel is made, and can certainly be other hard materials.

As preferably, the utility model is applied to asynchronous flexible four sections of arm-type pipeline transport systems, but after the first telescopic oil cylinder is removed, the utility model also can be applicable to asynchronous flexible three sections of arm-type pipeline transport systems.

Beneficial effect: the asynchronous flexible built-in pipeline conveying system of a kind of high-altitude operation platform of the present utility model, compared with prior art has the following advantages:

(1) the utlity model has four sections of telescopic section of arms, can reach maximum use state, realize remote job execution, and after the first telescopic oil cylinder is removed, can be applicable to three sections of arm-type pipeline transport systems;

(2) pipeline transport system in the utility model is built in telescopic boom system, and in pipeline transport system, be built-in with external oil pipe, cable etc., such structure design can avoid the foreign material such as welding slag, sand to enter pipeline transport system wearing and tearing parts, thereby increase the service life, improve usage safety performance;

(3) each telescopic oil cylinder bottom in the utility model is all provided with slide block, is convenient to sliding between telescopic oil cylinder, reduces the wearing and tearing between telescopic oil cylinder;

(4) traditional carriage connects and steel rope, steel rope easily weares and teares, and be connected by drag chain between upper carriage in the utility model and lower carriage, drag chain is the drag chain that corrosion-resistant steel is made, be difficult for loss long service life, and drag chain inside can penetrate the device such as oil pipe, cable, play fixing and protective effect;

In sum, the utility model compact conformation, easy to operate, safety performance is high, and long service life can be used as four sections of arm-type pipeline transport systems and can be used as again three sections of arm-type pipeline transport systems.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is structural representation when four sections of arms stretch out in the utility model;

Fig. 3 is the right elevation of Fig. 1;

Fig. 4 be in Fig. 1 A-A to cutaway view;

Fig. 5 be in Fig. 1 B-B to cutaway view;

Fig. 6 is the schematic diagram of four sections of section arm rounding states in the utility model;

Fig. 7 is the schematic diagram that in the utility model, second segment arm stretches out state;

Fig. 8 is the schematic diagram that second segment arm in the utility model, the 3rd section of arm stretch out state;

Fig. 9 is the schematic diagram that second segment arm in the utility model, the 3rd section of arm, the 4th section of arm stretch out state.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figures 1 to 5, the asynchronous flexible built-in pipeline conveying system of a kind of high-altitude operation platform of the present utility model, comprise telescopic boom system and in be placed on the pipeline transport system of telescopic boom system, telescopic boom system comprises first paragraph arm 1, first paragraph arm 1 inside is inserted with section by section second segment arm 2, the 3rd section of arm 3 and the 4th section of arm 4 and forms Collapsible structure, and is provided with successively corresponding the first telescopic oil cylinder 5, the second telescopic oil cylinder 6 and the 3rd telescopic oil cylinder 7 between every adjacent two sections of section arms; Pipeline transport system comprises upper carriage 9 and the lower carriage 10 on drag chain 8, vertical direction, installed side by side, and one end of drag chain 8 is installed on carriage 9, and the other end is connected in lower carriage 10 after turning round 180 °.

Wherein, the bottom of the first telescopic oil cylinder 5, the second telescopic oil cylinder 6 and the 3rd telescopic oil cylinder 7 is all provided with slide block.

Upper carriage 9 of the present utility model is hollow structure with lower carriage 10, and first paragraph arm 1 is fixed in one end of upper carriage 9, and one end of lower carriage 10 is connected in the 4th section of arm 4; The drag chain 8 that drag chain 8 is made for corrosion-resistant steel; External oil pipe pipeline 11 and cable stretch into carriage 9 and are connected in control system by drag chain 8 and lower carriage 10 successively.

As shown in Figure 6, four sections of section arms in the utility model all draw in, and second segment arm 2 is placed in first paragraph arm 1, and the 3rd section of arm 3 is placed in second segment arm 2, and the 4th section of arm 4 is placed in the 3rd section of arm 3.

As shown in Figure 7, second segment arm 2 in the utility model stretches out first paragraph arm 1, upper carriage 9 maintains static, and lower carriage 10 forms an entirety with second segment arm 2, the 3rd section of arm 3 and the 4th section of arm 4 and stretches out motion, now between drag chain 8 and lower carriage 10, does relative motion.

As shown in Figure 8, second segment arm 2 in the utility model stretches out first paragraph arm 1, the 3rd section of arm 3 stretches out second segment arm 2 simultaneously, now going up carriage 9 maintains static, lower carriage 10 and the 3rd section of arm 3 and the 4th section of arm 4 form an entirety and stretch out motion, between drag chain 8 and lower carriage 10, also do relative motion.

As shown in Figure 9, four sections of section arms in the utility model all stretch out completely, and upper carriage 9 maintains static, and lower carriage 10 and the 4th section of arm 4 form an entirety and stretch out motion, between drag chain 8 and lower carriage 10, do relative motion, pipeline transport system now reaches maximum state.

Wherein, each telescopic oil cylinder stretches out mutually or when retracting motion, has played powered effect at a section arm for its correspondence.

The above is only preferred implementation of the present utility model; be noted that for those skilled in the art; do not departing under the prerequisite of the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. the asynchronous flexible built-in pipeline conveying system of high-altitude operation platform, it is characterized in that: comprise telescopic boom system and in be placed on the pipeline transport system of telescopic boom system, described telescopic boom system comprises first paragraph arm (1), first paragraph arm (1) inside is inserted with section by section second segment arm (2), the 3rd section of arm (3) and the 4th section of arm (4) and forms Collapsible structure, and is provided with successively corresponding the first telescopic oil cylinder (5), the second telescopic oil cylinder (6) and the 3rd telescopic oil cylinder (7) between every adjacent two sections of section arms; Described pipeline transport system comprises upper carriage (9) and the lower carriage (10) on drag chain (8), vertical direction, installed side by side, and one end of described drag chain (8) is installed on carriage (9), and the other end is connected in lower carriage (10) after turning round 180 °.

2. the asynchronous flexible built-in pipeline conveying system of high-altitude operation platform according to claim 1, is characterized in that: the bottom of described the first telescopic oil cylinder (5), the second telescopic oil cylinder (6) and the 3rd telescopic oil cylinder (7) is all provided with slide block.

3. the asynchronous flexible built-in pipeline conveying system of high-altitude operation platform according to claim 1, it is characterized in that: described upper carriage (9) is hollow structure with lower carriage (10), first paragraph arm (1) is fixed in one end of upper carriage (9), and one end of lower carriage (10) is connected in the 4th section of arm (4).

4. the asynchronous flexible built-in pipeline conveying system of high-altitude operation platform according to claim 1, is characterized in that: the drag chain (8) that described drag chain (8) is made for corrosion-resistant steel.