CN204588651U - There is the high-altitude operation platform of control line defencive function - Google Patents

Abstract

The utility model discloses a kind of high-altitude operation platform with control line defencive function, it is characterized in that: comprise and travel chassis and jacking system, described traveling chassis comprises chassis, mobile devices and leg structure, described jacking system comprises scissor type elevating structure and workplatform, described scissor type elevating structure is provided with Wiring duct structure, described Wiring duct structure comprises wiring hard tube, wiring flexible pipe and the control line for controlling workplatform work, described mobile devices comprise left steering wheel, right steering is taken turns, revolver frame, right wheel carrier, linkage rack, steering cylinder and turn to bent plate, the utility model is by wiring hard tube, the Wiring duct that wiring flexible pipe is formed, not only make control line can protect preferably in wiring hard tube, and the activity that adjacent wire hard tube can comply with scissor type elevating structure is rotated, steering cylinder adopts dual-rod hydraulic cylinder to not only simplify linkage structure, and improves stability and the synchronism of steering procedure.

Description

There is the high-altitude operation platform of control line defencive function

Technical field

The utility model relates to a kind of high-altitude operation platform with control line defencive function.

Background technology

High-altitude operation platform (Aerial work platform) is the product of serving the mobility aloft work such as every profession and trade aloft work, equipment installation, maintenance.High-altitude operation platform Related product mainly contains: the large class of scissor aerial work platform, in-vehicle high-altitude operation platform, crank type aerial working platform, self-propelled aloft working platform, aluminum alloy high-altitude operation platform, double-cylinder type high-altitude operation platform six.There is following problem in existing scissor aerial work platform: the control button on the job platform of 1) scissor aerial work platform connects the control module on bottom chassis by control line; in existing mounting structure; control line is not protected by the shell of hard, and control line is vulnerable to damage.2) in high-altitude operation platform operation process, platform operations requires higher mobile alerting ability, the steering structure of existing drive wheel, reports to the leadship after accomplishing a task in the stability of steering procedure and synchronism, and the limited angle rotated, affect experience.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art; and a kind of reasonable in design is provided; by the shell protecting control line of hard, can realize the stability of steering procedure and the high-altitude operation platform with control line defencive function of synchronism and larger slewing area.

The technical scheme in the invention for solving the above technical problem is:

A kind of high-altitude operation platform with control line defencive function, it is characterized in that: comprise and travel chassis and jacking system, described traveling chassis comprises chassis, mobile devices and leg structure, described jacking system comprises scissor type elevating structure and workplatform, described scissor type elevating structure is provided with Wiring duct structure, described Wiring duct structure comprises wiring hard tube, wiring flexible pipe and the control line for controlling workplatform work, wiring hard tube is fixed on scissor type elevating structure, wherein connected by wiring hard tube between adjacent wire hard tube, wiring hard tube, the Wiring duct that wiring flexible pipe is formed is set to workplatform from chassis, control line is arranged on wiring hard tube, in the Wiring duct that wiring flexible pipe is formed, wiring hard tube is fixed on scissor type elevating structure by hard tube fixed mount, wherein, hard tube fixed mount comprises fixed plate and the installation sheet of Ω shape, wiring hard tube passes from the fixed plate of Ω shape, and the two ends of the fixed plate of Ω shape are screwed on installation sheet, thus wiring hard tube is fixed on hard tube fixed mount, described installation sheet is fixed on scissor type elevating structure, described mobile devices comprise left steering wheel, right steering is taken turns, revolver frame, right wheel carrier, linkage rack, steering cylinder and turn to bent plate, described left steering wheel, right steering wheel is rotatably installed in revolver frame respectively, on right wheel carrier, left steering is taken turns, right steering wheel is respectively by the left CD-ROM drive motor be fixed on revolver frame, the right CD-ROM drive motor be fixed on right wheel carrier realizes driving, revolver frame, right wheel carrier is rotatably installed on chassis by wheel frame axle, the axis vertical of wheel frame axle is arranged, linkage rack is made up of linkage rack main body and two the linkage rack linkage sections being separately fixed at linkage rack main body two ends, steering cylinder is between two linkage rack linkage sections, steering cylinder adopts dual-rod hydraulic cylinder, two portable bars of steering cylinder are connected on two linkage rack linkage sections, two turn to one end of bent plate to be hinged on revolver frame respectively, on right wheel carrier, two two ends turning to the other end of bent plate to be hinged on linkage rack main body respectively, steering cylinder is fixed on chassis, turn on bent plate and the side of wheel frame axle is provided with one section of recess.By the Wiring duct that wiring hard tube, wiring flexible pipe are formed, not only make control line can protect preferably in wiring hard tube, and connected by wiring hard tube between adjacent wire hard tube and make in scissor type elevating structure oscilaltion process, the activity that adjacent wire hard tube can comply with scissor type elevating structure is rotated; Linkage rack can be driven to move linearly by steering cylinder, thus drive turns to bent plate, make to turn to bent plate to pull revolver frame, right wheel carrier to rotate, realization turns to, in this structure, steering cylinder adopts dual-rod hydraulic cylinder to not only simplify linkage structure, and improves stability and the synchronism of steering procedure; By arranging recess turning on bent plate, making to turn to bent plate more near wheel frame axle, thus can improve the angle limit turned to, enhancing in-use performance.

As preferably, the end of wiring hard tube is provided with outside thread, and the end winding support of wiring flexible pipe has dop, and dop is fixed in mounting pipe, and mounting pipe is provided with negative thread, thus mounting pipe is tightened to the end of wiring hard tube.

As preferably, linkage rack main body and two linkage rack linkage sections are integral structure.

The utility model compared with prior art, have the following advantages and effect: the Wiring duct formed by wiring hard tube, wiring flexible pipe, not only make control line can protect preferably in wiring hard tube, and connected by wiring hard tube between adjacent wire hard tube and make in scissor type elevating structure oscilaltion process, the activity that adjacent wire hard tube can comply with scissor type elevating structure is rotated; Linkage rack can be driven to move linearly by steering cylinder, thus drive turns to bent plate, make to turn to bent plate to pull revolver frame, right wheel carrier to rotate, realization turns to, in this structure, steering cylinder adopts dual-rod hydraulic cylinder to not only simplify linkage structure, and improves stability and the synchronism of steering procedure; By arranging recess turning on bent plate, making to turn to bent plate more near wheel frame axle, thus can improve the angle limit turned to, enhancing in-use performance.

Accompanying drawing explanation

Fig. 1 is the perspective view of the utility model embodiment high-altitude operation platform.

Fig. 2 is the Facad structure schematic diagram of the utility model embodiment high-altitude operation platform.

Fig. 3 is the construction profile schematic diagram of the utility model embodiment high-altitude operation platform.

Fig. 4 is the mounting structure schematic diagram of scissor unit in the utility model embodiment.

Fig. 5 is the mounting structure schematic diagram of scissor unit under the utility model embodiment.

Fig. 6 is the sectional structure schematic diagram of scissor unit under the utility model embodiment.

Fig. 7 is the Facad structure schematic diagram under the utility model embodiment mobile devices are in craspedodrome state.

Fig. 8 is the perspective view under the utility model embodiment mobile devices are in craspedodrome state.

Fig. 9 is the plan structure schematic diagram under the utility model embodiment mobile devices are in craspedodrome state.

Figure 10 is the plan structure schematic diagram under the utility model embodiment mobile devices are in steering state.

Figure 11 is the mounting structure schematic diagram of the utility model embodiment maintenance pole.

Figure 12 is the structural representation of the utility model embodiment Wiring duct structure.

Figure 13 is the mounting structure schematic diagram of the utility model embodiment wiring flexible pipe.

Figure 14 is the structural representation of the utility model embodiment hard tube fixed mount.

Detailed description of the invention

Below in conjunction with accompanying drawing, also by embodiment, the utility model is described in further detail, and following examples are that the utility model is not limited to following examples to explanation of the present utility model.

See Fig. 1-Figure 14; the present embodiment has the high-altitude operation platform of control line defencive function; comprise and travel chassis 1 and jacking system 2, described traveling chassis 1 comprises chassis 11, mobile devices 12 and leg structure 14, and described jacking system 2 comprises scissor type elevating structure 21 and workplatform 22.

Described mobile devices 12 comprise left steering wheel 121, right steering wheel 122, revolver frame 123, right wheel carrier 124, linkage rack 125, steering cylinder 126 and turn to bent plate 127, described left steering wheel 121, right steering wheel 122 is rotatably installed in revolver frame 123 respectively, on right wheel carrier 124, left steering wheel 121, right steering wheel 122 is respectively by the left CD-ROM drive motor be fixed on revolver frame 123, the right CD-ROM drive motor be fixed on right wheel carrier 124 realizes driving, revolver frame 123, right wheel carrier 124 is rotatably installed on chassis 11 by wheel frame axle 128, the axis vertical of wheel frame axle 128 is arranged, linkage rack 125 is made up of linkage rack main body 1251 and two the linkage rack linkage sections 1252 being separately fixed at linkage rack main body 1251 two ends, steering cylinder 126 is between two linkage rack linkage sections 1252, steering cylinder 126 adopts dual-rod hydraulic cylinder, two portable bars of steering cylinder 126 are connected on two linkage rack linkage sections 1252, two turn to one end of bent plate 127 to be hinged on revolver frame 123 respectively, on right wheel carrier 124, two two ends turning to the other end of bent plate 127 to be hinged on linkage rack main body 1251 respectively, steering cylinder 126 is fixed on chassis 11, turn on bent plate 127 and the side of wheel frame axle 128 is provided with one section of recess 1271.Adopt this structure, can pass through, steering cylinder 126 drives linkage rack 125 to move linearly, thus drive turns to bent plate 127, make to turn to that bent plate 127 pulls revolver frame 123, right wheel carrier 124 rotates, realize turning to, in this structure, steering cylinder 126 adopts dual-rod hydraulic cylinder to not only simplify linkage structure, and improves stability and the synchronism of steering procedure; By arranging recess 1271 turning on bent plate 127, making to turn to bent plate 127 more near wheel frame axle 128, thus can improve the angle limit turned to, enhancing in-use performance.Linkage rack main body 1251 and two linkage rack linkage sections 1252 are in integral structure.

Described scissor type elevating structure 21 comprises cuts fork unit 211, under cut fork unit 212 and hoist cylinder 213, fork unit 211 is cut hinged successively from bottom to top on multiple, fork unit 212 is cut hinged successively from bottom to top under multiple, wherein cut down fork unit 212 and comprise the two first outer breeches pipes 2121 of cutting, two are arranged on two first outer cutting and in first between breeches pipe 2121, cut breeches pipe 2122 and in breeches pipe 2121 and first, cut breeches pipe cut fork shaft 2,123 2122 times for connecting the first outer cutting, the lower end of cutting breeches pipe 2121 outside first, middle part and upper end are cut fork shaft 2123 under all offering confession and are inserted down and cut fork shaft fixing hole 2124, the upper end of breeches pipe 2122 is cut in first, middle part and lower end all offer clutch shaft bearing installing hole 2125, clutch shaft bearing installing hole 2125 is built with clutch shaft bearing 2126, with once cutting in fork unit 212, under being positioned at lowering or hoisting gear 2 centre position, cut fork shaft 2123 cut with scissors successively through wherein one first cut fork shaft fixing hole 2124 under cutting breeches pipe 2121 middle part outward, wherein cut the endoporus of the supermedial clutch shaft bearing 2126 of breeches pipe 2122 in one first, clutch shaft bearing 2126 endoporus at breeches pipe 2122 middle part is cut and another root first is outer cuts fork shaft fixing hole 2124 under cutting breeches pipe 2121 middle part in another root first, under neighbouring two, cut in fork unit 212, under being positioned at lowering or hoisting gear 2 anterior position, cut fork shaft 2123 successively through under being positioned at top, cut fork unit 212 wherein one first outer cut fork shaft fixing hole 2124 under cutting breeches pipe 2121 lower end, the wherein endoporus of one first clutch shaft bearing 2126 of cutting breeches pipe 2122 upper end of fork unit 212 is cut under being positioned at below, another root first of cutting fork unit 212 under being positioned at below cut breeches pipe 2122 upper end clutch shaft bearing 2126 endoporus and cut fork shaft fixing hole 2124 under cutting that another root first of fork unit 212 is outer under being positioned at top and cutting breeches pipe 2121 lower end, under being positioned at lowering or hoisting gear 2 rear position, cut fork shaft 2123 successively through under being positioned at below, cut fork unit 212 wherein one first outer cut fork shaft fixing hole 2124 under cutting breeches pipe 2121 lower end, the wherein endoporus of one first clutch shaft bearing 2126 of cutting breeches pipe 2122 upper end of fork unit 212 is cut under being positioned at top, another root first of cutting fork unit 212 under being positioned at top cut breeches pipe 2122 upper end clutch shaft bearing 2126 endoporus and cut fork shaft fixing hole 2124 under cutting that another root first of fork unit 212 is outer under being positioned at top and cutting breeches pipe 2121 lower end, under to cut fork shaft 2123 fixing with clutch shaft bearing 2126, under cut fork shaft 2123 and be installed with the first screw rod 2128, the two ends of the first screw rod 2128 are arranged with the first lockplate 2127, the first lockplate 2127 is pressed abd fixed on the first outer cutting on the outer wall of breeches pipe 2121 by the first nut 2129 being arranged on the first screw rod 2128, be positioned at and under bottom, cut first of fork unit 212 and cut breeches pipe 2122 and be hinged on chassis 11, chassis 11 is provided with two tracks 214Be positioned at that two first of cutting fork unit 212 under bottom are outer to cut breeches pipe 2121 and be all rotatablely equipped with rail wheel 215, described two rail wheels 215 are arranged on two tracks 214, be positioned at two first of cutting fork unit 212 under the top to cut and on breeches pipe 2122, be fixed with cylinder installation seat 216, the cylinder body of hoist cylinder 213 is hinged on cylinder installation seat 216, on cut fork unit 211 and comprise the two second outer breeches pipes 2111 of cutting, one be arranged on two second outer cut in first between breeches pipe 2111, cut breeches pipe 2122 and for connect second outer cut in breeches pipe 2111 and second, cut breeches pipe on cut fork shaft, the expansion link of hoist cylinder 213 be hinged on be positioned at bottom on cut first cutting on breeches pipe 2122 of fork unit 211, the lower end of cutting breeches pipe 2111 outside second, middle part and upper end all offer keep supplying cut fork shaft insertion on cut fork shaft fixing hole, the upper end of breeches pipe is cut in second, middle part and lower end all offer the second bearing mounting hole, the second bearing mounting hole is built with the second bearing, on same, cut in fork unit 211, be positioned at lowering or hoisting gear 2 centre position on cut fork shaft hinge successively through wherein one second outer cut breeches pipe 2111 middle part on cut fork shaft fixing hole, in second, cut the endoporus of supermedial the second bearing of breeches pipe and another root second outer cut breeches pipe 2111 middle part on cut fork shaft fixing hole, neighbouring two are cut in fork unit 211, be positioned at lowering or hoisting gear 2 anterior position on cut fork shaft successively through be positioned at top on cut fork unit 211 wherein one second outer cut breeches pipe 2111 lower end on cut fork shaft fixing hole, be positioned at below on cut the second bearing that breeches pipe upper end is cut in second of fork unit 211 endoporus and be positioned at top on cut another root second of fork unit 211 outer cut breeches pipe 2111 lower end on cut fork shaft fixing hole, be positioned at lowering or hoisting gear 2 rear position on cut fork shaft successively through be positioned at below on cut fork unit 211 wherein one second outer cut breeches pipe 2111 lower end on cut fork shaft fixing hole, be positioned at top on cut the second bearing that breeches pipe upper end is cut in second of fork unit 211 endoporus and be positioned at top on cut another root second of fork unit 211 outer cut breeches pipe 2111 lower end on cut fork shaft fixing hole, on cut fork shaft and the second bearing is fixed, on cut fork shaft and be installed with the second screw rod 2114, the two ends of the second screw rod 2114 are arranged with the second lockplate 2116, the second lockplate 2116 is pressed abd fixed on the second outer cutting on the outer wall of breeches pipe 2111 by the second nut 2115 being arranged on the second screw rod 2114, be positioned at the top on cut second of fork unit 211 and cut breeches pipe and be hinged on workbench 22 bottom, workbench 22 bottom is provided with two track 214 grooves, be positioned at the top on cut second of fork unit 211 and outer cut breeches pipe 2111 and be all rotatablely equipped with track 214 grooved roller, described two track 214 grooved roller are arranged in two track 214 grooves.Between the upper end being arranged on two the first outer scissor pipes 2121 of the lower scissor unit 212 in the top in the lower end of two the second outer scissor pipes 2111 of the upper scissor unit 211 of bottom, the lower end being positioned at two the second outer scissor pipes 2111 of the upper scissor unit 211 of bottom realizes coaxially hinged with the upper end of two the first outer scissor pipes 2121 of the lower scissor unit 212 being positioned at the top by the middle scissor axle 2117 of jacking system 2 anterior position, in second of the upper scissor unit 211 of bottom, the lower end of scissor pipe is arranged on the upper end in two first of the lower scissor unit 212 of the top between scissor pipe 2122, in second of the upper scissor unit 211 of bottom the lower end of scissor pipe and the upper end in two first of the lower scissor unit 212 of the top between scissor pipe 2122 coaxially hinged by middle scissor axle 2117 straight line being positioned at jacking system 2 rear position.Adopt this structure, by the upper scissor unit 211 that width is narrower, not only under the prerequisite ensureing wicking height, the weight that lifting hydraulic cylinder will carry is reduced by the thickness reducing upper scissor unit 211, improve plant efficiency and safety, and ensure that the stability of support by the lower scissor unit 212 of wider width.

In a pair neighbouring two upper scissor unit 211, second outer scissor pipe 2111 of the upper scissor unit 211 above being positioned at is provided with maintenance pole 2118, one end of maintenance pole 2118 is hinged on the second outer scissor pipe 2111, the other end of maintenance pole 2118 is fixed with fixing bayonet socket 21181, the the second outer scissor pipe 2111 being positioned at the upper scissor unit 211 of top be fixed with the outer scissor pipe 2111 of Fixing clamp-seat 2119, second for connecting and fixing bayonet socket 21181 and overhaul the pin-and-hole 21110 pole 2118 offered for inserting set pin.Adopt this structure, when needs overhaul, extract set pin, rotate maintenance pole 2118, fixing bayonet socket 21181 is aimed at Fixing clamp-seat 2119, and operates jacking system 2 and decline, maintenance pole 2118 is withstood on Fixing clamp-seat 2119, thus preventing in maintenance process, lifting hydraulic cylinder loses suddenly oil pressure and causes jacking system 2 to continue situation about declining, and decreases security risk.

Described scissor type elevating structure 21 is provided with Wiring duct structure, described Wiring duct structure comprises wiring hard tube 2171, wiring flexible pipe 2172 and the control line for controlling workplatform 22 work, wiring hard tube 2171 is fixed on scissor type elevating structure 21, wherein connected by wiring hard tube 2171 between adjacent wire hard tube 2171, wiring hard tube 2171, the Wiring duct that wiring flexible pipe 2172 is formed is set to workplatform 22 from chassis 11, control line is arranged on wiring hard tube 2171, in the Wiring duct that wiring flexible pipe 2172 is formed, wiring hard tube 2171 is fixed on scissor type elevating structure 21 by hard tube fixed mount 2173, wherein, hard tube fixed mount 2173 comprises fixed plate 2174 and the installation sheet 2175 of Ω shape, wiring hard tube 2171 passes from the fixed plate 2174 of Ω shape, and the two ends of the fixed plate 2174 of Ω shape are screwed on installation sheet 2175, thus wiring hard tube 2171 is fixed on hard tube fixed mount 2173, described installation sheet 2175 is fixed on scissor type elevating structure 21.Adopt this structure; by the Wiring duct that wiring hard tube 2171, wiring flexible pipe 2172 are formed; not only make control line can protect preferably in wiring hard tube 2171; and connected by wiring hard tube 2171 between adjacent wire hard tube 2171 and make in scissor type elevating structure 21 oscilaltion process, the activity that adjacent wire hard tube 2171 can comply with scissor type elevating structure 21 is rotated.

The end of wiring hard tube 2171 is provided with outside thread, and the end winding support of wiring flexible pipe 2172 has dop 2176, and dop 2176 is fixed in mounting pipe, and mounting pipe is provided with negative thread, thus mounting pipe is tightened to the end of wiring hard tube 2171.Adopt this structure, wiring hard tube 2171 and wiring flexible pipe 2172 can be very easy to throw off, thus facilitate installation and the maintenance of control line.

Above content described in this specification sheets is only to the explanation of the utility model example.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; only otherwise depart from the content of the utility model specification sheets or surmount this scope as defined in the claims, protection domain of the present utility model all should be belonged to.

Claims (3)

1. one kind has the high-altitude operation platform of control line defencive function, it is characterized in that: comprise and travel chassis and jacking system, described traveling chassis comprises chassis, mobile devices and leg structure, described jacking system comprises scissor type elevating structure and workplatform, described scissor type elevating structure is provided with Wiring duct structure, described Wiring duct structure comprises wiring hard tube, wiring flexible pipe and the control line for controlling workplatform work, wiring hard tube is fixed on scissor type elevating structure, wherein connected by wiring hard tube between adjacent wire hard tube, wiring hard tube, the Wiring duct that wiring flexible pipe is formed is set to workplatform from chassis, control line is arranged on wiring hard tube, in the Wiring duct that wiring flexible pipe is formed, wiring hard tube is fixed on scissor type elevating structure by hard tube fixed mount, wherein, hard tube fixed mount comprises fixed plate and the installation sheet of Ω shape, wiring hard tube passes from the fixed plate of Ω shape, and the two ends of the fixed plate of Ω shape are screwed on installation sheet, thus wiring hard tube is fixed on hard tube fixed mount, described installation sheet is fixed on scissor type elevating structure, described mobile devices comprise left steering wheel, right steering is taken turns, revolver frame, right wheel carrier, linkage rack, steering cylinder and turn to bent plate, described left steering wheel, right steering wheel is rotatably installed in revolver frame respectively, on right wheel carrier, left steering is taken turns, right steering wheel is respectively by the left CD-ROM drive motor be fixed on revolver frame, the right CD-ROM drive motor be fixed on right wheel carrier realizes driving, revolver frame, right wheel carrier is rotatably installed on chassis by wheel frame axle, the axis vertical of wheel frame axle is arranged, linkage rack is made up of linkage rack main body and two the linkage rack linkage sections being separately fixed at linkage rack main body two ends, steering cylinder is between two linkage rack linkage sections, steering cylinder adopts dual-rod hydraulic cylinder, two portable bars of steering cylinder are connected on two linkage rack linkage sections, two turn to one end of bent plate to be hinged on revolver frame respectively, on right wheel carrier, two two ends turning to the other end of bent plate to be hinged on linkage rack main body respectively, steering cylinder is fixed on chassis, turn on bent plate and the side of wheel frame axle is provided with one section of recess.

2. the high-altitude operation platform with control line defencive function according to claim 1; it is characterized in that: the end of wiring hard tube is provided with outside thread; the end winding support of wiring flexible pipe has dop; dop is fixed in mounting pipe; mounting pipe is provided with negative thread, thus mounting pipe is tightened to the end of wiring hard tube.

3. the high-altitude operation platform with control line defencive function according to claim 1, is characterized in that: linkage rack main body and two linkage rack linkage sections are integral structure.