CN204826594U - High altitude is work platform system for construction robot - Google Patents

Abstract

The utility model provides a high altitude is work platform system for construction robot, is including suspending mechanism and aerial working platform in midair, suspend the mechanism in midair and be used for fixed mounting at the building top, bear aerial working platform's the work of suspending in midair, aerial working platform through the hoist cable with suspend the mechanism in midair and link to each other, aerial working platform includes platform body, lifting machine, shock absorber, hoist cable, the platform body includes bottom plate, guardrail and robot mount pad.

Description

A kind of high-altitude construction robot operation plateform system

Technical field

The utility model relates to a kind of high-altitude construction robot operation platform technology, is specially a kind of job platform being applicable to high-altitude external wall operation.

Background technology

Decorating outer wall of building robot, has had a lot of case histories at home and abroad.But high-altitude external wall robot from great, load concentration, existing high-altitude hanging basket is difficult to meet its user demand.

Chinese patent CN103924777A provides a kind of decorating outer wall of building and to construct special suspension platform, although have employed sucker to carry out relative fixing with decorated wall surface, but this platform is only applicable to artificial construction's pattern, its lifting capacity, and stability all can not be applicable to suspend external wall robot in midair.When especially adopting 2 suspentions, cause its less stable, easily topple when load diatibution is uneven.According to lifting appliances such as spider cars, although can solve the problem of robot load concentration, its hoisting depth is low, bearing capacity is little, the installation requirements to large-sized sheet material when being difficult to meet present high-altitude decorating outer wall of building.Further, due to circumstance complication during external decoration of high-rise building, upper-level winds carries, mounting robot moves, staff moves etc. all can make platform produce vibration, thus affects the installation accuracy of robot.Therefore provide a kind of be applicable to high-altitude external wall robot can carry concentrated load, hoisting depth is high, stability is strong job platform system becomes in prior art the problem needing to solve.

Summary of the invention

For the deficiencies in the prior art, the analysis and designation of the utility model by carrying out High Altitude Platform vibration problem, devises a kind of high-altitude construction robot operation plateform system.This aerial work platform adopts 3 suspentions, and employing has multivariant vacuum cup shock mitigation system, by preferred platform base plate profile and robot mounting location, platform force structure is made to distribute rationally, can have concurrently from heavy and light and the strong advantage of bearing capacity, can well adapt to concentrated load, hoisting depth is high, stability is strong, from the feature of heavy and light.

The high-altitude construction robot operation plateform system that the utility model provides comprises suspension gear and aerial work platform;

Described suspension gear is used for being fixedly mounted on top of building, and bear the suspended work of aerial work platform, aerial work platform is connected with suspension gear by hoist cable;

Described aerial work platform comprises platform body, elevator, shock absorber, hoist cable;

Described platform body comprises base plate, guardrail and robot mount pad, near operation facade when described base plate is to carry out work high above the ground while for inner edge, the another side relative with inner edge is outside, described base plate is to pass through the perpendicular bisector of inner edge for axis of symmetry, outside mid portion has outward extending lug boss, base plate aspect ratio is 1.6 ~ 3:1, and described lug boss outer side edges is also positioned on the axis of symmetry of base plate apart from inner edge farthest, and guardrail is installed around base plate periphery; Described elevator has three, be separately fixed on guardrail, the installation site of described elevator guarantees that the suspention point of application projection on base plate of hoist cable to guardrail lays respectively on the intersection point of lug boss outer side edges and bottom board symmetry axle and two sides of base plate, above-mentioned three lines composition isosceles triangles be projected on base plate, described in be positioned at base plate dual-side projection be 10-40cm apart from the distance of base plate inner edge;

Described base plate is provided with robot mount pad, described robot mount pad comprises fixed head and installs seat ring, seat ring is installed and is arranged on plate upper surface by fixed head, the installation site of described robot mount pad is guarantee to install being centrally located on the axis of symmetry of base plate of seat ring, and the distance of installing the inscribed circle center of circle of seat ring center and described isosceles triangle is less than 5% of described inradius.

Described shock absorber is arranged on base plate near inner edge and side intersection, described shock absorber comprises vacuum cup and shock absorber bearing, described vacuum cup can stretch out towards operation facade and regain, vacuum cup is connected with shock absorber bearing revolute pair, have the damper of two arranged crosswise in damper base, can be parallel to base plate and respectively vertical and be parallel to work facade both direction on there is freedom of motion.

Described aerial work platform system, is characterized in that described base plate is preferably the single-store frame upper surface bed board made at section bar and makes.

Described aerial work platform system, it is characterized in that described elevator is fixedly mounted on guardrail by hoist installation plate, hoist installation plate preferably adopts support component to be connected with between base plate, and the stress that support component is used for suspention produces is directly conducted to base plate.

Described aerial work platform system, is characterized in that preferred described base plate configuration is the rectangle that outside mid portion has outward extending lug boss; Described lug boss width is 25% ~ 45% of base plate overall width, and lug boss length is the 25-40% of base plate total length; Preferably further base plate is divided into three pieces of installing plates to the vertical line of inner edge for boundary with intersection outside lug boss and rectangle, every block installing plate is by section bar welding fabrication, be bolted between installing plate, described robot mount pad is positioned at and is fixed on middle installing plate.

Described aerial work platform system, its feature has main beam structure bottom base plate, described girder extends to bottom robot mount pad near bottom edge, the projection of girder on base plate overlaps to the line that project to the center of installing seat ring of the suspention point of application of guardrail on base plate substantially with hoist cable, further preferably girder is the girder truss be welded by steel hollow rectangular tube, described girder truss comprise the plane beam that is positioned at frame plane with to base plate inclined downward certain angle inclined beams and be connected the brace summer of plane beam and inclined beams.

Described aerial work platform system, is preferably provided with safety lock on hoist cable.

Described base plate and the length of protuberance refer to that it is parallel to the maximum length on operation facade direction in use, described base plate and the width of protuberance refer to it in use perpendicular to the Breadth Maximum on operation facade direction.

The aerial work platform system that the utility model provides, adopt suspend in midair at 3 and increase total bearing capacity, and by having the base plate of protuberance and preferred robot mount pad installation site, both the pulling force having made the point of suspension of protuberance top and base plate both sides carry is in a basic balance, decrease again the deadweight of platform on the basis increasing platform stability as far as possible, further increase the load-carrying of platform/from anharmonic ratio, and have employed the vacuum cup shock absorber with two-freedom, effectively can reduce platform and be parallel to base plate and the vertical vibration with being parallel in the both direction of work facade respectively, further increase the stability of platform, the operating condition of robot can be met.In preferred design, sectional type and bottom main beam design be have employed to the base plate of platform, make whole platform more be easy to assembling and carrying, and when not increasing platform deadweight, improve the supporting capacity of platform as much as possible.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

Fig. 2 is the structural representation of the aerial work platform of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

Fig. 3 is the elevational schematic view of the aerial work platform of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

Fig. 4 is the schematic top plan view of the aerial work platform of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

Fig. 5 is the base arrangement schematic diagram of the aerial work platform of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

Fig. 6 is the cross-sectional schematic of the aerial work platform robot mount pad of a kind of embodiment in a kind of high-altitude of the utility model construction robot operation plateform system;

In figure: 1, ground, 2, operation facade, 3, suspension gear, 4, aerial work platform; 41, platform body, 42, elevator, 43 hoist installation plates, 44, shock absorber, 45, hoist cable, 46, safety lock; 411, base plate, 412, guardrail, 413, robot mount pad, 4111, lug boss, 4112, installing plate, 4113, girder, 4114, plane beam, 4115, inclined beams, 4116, brace summer, 4131, fixed head, 4132, seat ring is installed, 441, vacuum cup, 442 damper bases.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing thereof, technical solutions of the utility model are described in detail as follows.

Embodiment

The high-altitude construction robot operation plateform system that the utility model provides working environment comprise ground 1 and the operation facade 2 parallel with skin metope.

The high-altitude construction robot operation plateform system that the utility model provides comprises suspension gear 3 and aerial work platform 4.

Described suspension gear 3, for being fixedly mounted on top of building, bears the suspended work of aerial work platform.Aerial work platform 4 is connected with suspension gear 3 by hoist cable.The overall structure schematic diagram of plateform system as shown in Figure 1.

Described aerial work platform 4 comprises platform body 41, elevator 42, hoist installation plate 43, shock absorber 44, hoist cable 45; By elevator and hoist cable, lifting hover operation is carried out to platform.

Described platform body 41 is by base plate 411, guardrail 412 and robot mount pad 413 form, near operation facade when described base plate is to carry out work high above the ground while for inner edge, the another side relative with inner edge is outside, base plate is to pass through the perpendicular bisector of inner edge for axis of symmetry, base plate is the rectangle that outside mid portion has outward extending lug boss 4111, lug boss is trapezoidal, lug boss width is 40% of base plate overall width, lug boss length is 30% of floor length, guardrail is installed around base plate periphery, hoist installation plate has three pieces, be separately fixed at guardrail upper end, elevator is fixedly installed on hoist installation plate, the installation site of described hoist installation plate and elevator guarantees that the suspention point of application projection on base plate of hoist cable to guardrail lays respectively on the intersection point of lug boss outer side edges and bottom board symmetry axle and two sides of base plate, above-mentioned three line composition isosceles triangles be projected on base plate, the described distance being positioned at the projection distance base plate inner edge of base plate dual-side is 15cm.Base plate overall width 2m in the present embodiment, total length is 4m, and the corner angle that can calculate described isosceles triangle is 94.5 °.

Described hoist installation plate is connected with adopting support component between base plate, is directly conducted to base plate for stress suspention produced, and support component can be installed separately and also a part for guardrail can be strengthened as support component.

Base plate is provided with robot mount pad 413, described robot mount pad comprises fixed head 4131 and installs seat ring 4132, seat ring is installed and is arranged on plate upper surface by fixed head, fixed head is the two boards that profile is identical, be installed on the correspondence position of base plate upper and lower surface, the installation site of robot mount pad is guarantee that installing the center of seat ring overlaps substantially with the inscribed circle center of circle of described isosceles triangle.

Described base plate is that the single-store frame upper surface bed board made at section bar is made, described base plate is divided into three piece installing plates 4112 to the vertical line of inner edge for boundary with intersection outside lug boss and rectangle, every block installing plate is by section bar welding fabrication, be bolted between installing plate, described robot mount pad is positioned at and is fixed on middle installing plate.

In order to adapt to the feature of the load concentration of high-altitude construction robot, preferably bottom the single-store frame of base plate, has main beam structure, described girder 4113 extends to bottom robot mount pad near bottom edge, the projection of girder on base plate overlaps to the company that project to the center of installing seat ring of the suspention point of application of guardrail on base plate substantially with hoist cable, girder is the girder truss be welded by steel hollow rectangular tube, described girder truss comprise the plane beam 4114 that is positioned at frame plane with to base plate inclined downward certain angle inclined beams 4115 and be connected the brace summer 4116 of plane beam and inclined beams.

Described shock absorber is arranged on base plate near inner edge and side intersection, described shock absorber comprises vacuum cup 441 and shock absorber bearing 442, described vacuum cup can stretch out towards operation facade and regain, vacuum cup is connected with shock absorber bearing revolute pair, have the damper of two arranged crosswise in damper base, can be parallel to base plate and respectively vertical and be parallel to work facade both direction on there is freedom of motion.

Described aerial work platform, hoist cable is provided with safety lock.

In the present embodiment, described aerial work platform, the guardrail height being preferably placed at base plate inner edge is 0.7-0.9m, and other position guardrail heights are 1-1.3m.

The structural representation of the aerial work platform in plateform system, elevational schematic view, schematic top plan view are distinguished as shown in figs 2-4, and as shown in Figure 5, the cross-sectional schematic of robot mount pad as shown in Figure 6 for the base arrangement schematic diagram of platform.

A kind of high-altitude of the utility model construction robot is installed with operation plateform system and is used flow process as follows, first installs the suspension gear being positioned at building top, then assembles aerial work platform on ground, can install high-altitude construction robot on platform.Be arranged on installation elevator completing plateform system after finally hoist cable being each passed through safety lock, regulate suspension gear to make aerial work platform be 8-15cm apart from the distance of operation facade.After completing plateform system installation, under the effect of elevator, start shock absorber after aerial work platform is promoted to operating position, be adsorbed on building surface by the vacuum cup of shock absorber front end by stable for aerial work platform, robot can be allowed to carry out sheet material installation.

Claims (10)

1. a high-altitude construction robot operation plateform system, comprises suspension gear and aerial work platform,

Described suspension gear is used for being fixedly mounted on top of building, and bear the suspended work of aerial work platform, aerial work platform is connected with suspension gear by hoist cable,

Described aerial work platform comprises platform body, elevator, shock absorber, hoist cable;

Described platform body comprises base plate, guardrail and robot mount pad, near operation facade when described base plate is to carry out work high above the ground for inner edge, the another side relative with inner edge is outside, described base plate with the perpendicular bisector by inner edge for axis of symmetry,

It is characterized in that the outside mid portion of described base plate has outward extending lug boss, base plate aspect ratio is 1.6 ~ 3:1, described lug boss outer side edges is also positioned on the axis of symmetry of base plate apart from inner edge farthest, guardrail is installed around base plate periphery, described elevator has three, be separately fixed on guardrail, the installation site of described elevator guarantees that the suspention point of application projection on base plate of hoist cable to guardrail lays respectively on the intersection point of lug boss outer side edges and bottom board symmetry axle and two sides of base plate, above-mentioned three line composition isosceles triangles be projected on base plate, the described distance being positioned at the projection distance base plate inner edge of base plate dual-side is 10-40cm,

Described base plate is provided with robot mount pad, described robot mount pad comprises fixed head and installs seat ring, seat ring is installed and is arranged on plate upper surface by fixed head, being centrally located on the axis of symmetry of base plate of installation seat ring can be guaranteed in the installation site of described robot mount pad, and the distance of installing the inscribed circle center of circle of seat ring center and described isosceles triangle is less than 5% of described inradius;

Described shock absorber is arranged on base plate near inner edge and side intersection, described shock absorber comprises vacuum cup and shock absorber bearing, described vacuum cup can stretch out towards operation facade and regain, vacuum cup is connected with shock absorber bearing revolute pair, have the damper of two arranged crosswise in damper base, can be parallel to base plate and respectively vertical and be parallel to work facade both direction on there is freedom of motion.

2. high-altitude as claimed in claim 1 construction robot operation plateform system, is characterized in that described base plate is that the single-store frame upper surface bed board made at section bar is made.

3. high-altitude as claimed in claim 1 construction robot operation plateform system, it is characterized in that described elevator is fixedly mounted on guardrail by hoist installation plate, hoist installation plate is connected with adopting support component between base plate, and the stress that described support component is used for suspention produces is directly conducted to base plate.

4. the high-altitude construction robot operation plateform system as described in as arbitrary in claim 1-3, is characterized in that described base plate configuration is the rectangle that outside mid portion has outward extending lug boss.

5. high-altitude as claimed in claim 4 construction robot operation plateform system, it is characterized in that described lug boss width is 25% ~ 45% of base plate overall width, lug boss length is the 25-40% of base plate total length.

6. high-altitude as claimed in claim 5 construction robot operation plateform system, it is characterized in that base plate being divided into three piece installing plates to the vertical line of inner edge for boundary with intersection outside lug boss and rectangle, every block installing plate is by section bar welding fabrication, be bolted between installing plate, described robot mount pad is positioned at and is fixed on middle installing plate.

7. as the high-altitude construction robot operation plateform system as described in arbitrary in claim 1,2,3,5,6, its feature has main beam structure bottom base plate, described girder extends to bottom robot mount pad near bottom edge, and the projection of girder on base plate overlaps to the line that project to the center of installing seat ring of the suspention point of application of guardrail on base plate substantially with hoist cable.

8. high-altitude as claimed in claim 7 construction robot operation plateform system, is characterized in that girder is the girder truss be welded by steel hollow rectangular tube.

9. high-altitude as claimed in claim 4 construction robot operation plateform system, its feature has main beam structure bottom base plate, described girder extends to bottom robot mount pad near bottom edge, and the projection of girder on base plate overlaps to the line that project to the center of installing seat ring of the suspention point of application of guardrail on base plate substantially with hoist cable.

10. high-altitude as claimed in claim 1 construction robot operation plateform system, is characterized in that being provided with safety lock on hoist cable.