CN204702448U - High-altitude operation platform feeding system - Google Patents

Abstract

The utility model relates to a kind of high-altitude operation platform feeding system, and its structure comprises suspension gear and feed mechanism; Described suspension gear is arranged on the roof of building, bears the suspended work of high-altitude operation platform and described feed mechanism; Described feed mechanism is arranged between the operation facade of high-altitude operation platform and building; Described suspension gear is provided be respectively used to hang and connects high-altitude operation platform and hang the hoist cable connecing described feed mechanism; Described feed mechanism includes U-shaped raising legs, is arranged on the sheet material clamping device in described U-shaped raising legs, controls the push-pull mechanism of described sheet material clamping device folding, and controls the gig that described U-shaped raising legs is elevated along the hoist cable of described suspension gear.The sheet material hoisting that the utility model can realize semi-automation, takies working space little, and the lifting that can complete dalle in the narrow working space between high-altitude operation platform and the operation facade of building is carried, and meets the job requirement of high-altitude operation platform.

Description

High-altitude operation platform feeding system

Technical field

The utility model relates to a kind of constructions work delivery system, specifically a kind of high-altitude operation platform feeding system.

Background technology

The delivery system of high-altitude operation platform has that conveying space is narrow, system vibration in course of conveying is large, the fixed form of the conveying sheet material problem such as built on the sand.Current mode of operation, common employing large shape crane carries out carrying conveying to large shape sheet material.Although large shape sheet material can be transported to the appointed place of aloft work by this mode of operation exactly, but in transport process, the vibrations that lifting rope produces in motion process cannot be suppressed, meanwhile, stable mode of operation can not be provided for the handling process of sheet material unloading.For basket-hanging high-altitude operation platform, all adopt artificial loading mode at present, not only operating efficiency is low, and due to circumstance complication during external decoration of high-rise building, winds aloft carries, the handling etc. of large shape sheet material all can make platform produce vibration, thus bring certain hidden danger to construction safety.

Utility model content

The purpose of this utility model is just to provide a kind of high-altitude operation platform feeding system, to solve the bont lacking dalle for high-altitude operation platform, causes the problem that operating efficiency is low.

The utility model is achieved in that a kind of high-altitude operation platform feeding system, comprises suspension gear and feed mechanism.

Described suspension gear is arranged on the roof of building, bears the suspended work of high-altitude operation platform and described feed mechanism; Described feed mechanism is arranged between the operation facade of high-altitude operation platform and building; Described suspension gear is provided be respectively used to hang and connects high-altitude operation platform and hang the hoist cable connecing described feed mechanism.

Described feed mechanism includes U-shaped raising legs, is arranged on the sheet material clamping device in described U-shaped raising legs, controls the push-pull mechanism of described sheet material clamping device folding, and controls the gig that described U-shaped raising legs is elevated along the hoist cable of described suspension gear.

Described U-shaped raising legs includes bottom frid, point to be located at left side column and the right side uprights at frid two ends, described bottom, and is connected between described left side column and described right side uprights, described sheet material clamping device is carried out to the guide groove plate of motion guide; Described gig is arranged on described left side column and described right side uprights respectively, by with the coordinating of described hoist cable on described suspension gear, control described feed mechanism and realize lifting action.

Described sheet material clamping device comprises dynamic jig arm and the clamp arm of the L shape be oppositely arranged, described dynamic jig arm and described clamp arm have the caulking groove of access dalle, described dynamic jig arm is provided with the mobile guide block can rabbeted in the guide groove of described guide groove plate, described clamp arm is provided with the fixed guide block can rabbeted in the guide groove of described guide groove plate.

The notch of the notch of the bottom frid of described U-shaped raising legs to be cross section be inverted T-shaped; Be respectively arranged with convex edge on the forward and backward two sides, bottom of described dynamic jig arm, make the body of described dynamic jig arm become inverted T-shaped structure; Be respectively arranged with convex edge on the forward and backward two sides, bottom of described clamp arm, make the body of described clamp arm become inverted T-shaped structure; Described dynamic jig arm and the interlocking of described clamp arm are in the notch of described bottom frid.

Described push-pull mechanism is oil cylinder, cylinder or electric cylinder, cylinder body one end of described push-pull mechanism connects with the right side uprights of described U-shaped raising legs, cylinder bar one end of described push-pull mechanism connects with the dynamic jig arm of described sheet material clamping device, realizes the opening and closing movement of sheet material clamping device by driving described dynamic jig arm.

The cant board of the described bottom frid of described U-shaped raising legs has row's circular hole, the spring damping bumper relative with building operation facade is installed in described circular hole.

The utility model has that intensity is high, stability is strong, from heavy and light, easy accessibility and the feature such as safe and reliable, the sheet material hoisting that can realize semi-automation, take working space little, the lifting that can complete dalle in the narrow working space between high-altitude operation platform and the operation facade of building is carried, meet the job requirement of high-altitude operation platform, material loading stable operation, flexibly, decrease by number of workers, reduce labour intensity, improve job security.

Accompanying drawing explanation

Fig. 1 is the utility model and working environment schematic diagram thereof.

Fig. 2 is the structural representation of feed mechanism.

Fig. 3 is the structural representation of U-shaped raising legs.

Fig. 4 is the backward structural representation of sheet material clamping device.

Fig. 5 is the structural representation of push-pull mechanism.

In figure: 1, suspension gear, 2, building, 3, operation facade, 4, high-altitude operation platform, 5, feed mechanism, 501, U-shaped raising legs, 502, spring damping bumper, 503, sheet material clamping device, 504, sheet material, 505, push-pull mechanism, 506, gig, 5011, bottom frid, 5012, left side column, 5013, guide groove plate, 5014, right side uprights, 5031, dynamic jig arm, 5032, mobile guide block, 5033, fixed guide block, 5034, clamp arm, 5051, connecting panel, 5052, cylinder body adapter plate, 5053, electric cylinder, 5054, cylinder bar adapter plate.

Detailed description of the invention

As shown in Figure 1, working environment of the present utility model comprises suspension gear 1, building 2, operation facade 3, high-altitude operation platform 4 and feed mechanism 5.Suspension gear 1 reserves the roof being bolted to building 2 by roof, bear the suspended work of high-altitude operation platform 4.Suspension gear 1 is provided with hoist cable, and high-altitude operation platform 4 and feed mechanism 5 are equipped with gig, and high-altitude operation platform 4 realizes dipping and heaving by hoist cable with coordinating of gig.Feed mechanism 5 is placed between the operation facade 3 of high-altitude operation platform 4 and building, utilizes two gigs to realize lifting.

As shown in Figure 2, feed mechanism 5 comprises U-shaped raising legs 501, sheet material clamping device 503, push-pull mechanism 505 and gig 506.

As shown in Figure 3, U-shaped raising legs 501 comprises bottom frid 5011, left side column 5012, guide groove plate 5013 and right side uprights 5014.Left side column 5012 is fixed on the left end of bottom frid 5011, and right side uprights 5014 is fixed on the right-hand member of bottom frid 5011, and guide groove plate 5013 is connected between left side column 5012 and right side uprights 5014.The left side column 5012 and right side uprights 5014 of U-shaped raising legs 501 are respectively arranged with gig 506.Have row's circular hole at bottom frid 5011 near the side of operation facade 3, spring damping bumper 502 is fixed in each circular hole, can avoid the rigid impact to operation facade 3, realize damping operation in the process of the rising of feed mechanism 5 and decline; Make feed mechanism 5 be close on operation facade 3 when sheet material unloading, keep geo-stationary.

In Fig. 2, the cross-sectional plane of the bottom frid 5011 of U-shaped raising legs 501 is " recessed " shape, and guide groove cross-sectional plane of opening is inverted T-shaped.Guide groove plate 5013 to open guide groove cross-sectional plane be side T-shaped.Left side column 5012 and right side uprights 5014 are arch.U-shaped raising legs 501 is bilateral symmetry, facilitates the lifting of suspension gear 1 pair of feed mechanism 5, thus improves stability.

As shown in Figure 4, sheet material clamping device 503 is arranged in opposite directions by the clamp arm 5034 of L shape and the dynamic jig arm 5031 of L shape and forms; The middle and upper part, the back side of clamp arm 5034 is provided with fixed guide block 5033, the middle and upper part, the back side of dynamic jig arm 5031 is provided with mobile guide block 5032; The sheet material holding groove of L shape is had in the body of clamp arm 5034 and dynamic jig arm 5031; Before and after the bottom of clamp arm 5034 and dynamic jig arm 5031, two sides is equipped with convex edge, makes the side of jig arm body become inverted T-shaped structure; Clamp arm 5034 and dynamic jig arm 5031 are plugged in the notch of bottom frid 5011 of U-shaped raising legs 501.The guide end of fixed guide block 5033 and mobile guide block 5032 is rabbeted in the horizontal notch on the guide groove plate 5013 of U-shaped raising legs 501.Sheet material clamping device 503 is arranged on U-shaped raising legs 501 by inverted T-shaped notch, and the sheet material 504 of transport is placed in sheet material clamping device 503.

In Fig. 4, clamp arm 5031 and the dynamic jig arm 5034 of sheet material clamping device 503 are relative L shape, cross-sectional plane is " recessed " shape, and bottom boss and body form inverted T-shaped, are arranged on the bottom frid 5011 of U-shaped raising legs 501, can sway.The guide end cross-sectional plane of fixed guide block 5032 and mobile guide block 5032 is side T-shaped, can in guide groove plate 5013 sway.Fixed guide block 5032 guide end is separately provided with lock screw.

Push-pull mechanism 505 can be oil cylinder, cylinder or electric cylinder, in Fig. 2, cylinder body one end of push-pull mechanism 505 is fixedly connected on the right side uprights 5014 of U-shaped raising legs 501, cylinder bar one end of push-pull mechanism 505 is fixedly connected in the dynamic jig arm 5031 of sheet material clamping device 503, by driving dynamic jig arm 5031, realize the opening and closing movement of sheet material clamping device 503.

Push-pull mechanism 505 shown in Fig. 5 is made up of connecting panel 5051, cylinder body adapter plate 5052, electric cylinder 5053 and cylinder bar adapter plate 5054.Connecting panel 5051 is fixed on the upper inner (Fig. 2) of the right side uprights 5014 of U-shaped raising legs 501, the platen surface of cylinder body adapter plate 5052 is fixedly connected on the middle part of connecting panel 5051, the riser face of cylinder body adapter plate 5052 and the fixed end of electric cylinder 5053 pass through pinned connection, the platen surface of cylinder bar adapter plate 5054 is fixedly connected on the side end face of the dynamic jig arm 5034 of sheet material clamping device 503, and the riser face of cylinder bar adapter plate 5054 and the cylinder bar of electric cylinder 5053 pass through pinned connection.

Working process of the present utility model is: the gig 506 of the hoist cable and feed mechanism 5 that are positioned at the suspension gear 1 at building top connects, the width size of the sheet material 504 that manual measurement need transport, by the position of adjustment clamp arm 5034, make when dynamic jig arm 5031 and clamp arm 5034 clamp sheet material 504, sheet material 504 is just in time in the middle position of feed mechanism 5.Be locked the jam nut of orienting lug 5033 guide end, makes clamp arm 5034 can not sway.After this lifting carrying work of sheet material can be started.

Before promoting carrying, first drive dynamic jig arm 5031 to move right a segment distance by push-pull mechanism 505, after notch sheet material 504 being put into sheet material clamping device 503, drive push-pull mechanism 505 to make jig arm 5031 to left movement, clamping sheet material 504.Suspension gear 1 drives feed mechanism 5 to rise, and spring damping bumper 502 is pressed close to operation facade 3 and carried out damping.Rise after putting in place, unload sheet material 504, spring damping bumper 502 restores to the original state, and feed mechanism 5 drops to ground by suspension gear 1, prepares the transport of next block sheet material.

Claims (4)

1. a high-altitude operation platform feeding system, is characterized in that, comprises suspension gear and feed mechanism;

Described suspension gear is arranged on the roof of building, bears the suspended work of high-altitude operation platform and described feed mechanism; Described feed mechanism is arranged between the operation facade of high-altitude operation platform and building; Described suspension gear is provided be respectively used to hang and connects high-altitude operation platform and hang the hoist cable connecing described feed mechanism;

Described feed mechanism includes U-shaped raising legs, is arranged on the sheet material clamping device in described U-shaped raising legs, controls the push-pull mechanism of described sheet material clamping device folding, and controls the gig that described U-shaped raising legs is elevated along the hoist cable of described suspension gear;

Described U-shaped raising legs includes bottom frid, point to be located at left side column and the right side uprights at frid two ends, described bottom, and is connected between described left side column and described right side uprights, described sheet material clamping device is carried out to the guide groove plate of motion guide; Described gig is arranged on described left side column and described right side uprights respectively, by with the coordinating of described hoist cable on described suspension gear, control described feed mechanism and realize lifting action;

Described sheet material clamping device comprises dynamic jig arm and the clamp arm of the L shape be oppositely arranged, described dynamic jig arm and described clamp arm have the caulking groove of access dalle, described dynamic jig arm is provided with the mobile guide block can rabbeted in the guide groove of described guide groove plate, described clamp arm is provided with the fixed guide block can rabbeted in the guide groove of described guide groove plate.

2. high-altitude operation platform feeding system according to claim 1, is characterized in that, the notch of the notch of the bottom frid of described U-shaped raising legs to be cross section be inverted T-shaped; Be respectively arranged with convex edge on the forward and backward two sides, bottom of described dynamic jig arm, make the body of described dynamic jig arm become inverted T-shaped structure; Be respectively arranged with convex edge on the forward and backward two sides, bottom of described clamp arm, make the body of described clamp arm become inverted T-shaped structure; Described dynamic jig arm and the interlocking of described clamp arm are in the notch of described bottom frid.

3. high-altitude operation platform feeding system according to claim 1, it is characterized in that, described push-pull mechanism is oil cylinder, cylinder or electric cylinder, cylinder body one end of described push-pull mechanism connects with the right side uprights of described U-shaped raising legs, cylinder bar one end of described push-pull mechanism connects with the dynamic jig arm of described sheet material clamping device, realizes the opening and closing movement of sheet material clamping device by driving described dynamic jig arm.

4. high-altitude operation platform feeding system according to claim 1, it is characterized in that, the cant board of the described bottom frid of described U-shaped raising legs has row's circular hole, the spring damping bumper relative with building operation facade is installed in described circular hole.