CN215167898U - A safe intelligence is climbed for high-rise building construction - Google Patents

Abstract

The utility model relates to a safe intelligence climbs frame for high-rise building construction, including climbing the frame body, it includes multilayer plywood subassembly to climb the frame body, its rear side and left and right sides cover there is the protection network, the plywood subassembly includes scaffold board, the blotter, loading board and upper end open-ended crate, the loading board passes through the elastic component and connects in the crate, scaffold board and blotter are according to top-down's order shop dress in proper order on the loading board, gravity sensor is installed to scaffold board bottom surface, the alarm of climbing is still installed to the crate outer wall, gravity sensor, it has communication connection with setting up between subaerial controller respectively to climb the frame alarm. Adopt the technical scheme of the utility model, the protection network can prevent from climbing this internal construction tool or raw and other materials that fall of frame, still prevents to bear personnel, construction tool or construction material and appear overloading in climbing the frame, still prevents to drop rapidly and causes great impact injury to the personnel in climbing the frame, through taking multiple safety protection means, has promoted the security of climbing the frame.

Description

A safe intelligence is climbed for high-rise building construction

Technical Field

The utility model belongs to the technical field of the building, especially, relate to a safe intelligence climbs frame for high-rise building construction.

Background

The climbing frame, also called lifting frame, can be divided into several main types such as hydraulic type, electrodynamic type, manual pull type and the like according to the power source, is a novel scaffold system developed in recent years, is mainly applied to high-rise shear wall type floors, and can ascend or descend along buildings. This system makes the scaffold technology completely improved: firstly, the frame does not need to be turned over; and secondly, the dismounting and mounting process of the scaffold is eliminated, namely the scaffold is used until the construction is finished after one-time assembly, and is not limited by the height of a building, so that the manpower and the materials are greatly saved. For example, publication numbers are: the patent document of "CN 203559571U" discloses a climbing frame used in building construction, which comprises a base, a column rail and a main frame outer column, wherein the column rail and the main frame outer column are vertically fixed on the base, and the upper end and the lower end of the column rail are respectively connected through a first connecting piece and a second connecting piece; and a horizontal truss is arranged between the upright post track and the outer upright post of the main frame, and a laminate assembly is laid at the corresponding position. The technical scheme described in the patent document has the advantages of convenience in installation, simplicity in operation and the like, and has good social and economic benefits, however, accidents occur on the construction site for many times in the existing lifting type climbing frame, and major casualty accidents are caused by overloading of goods loading on the climbing frame and high-speed falling on the ground due to the fact that the climbing frame cannot be reliably locked or is not high, and therefore the existing climbing frame safety protection means are few.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a safe intelligence climbs frame for high-rise building construction.

The utility model provides a safe and intelligent climbing frame for high-rise building construction, which comprises a climbing frame body, wherein the climbing frame body comprises a plurality of layers of plate components which are arranged at equal intervals along the vertical direction from top to bottom, the adjacent two layers of plate components are connected together through a plurality of pairs of supporting rods which are mutually crossed and hinged together, the left side and the right side of each layer of plate component are respectively lapped between a pair of track trusses paved along the vertical surfaces of the outer walls of the plurality of layers of buildings through rollers, a protective net is covered on the rear side and the left side and the right side of the climbing frame body, the plate components comprise scaffold plates, buffer pads, a bearing plate and a plate box with an opening at the upper end, the bearing plate is connected into the plate box through elastic pieces, the scaffold plates and the buffer pads are all accommodated into the plate box and are sequentially arranged on the bearing plate according to the sequence from top to bottom, a gravity sensor is installed on the bottom surfaces of the scaffold plates, gravity sensor is used for acquireing the gravity data that bear on the scaffold board, the crate outer wall is still installed and is climbed the alarm, gravity sensor, climb and establish communication connection between the alarm and the controller that sets up subaerial respectively, the controller is used for receiving and coming from gravity sensor's gravity data compares it with inside predetermined gravity threshold value, when coming from gravity sensor's gravity data is greater than this gravity threshold value, the controller sends out the instruction and makes it climbs the operation of frame alarm.

The elastic piece is a cylindrical spiral compression spring.

The protective net is made of plastic woven cloth.

The cushion pad is made of natural rubber, butadiene rubber or isoprene rubber.

The outer wall of the plate box is further provided with a speed sensor, the speed sensor is in communication connection with the controller, the speed sensor is used for acquiring moving speed data of the plate assembly and forwarding the moving speed data to the controller, the controller compares the moving speed data from the speed sensor with a speed threshold preset in the controller, and when the moving speed data from the speed sensor is larger than the speed threshold, the controller sends an instruction to enable the frame climbing alarm to operate.

The controller is further connected with a ground alarm through a wire, and when the climbing frame alarm operates, the controller further sends out an instruction to enable the ground alarm to operate.

The laminate assembly further comprises an air bag, the air bag is paved between the cushion pad and the bearing plate, an inflator is further installed on the outer wall of the plate box, the inflator is communicated with the air bag through an inflation pipe installed below the cushion pad, communication connection is further established between the inflator and the controller, and when the moving speed data from the speed sensor is larger than a speed threshold value preset in the controller, the controller further sends out an instruction to enable the inflator to inflate the air bag.

The supporting rod is made of a steel pipe with a nominal diameter not less than 80 mm.

The number of the laminated plate assemblies is 4 to 5, and the interlayer spacing between two adjacent layers of the laminated plate assemblies is consistent with the interlayer spacing of a multi-storey building.

The beneficial effects of the utility model reside in that: by adopting the technical proposal of the utility model, the protective net is covered on the rear side and the left and right sides of the climbing frame body, so as to prevent the construction tools or raw materials falling from the climbing frame body, protect the safety of ground construction personnel, when the personnel, construction tools or construction materials in the climbing frame are overloaded, the personnel and ground management personnel in the climbing frame can be warned to prevent overload accidents, the falling speed of the climbing frame is detected by a speed sensor, when the climbing frame falls rapidly or the falling speed is abnormal, the personnel and ground management personnel in the climbing frame can be warned to take measures to process, thereby avoiding major accidents causing casualties, in addition, when the climbing frame falls rapidly or the falling speed is abnormal, an inflator inflates an air bag, the personnel in the climbing frame is in a weightlessness state, the cushion pad and the air bag play the roles of buffering and absorbing impact force for the rapid falling of the personnel in the climbing frame, can prevent to climb the interior personnel of frame and receive great impact at the tenesmus in-process rapidly, personnel's safety in the frame is climbed in the protection, the utility model discloses an adopt multiple safety protection means, promoted the security of climbing the frame.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the laminate assembly of the present invention.

In the figure: the method comprises the following steps of 1-climbing frame body, 2-laminate assembly, 3-supporting rod, 4-rail truss, 5-protective net, 6-electric hoist, 7-scaffold board, 8-buffer pad, 9-bearing board, 10-board box, 11-elastic piece, 12-gravity sensor, 13-climbing frame alarm, 14-controller, 15-speed sensor, 16-ground alarm, 17-air bag and 18-inflator.

Detailed Description

The technical solution of the present invention is further explained with reference to the accompanying drawings, but the claimed protection scope is not limited to the above;

the utility model provides a safe and intelligent climbing frame for high-rise building construction, as shown in figures 1 and 2, the climbing frame comprises a climbing frame body 1, the climbing frame body 1 comprises a plurality of layer plate assemblies 2 which are arranged at equal intervals along the vertical direction from top to bottom, the adjacent two-layer plate assemblies 2 are connected together through a plurality of pairs of supporting rods 3 which are hinged together in a mutual crossing way, the left side and the right side of each layer plate assembly 2 are respectively lapped between a pair of track trusses 4 paved along the vertical surfaces of the outer walls of the multi-layer building through rollers, the top surface of the climbing frame body 1 and a hanging hoist 6 arranged on the track trusses 4 are covered with a protective net 5 on the rear side and the left side and the right side of the climbing frame body 1, the climbing frame body 1 comprises a scaffold plate 7, a buffer cushion 8, a bearing plate 9 and a plate box 10 with an opening at the upper end, the bearing plate 9 is connected in the plate box 10 through an elastic piece 11, the scaffold plate 7 and the buffer cushion 8 are both accommodated in the plate box 10 and paved on the bearing plate 9 in turn according to the order from top to bottom, gravity sensor 12 is installed to scaffold board 7 bottom surface, gravity sensor 12 is used for acquireing the gravity data that bears on scaffold board 7, a frame alarm 13 is climbed still to the external wall of crate 10 installation, gravity sensor 12, it has communication connection with setting up between subaerial controller 14 respectively to climb frame alarm 13, controller 14 is used for receiving the gravity data that comes from gravity sensor 12 and compares it with inside predetermined gravity threshold value, when the gravity data that comes from gravity sensor 12 is greater than this gravity threshold value, controller 14 sends the instruction and makes and climb frame alarm 13 operation.

Further, the elastic member 11 is a cylindrical coil compression spring. The material of the protective net 5 is plastic woven cloth. The cushion pad 8 is made of natural rubber, butadiene rubber or isoprene rubber.

In addition, a speed sensor 15 is further mounted on the outer wall of the plate box 10, a communication connection is established between the speed sensor 15 and the controller 14, the speed sensor 15 is used for acquiring moving speed data of the layer plate assembly 2 and forwarding the moving speed data to the controller 14, the controller 14 compares the moving speed data from the speed sensor 15 with a speed threshold preset in the controller 14, and when the moving speed data from the speed sensor 15 is larger than the speed threshold, the controller 14 sends an instruction to enable the climbing alarm 13 to operate. The controller 14 is also connected with a ground alarm 16 through a lead, and when the climbing frame alarm 13 operates, the controller 14 also sends out an instruction to operate the ground alarm 16.

In addition, the laminate assembly 2 further comprises an airbag 17, the airbag 17 is paved between the cushion 8 and the bearing plate 9, an inflator 18 is further installed on the outer wall of the plate box 10, the inflator 18 is communicated with the airbag 17 through an inflation pipe installed below the cushion 8, a communication connection is further established between the inflator 18 and the controller 14, and when the moving speed data from the speed sensor 15 is larger than the speed threshold value preset in the controller 14, the controller 14 further sends an instruction to enable the inflator 18 to inflate the airbag 17.

Further, the support rod 3 is made of a steel pipe having a nominal diameter of not less than 80 mm. The number of the layer plate assemblies 2 is 4 to 5, and the layer spacing of the two adjacent layer plate assemblies 2 is consistent with the layer spacing of a multi-layer building.

By adopting the technical proposal of the utility model, the protective net is covered on the rear side and the left and right sides of the climbing frame body, so as to prevent the construction tools or raw materials falling from the climbing frame body, protect the safety of ground construction personnel, when the personnel, construction tools or construction materials in the climbing frame are overloaded, the personnel and ground management personnel in the climbing frame can be warned to prevent overload accidents, the falling speed of the climbing frame is detected by a speed sensor, when the climbing frame falls rapidly or the falling speed is abnormal, the personnel and ground management personnel in the climbing frame can be warned to take measures to process, thereby avoiding major accidents causing casualties, in addition, when the climbing frame falls rapidly or the falling speed is abnormal, an inflator inflates an air bag, the personnel in the climbing frame is in a weightlessness state, the cushion pad and the air bag play the roles of buffering and absorbing impact force for the rapid falling of the personnel in the climbing frame, can prevent to climb the interior personnel of frame and receive great impact at the tenesmus in-process rapidly, personnel's safety in the frame is climbed in the protection, the utility model discloses an adopt multiple safety protection means, promoted the security of climbing the frame.

Claims (9)

1. The utility model provides a safe intelligence climbs frame for high-rise building construction which characterized in that: the climbing frame comprises a climbing frame body (1), wherein the climbing frame body (1) comprises a plurality of layers of laminated plate assemblies (2) which are arranged at equal intervals along the vertical direction from top to bottom, the adjacent two layers of laminated plate assemblies (2) are connected together through a plurality of pairs of supporting rods (3) which are hinged together in a crossed manner, the left side and the right side of each laminated plate assembly (2) are respectively lapped between a pair of track trusses (4) paved along the vertical faces of the outer walls of a multi-layer building through rollers, protective nets (5) are covered on the rear side and the left side and the right side of the climbing frame body (1), each laminated plate assembly (2) comprises a scaffold plate (7), a buffer cushion (8), a bearing plate (9) and a plate box (10) with an opening at the upper end, the bearing plate (9) is connected into the plate box (10) through an elastic piece (11), the scaffold plates (7) and the buffer cushions (8) are all accommodated in the plate box (10) and are sequentially paved on the bearing plate (9) according to the order from top to bottom, gravity sensor (12) are installed to scaffold board (7) bottom surface, and gravity sensor (12) are used for acquireing the gravity data that bear on scaffold board (7), a climbing alarm (13) are still installed to crate (10) outer wall, gravity sensor (12), climbing alarm (13) respectively with set up between subaerial controller (14) have communication connection, controller (14) are used for receiving to come from gravity sensor (12)'s gravity data compares it with inside predetermined gravity threshold value, when coming from when gravity sensor (12)'s gravity data is greater than this gravity threshold value, controller (14) give-out order makes climbing alarm (13) operation.

2. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: the elastic piece (11) is a cylindrical spiral compression spring.

3. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: the protective net (5) is made of plastic woven cloth.

4. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: the cushion pad (8) is made of natural rubber, butadiene rubber or isoprene rubber.

5. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: still install speedtransmitter (15) on crate (10) outer wall, speedtransmitter (15) with communication connection has been established between controller (14), and speedtransmitter (15) are used for acquireing the moving speed data of plywood subassembly (2) forward controller (14), controller (14) are compared the moving speed data that comes from speedtransmitter (15) and its inside predetermined speed threshold value, and when the moving speed data that comes from speedtransmitter (15) is greater than this speed threshold value, controller (14) send the instruction and make climb a warning ware (13) and operate.

6. A safety intelligent climbing frame for high-rise building construction according to claim 1 or 5, characterized in that: the controller (14) is connected with a ground alarm (16) through a wire, and when the frame climbing alarm (13) operates, the controller (14) sends an instruction to enable the ground alarm (16) to operate.

7. The safety intelligent climbing frame for high-rise building construction according to claim 4, wherein: the laminate assembly (2) further comprises an air bag (17), the air bag (17) is paved between the cushion pad (8) and the bearing plate (9), an inflator (18) is further installed on the outer wall of the plate box (10), the inflator (18) is communicated with the air bag (17) through an inflation pipe installed below the cushion pad (8), a communication connection is further established between the inflator (18) and the controller (14), and when the moving speed data from the speed sensor (15) is larger than a preset speed threshold value in the controller (14), the controller (14) further sends an instruction to enable the inflator (18) to inflate the air bag (17).

8. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: the supporting rod (3) is made of a steel pipe with a nominal diameter not less than 80 mm.

9. A safety intelligent climbing frame for high-rise building construction according to claim 1, characterized in that: the number of the laminated plate assemblies (2) is 4 to 5, and the layer spacing of the two adjacent layers of the laminated plate assemblies (2) is consistent with the layer spacing of a multi-layer building.

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