CN112282342B - Building facade construction frame body capable of vertically deforming - Google Patents

Abstract

The invention relates to a building facade construction frame body capable of deforming vertically, which comprises a bottom mounting seat, a frame body unit, a conversion frame body, a wall-attached guide seat, a lifting device and an anti-falling device, wherein the bottom mounting seat is arranged on the frame body unit; the bottom mount includes the underframe, sets up the first space of promoting in the underframe and sets up the second of outer underframe outside and carry the space. The folding scaffold is folded in a telescopic pipe hinging mode, compression in the height direction of the scaffold is achieved, the structure is simple, connecting fittings are few, and installation and removal are simple, convenient and quick; more importantly, the supporting strength of the folding scaffold is greatly improved.

Description

Building facade construction frame body capable of vertically deforming

Technical Field

The invention relates to the technical field of scaffolds, in particular to a building facade construction frame body capable of deforming vertically.

Background

The assembled scaffold is a wall-attached scaffold which is erected at a certain height and attached to an engineering structure, can climb or descend along with the engineering structure layer by depending on self lifting equipment and devices, is provided with an anti-falling device and can be freely connected and assembled with required height and required machine position quantity, one of the main factors considered in the design and installation of the assembled scaffold is the construction safety, the connection fit relationship among the scaffold main body, the lifting equipment and the anti-falling device is the main factors determining the safety performance of the scaffold, the consideration is the convenience in installation, and the construction efficiency is improved as much as possible. The scaffold can not dynamically deform along with the deformation of the building structure, a large amount of manpower is needed to be erected on site one by one, and the falling prevention is not made in place in the aspect of early induction, so that the falling prevention problem can exist. Therefore, there is a need in the art for a solution that is safer and better able to work at the same time.

Disclosure of Invention

The invention aims to provide a building elevation construction frame body capable of deforming vertically, which comprises a bottom mounting seat, a frame body unit, a conversion frame body, a wall-attached guide seat, a lifting device and an anti-falling device; the method is characterized in that:

the bottom mounting seat comprises a bottom frame, a first lifting space arranged in the bottom frame and a second lifting space arranged on the outer side of the outer bottom frame;

the wall-attached guide seat comprises a fixed base, a guide wheel and a guide wheel shaft, wherein the guide wheel shaft is fixed on a guide groove of the fixed base, and the guide wheel is fixed on the guide wheel shaft;

the frame body units are rectangular frames, a plurality of frame body units form a construction frame body transverse system of the building vertical face through transverse connection, the construction frame body transverse system is lifted upwards along the wall-attached guide seat through a first lifting space, and a plurality of construction frame body transverse systems are vertically connected through the clamping pieces to form a building vertical face construction frame body; a first rail is arranged on a vertical connecting column at one side of the frame body unit close to the wall, a second rail is arranged at the outer side of the frame body unit, and the first rail is matched with a guide wheel in a guide groove of the fixed base;

the conversion frame body is a rectangular mounting frame with a plurality of surfaces provided with rail wheels, and is lifted along rails of the outer vertical surfaces of the vertical frame body units through a second lifting space;

the upper cross bar of the conversion frame body is provided with a track wheel which horizontally slides; the vertical rod on the inner side of the conversion frame body is provided with a track wheel which slides vertically;

the concrete operation process of this building facade construction support body does: horizontal equipment in the first promotion space of a plurality of support body units in the underframe, promote the horizontal system of construction support body to the construction position in proper order through hoisting device, when meetting the evagination building facade, promote the space through the second and upwards promote the construction position to the conversion support body along the second track, through vertical gliding rail wheel and second track cooperation during the promotion, the track of the horizontal pole of this conversion support body is as the track of the horizontal system's of construction support body of construction position department translation, through the power device with the horizontal system of construction support body outside translation until this the inboard of the horizontal system of construction support body and the attaching wall track of evagination building facade to the tie, promote the conversion support body again and up promote the horizontal system of construction support body.

The anti-falling device comprises a vertical main board located on one side of the wall body and a transverse main board located on one side of the vertical main board, far away from one side of the wall body, and fixedly connected with the vertical main board, wherein a first reset tension spring and a second reset tension spring are located on the vertical main board together with the connecting position of the anti-falling support, a sliding groove or a sliding rail is arranged at the bottom of the transverse main board, correspondingly, the top of the anti-falling block is provided with a sliding rail or a sliding groove matched with the anti-falling block, and the transverse main board and the anti-falling block are connected with the sliding groove through the sliding rail and the sliding groove which are matched with each other.

A pressure sensor is arranged on the sliding rail or in the sliding chute corresponding to the anti-falling block; a pressure sensor is also arranged on the side wall of the vertical part of the linkage groove close to one side of the building facade construction frame body guide rail; the pressure sensors are electrically connected with the ground control machine, so that the measured pressure value is transmitted to the ground control machine.

The building facade construction frame body further comprises a DSP (digital signal processor), a monitoring terminal, a cloud server and a data storage device, the first tension sensor and the second tension sensor are connected with the ground control machine through the DSP, the monitoring terminal is connected with the ground control machine through the cloud server, the DSP is connected with the data storage device, and the cloud server is also connected with the data storage device.

The monitoring terminal is a PC client with a display screen and/or a mobile client with a touch screen.

The invention has the following beneficial effects: by arranging the single frame as the flexibly deformable construction frame body unit, the flexible deformation can be carried out when the single frame meets the building vertical surface which is convex or concave in the lifting process, and the requirements of the vertical surface are met. In addition, the intelligent setting of construction scaffold system is convenient for, and the construction scaffold can be erected and lifted on the basis of no people or few people when the intelligent control device is arranged on the lifting device. The invention can be suitable for vertical deformation or transverse deformation through the basic idea of the 'transformers'.

Drawings

FIG. 1 is a schematic diagram of the lifting completion of the present invention;

FIG. 2 is a schematic view of a transition frame according to the present invention;

FIG. 3 is a schematic view of a frame unit according to the present invention;

FIG. 4 is a schematic view of a bottom mount of the present invention;

FIG. 5 is a schematic view of the lifting state 1 of the present invention;

FIG. 6 is a schematic view of the lifting state 2 of the present invention;

fig. 7 is a schematic diagram of the lifting state 3 of the present invention.

Detailed Description

The present invention is further described below in conjunction with the appended drawings, but does not represent the only embodiments of the present invention.

As shown in the figure, the first and second,

a building elevation construction frame body capable of deforming vertically comprises a bottom mounting seat 1, a frame body unit 2, a conversion frame body 3, a wall-attached guide seat 4, a lifting device 5 and an anti-falling device 6; the method is characterized in that:

the bottom mount comprises a underframe 11, a first lifting space 12 arranged in the underframe and a second lifting space 13 arranged outside the outer underframe;

the wall-attached guide seat comprises a fixed base 41, a guide wheel 42 and a guide wheel shaft 43, wherein the guide wheel shaft is fixed on a guide groove of the fixed base, and the guide wheel is fixed on the guide wheel shaft;

the frame body units are rectangular frames, a plurality of frame body units form a construction frame body transverse system of the building vertical face through transverse connection, the construction frame body transverse system is lifted upwards along the wall-attached guide seat through a first lifting space, and a plurality of construction frame body transverse systems are vertically connected through the clamping pieces to form a building vertical face construction frame body; wherein a first rail 21 is arranged on a vertical connecting column at one side of the frame body unit close to the wall, a second rail 22 is arranged at the outer side of the frame body unit, and the first rail is matched with a guide wheel in a guide groove of the fixed base;

the conversion frame body is a rectangular mounting frame with a plurality of surfaces provided with rail wheels, and is lifted along rails of the outer vertical surfaces of the vertical frame body units through a second lifting space;

the upper cross bar 30 of the conversion frame body is provided with a track wheel 31 which horizontally slides; the inner vertical rod 32 of the conversion frame body is provided with a track wheel 33 which slides vertically;

the concrete operation process of this building facade construction support body does: horizontal equipment in the first promotion space of a plurality of support body units in the underframe, promote the horizontal system of construction support body to the construction position in proper order through hoisting device, when meetting evagination building facade 7, promote the space through the second and up promote the construction position along the second track with the conversion support body, through vertical gliding rail wheel and the cooperation of second track during the promotion, the track of the horizontal pole of the last horizontal pole of this conversion support body is as the track of the horizontal system's of construction support body of construction position department translation, the inboard of the horizontal system of construction support body and the attached wall track of evagination building facade are leveled outward translation until this construction support body is horizontal, promote the conversion support body again and up promote the horizontal system of construction support body.

The anti-falling device comprises a vertical main board located on one side of the wall body and a transverse main board located on one side of the vertical main board, far away from one side of the wall body, and fixedly connected with the vertical main board, wherein a first reset tension spring and a second reset tension spring are located on the vertical main board together with the connecting position of the anti-falling support, a sliding groove or a sliding rail is arranged at the bottom of the transverse main board, correspondingly, the top of the anti-falling block is provided with a sliding rail or a sliding groove matched with the anti-falling block, and the transverse main board and the anti-falling block are connected with the sliding groove through the sliding rail and the sliding groove which are matched with each other.

A pressure sensor is arranged on the sliding rail or in the sliding chute corresponding to the anti-falling block; a pressure sensor is also arranged on the side wall of the vertical part of the linkage groove close to one side of the building facade construction frame body guide rail; the pressure sensors are electrically connected with the ground control machine, so that the measured pressure value is transmitted to the ground control machine.

The building facade construction frame body further comprises a DSP (digital signal processor), a monitoring terminal, a cloud server and a data storage device, the first tension sensor and the second tension sensor are connected with the ground control machine through the DSP, the monitoring terminal is connected with the ground control machine through the cloud server, the DSP is connected with the data storage device, and the cloud server is also connected with the data storage device.

The monitoring terminal is a PC client with a display screen and/or a mobile client with a touch screen.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any simple modification, equivalent change or modification made to the above embodiments according to the technical spirit of the present invention still falls within the scope of the technical solution of the present invention.

Claims (5)

1. A building facade construction frame body capable of deforming vertically comprises a bottom mounting seat, a frame body unit, a conversion frame body, a wall-attached guide seat, a lifting device and an anti-falling device; the method is characterized in that:

the bottom mounting seat comprises a bottom frame, a first lifting space arranged in the bottom frame and a second lifting space arranged on the outer side of the outer bottom frame;

the wall-attached guide seat comprises a fixed base, a guide wheel and a guide wheel shaft, wherein the guide wheel shaft is fixed on a guide groove of the fixed base, and the guide wheel is fixed on the guide wheel shaft;

the frame body units are rectangular frames, a plurality of frame body units form a construction frame body transverse system of the building vertical face through transverse connection, the construction frame body transverse system is lifted upwards along the wall-attached guide seat through a first lifting space, and the plurality of construction frame body transverse systems are vertically connected through the clamping pieces to form a building vertical face construction frame body; a first rail is arranged on a vertical connecting column at one side of the frame body unit close to the wall, a second rail is arranged at the outer side of the frame body unit, and the first rail is matched with a guide wheel in a guide groove of the fixed base;

the conversion frame body is a rectangular mounting frame with a plurality of surfaces provided with rail wheels, and is lifted along rails of the outer vertical surfaces of the vertical frame body units through a second lifting space;

the upper cross bar of the conversion frame body is provided with a track wheel which horizontally slides; the vertical rod on the inner side of the conversion frame body is provided with a track wheel which slides vertically;

the concrete operation process of this building facade construction support body does: horizontal equipment in the first promotion space of a plurality of support body units in the underframe, promote the horizontal system of construction support body to the construction position in proper order through hoisting device, when meetting the evagination building facade, promote the space through the second and upwards promote the construction position to the conversion support body along the second track, through vertical gliding rail wheel and second track cooperation during the promotion, the track of the horizontal pole of this conversion support body is as the track of the horizontal system's of construction support body of construction position department translation, through the power device with the horizontal system of construction support body outside translation until this the inboard of the horizontal system of construction support body and the attaching wall track of evagination building facade to the tie, promote the conversion support body again and up promote the horizontal system of construction support body.

2. The vertically-deformable building facade construction frame body according to claim 1, characterized in that:

the anti-falling device comprises a vertical main board located on one side of the wall body and a transverse main board located on one side of the vertical main board, far away from one side of the wall body, and fixedly connected with the vertical main board, wherein a first reset tension spring and a second reset tension spring are located on the vertical main board together with the connecting position of the anti-falling support, a sliding groove or a sliding rail is arranged at the bottom of the transverse main board, correspondingly, the anti-falling device also comprises an anti-falling block, a sliding rail or a sliding groove matched with the anti-falling block is arranged at the top of the anti-falling block, and the transverse main board and the anti-falling block are connected through the sliding rail and the sliding groove which are matched with each other.

3. The vertically-deformable building facade construction frame body according to claim 2, characterized in that: a pressure sensor is arranged in the sliding rail or the sliding chute corresponding to the anti-falling block; the pressure sensors are electrically connected with the ground control machine, so that the measured pressure value is transmitted to the ground control machine.

4. The vertically-deformable building facade construction frame body according to claim 2, characterized in that: the building facade construction frame body further comprises a DSP (digital signal processor), a monitoring terminal, a cloud server and a data memory, the first tension sensor and the second tension sensor are connected with a ground control machine through the DSP, the monitoring terminal is connected with the ground control machine through the cloud server, the DSP is connected with the data memory, and the cloud server is also connected with the data memory.

5. The vertically-deformable building facade construction frame body according to claim 4, characterized in that: the monitoring terminal is a PC client with a display screen and/or a mobile client with a touch screen.

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