CN114575576B

CN114575576B - Construction work platform for house building and construction method thereof

Info

Publication number: CN114575576B
Application number: CN202210235144.XA
Authority: CN
Inventors: 李红玉; 蓝宇航; 聂帅; 管利丹
Original assignee: Huazhi Construction Group Co ltd
Current assignee: Huazhi Construction Group Co ltd
Priority date: 2022-03-10
Filing date: 2022-03-10
Publication date: 2023-08-04
Anticipated expiration: 2042-03-10
Also published as: CN114575576A

Abstract

The utility model relates to a construction work platform is built in room, including the hanging flower basket body, the both sides of hanging flower basket body and be located the opening edge of hanging flower basket body and be provided with the otic placode that is used for fixed wire rope, still be provided with the stabilizing mean that is used for preventing hanging flower basket body and rocks when hanging flower basket body goes up and down on the hanging flower basket body, stabilizing mean includes track and sliding connection's gyro wheel on the track, the track includes two concatenation rails that splice each other and form, two all be provided with the mounting that is used for fixing the concatenation rail on the outer facade of building on the concatenation rail, the gyro wheel rotates the setting on the lateral wall of hanging flower basket body, be provided with on the gyro wheel and be used for adsorbing the gyro wheel on the track when the gyro wheel is located the track and remove, stabilizing mean still includes the concatenation mechanism that is used for driving the other end that one of concatenation rail spliced to another concatenation rail; the lifting basket has the advantage of improving stability of the lifting basket in the lifting process.

Description

Construction work platform for house building and construction method thereof

Technical Field

The application relates to the field of building construction, in particular to a building construction operation platform and a construction method thereof.

Background

The hanging basket is a building tool for high-altitude operation of building engineering, and acts on curtain wall installation and outer wall cleaning. The cantilever machine frame is arranged on a building or a structure, the lifting mechanism is used for driving the suspension platform, and the construction facility which runs up and down along the vertical surface of the building or the structure through the steel wire rope is also an operation platform for operators.

The application publication number CN 112012466A's China discloses a house construction work platform and construction method thereof, including the hanging flower basket body, the both sides edge of hanging flower basket body all is provided with the otic placode that is used for fixed wire rope, the hanging flower basket body includes the bottom plate and is located the curb plate at bottom plate periphery, bar hole has all been seted up on one of them curb plate and be located the upper portion and the middle part of curb plate, be mutual parallel arrangement between two bar holes, the equal sliding connection in length direction along the bar hole in two bar holes has the slider, all be provided with the mounting that is used for fixing the slider to the wall body of building on two sliders, all be provided with in two bar holes and be used for driving the slider and be located the downthehole first driving piece that moves and drive the slider and be fixed to the downthehole optional position of bar.

With respect to the related art in the above, the inventors consider that there are the following technical drawbacks: when the wire rope drives the hanging basket body to lift along the vertical direction, in the lifting process, if the heavy wind weather is encountered, the hanging basket body can be caused to shake in the moving process, and dangerous accidents are extremely easy to occur.

Disclosure of Invention

In order to prevent that the hanging flower basket body from rocking at the in-process of going up and down, first aspect, this application provides a room construction work platform.

The application provides a construction work platform is built in room adopts following technical scheme:

the utility model provides a construction work platform is built in room, includes the hanging flower basket body, the both sides of hanging flower basket body and be located the opening edge of hanging flower basket body and be provided with the otic placode that is used for fixed wire rope, still be provided with the stabilizing mean that is used for preventing that the hanging flower basket body rocks when hanging flower basket body goes up and down on the hanging flower basket body, stabilizing mean includes track and sliding connection's gyro wheel on the track, the track includes two concatenation rails that splice each other and form, two all be provided with on the concatenation rail and be used for fixing the mounting on the outer facade of building with the concatenation rail, the gyro wheel rotates and sets up on the lateral wall of hanging flower basket body, be provided with on the gyro wheel and be used for adsorbing the adsorption piece on the track with the gyro wheel when the gyro wheel is located the track and remove, stabilizing mean is still including the concatenation mechanism that is used for driving one of them concatenation rail and splice to the other end of another concatenation rail.

By adopting the technical scheme, when the hanging basket body is driven by the steel wire rope to lift, the splicing mechanism can drive the two splicing rails to splice in turn along the vertical direction, the splicing rails can be fixed on the outer elevation of a building through the arrangement of the fixing piece, and the rollers arranged through the absorbing piece can be absorbed on the rails and move along the length direction of the rails at the moment, so that the hanging basket body is prevented from shaking in the lifting process, the stability of the hanging basket body in lifting is improved, and dangerous accidents are prevented; the mode that two spliced rails are spliced alternately is adopted, the structure is simple, the infinite distance splicing movement can be realized, and the lifting range of the hanging basket body is improved.

Optionally, the fixing piece comprises a vacuum chuck fixedly arranged on the splicing rail, and the vacuum chuck is used for being adsorbed on the building outer vertical surface so as to drive the splicing rail to be fixed on the building outer vertical surface.

Through adopting above-mentioned technical scheme, can drive vacuum chuck and adsorb on the outer facade of building when splicing mechanism drives the spliced rail and remove to make the spliced rail fix on the outer facade of building, it is convenient for fix the spliced rail to adopt vacuum chuck's setting, has improved the fixed effect to the spliced rail.

Optionally, the splicing mechanism includes first telescopic link, rotates the pivoted board of setting on first telescopic link, the fixed second telescopic link that sets up on the pivoted board and articulated the setting and keep away from the grabbing piece on the tip of pivoted board at the second telescopic link, first telescopic link is fixed to be set up on the lateral wall of hanging flower basket body, be provided with on the hanging flower basket body and be used for driving first telescopic link flexible, be close to or keep away from the first telescopic mechanism of hanging flower basket body with the driving grabbing piece, be provided with on the pivoted board and be used for driving pivoted rotary board and be located pivoted rotary mechanism on the first telescopic link, be provided with on the pivoted board and be used for driving the telescopic second telescopic link telescopic machanism of second, be provided with on the second telescopic link and be used for driving grabbing piece and be located articulated point pivoted adjustment mechanism, it is used for snatching arbitrary splice rail to snatch the piece.

Through adopting above-mentioned technical scheme, can drive first telescopic link through first telescopic machanism and stretch out and draw back, thereby make first telescopic link drive snatch the piece and be close to or keep away from the outer facade of building, make snatch the piece drive vacuum chuck adsorb or break away from the absorption with the outer facade of building, slewing mechanism can drive the pivoted plate and be located first telescopic link and rotate, thereby make the pivoted plate drive the snatch piece on the second telescopic link adjust its position, be convenient for adjust the position of putting of joint rail, the second telescopic machanism can drive the second telescopic link and stretch out and draw back, thereby make the second telescopic link drive snatch piece be close to or keep away from the joint rail, thereby further adjust the position of joint rail, adjustment mechanism can drive the pin joint rotation that snatch piece is located the second telescopic link, thereby make snatch piece drive the joint rail rotate to the state same straight line with last joint rail, thereby further be convenient for splice the joint rail.

Optionally, snatch the piece and include the connecting plate and fixedly set up the electro-magnet on the connecting plate, the connecting plate articulates the setting on the second telescopic link, the concatenation rail sets up to metal material and is used for with electro-magnet absorbing metal rail, the magnet ring of absorbing the piece including the cover establish and fixed connection on the gyro wheel.

Through adopting above-mentioned technical scheme, through being circular telegram to the electro-magnet for the electro-magnet can adsorb the concatenation rail that metal material made, adopts its simple structure of setting of electro-magnet, is convenient for get the concatenation rail and puts, and the setting of magnet ring is convenient for drive the gyro wheel and adsorbs on the concatenation rail, and can drive the gyro wheel and remove along the length direction of concatenation rail.

Optionally, the first telescopic link includes first dead lever and grafting and sliding connection's first movable rod in first dead lever, first dead lever is fixed to be set up on the hanging flower basket body, the rotor plate rotates and sets up on first movable rod, first telescopic machanism includes first flexible electric jar and first drive plate, first flexible electric jar is fixed to be set up on first dead lever, first drive plate is fixed to be set up on the outer wall of first movable rod, first drive plate is fixed to be set up on the drive end of first flexible electric jar.

Through adopting above-mentioned technical scheme, drive first drive plate through first flexible electric jar and remove for first drive plate drives first movable rod and is located first dead lever internal movement, thereby adjusts the length of first telescopic link, makes the first telescopic link can drive the concatenation rail on the electro-magnet and be close to or keep away from the outer facade of building, adopts first flexible electric jar driven to set up its simple structure and be convenient for maintain, has improved the regulation effect to first telescopic link length adjustment.

Optionally, the slewing mechanism includes annular rack, rotation gear and rotation motor, annular rack cover is established and fixed connection is on first movable rod, rotation gear is fixed to be set up on rotation motor's driving end and with ring gear meshing, rotation motor is fixed to be set up on the rotor plate.

Through adopting above-mentioned technical scheme, drive the rotation gear through rotating the motor for the rotation gear is located annular rack and removes, thereby makes rotation gear and rotation motor drive the rotor plate and is located first movable rod and rotate, adopts rotation gear and annular gear drive rotor plate pivoted square, simple structure has improved the drive effect to the rotor plate.

Optionally, the second telescopic link includes second dead lever and grafting and sliding connection's second movable rod in the second dead lever, the fixed setting of second dead lever is on the rotor plate, snatch the articulated setting of piece on the second movable rod, the second telescopic machanism includes flexible electric jar of second and second drive plate, the flexible electric jar of second is fixed to be set up on the second dead lever, the fixed setting of second drive plate is on the outer wall of second movable rod, the fixed setting of second drive plate is on the driving end of flexible electric jar of second.

Through adopting above-mentioned technical scheme, drive the second drive plate through the flexible jar of second and remove for the second drive plate drives the second movable rod and is located the second dead lever and remove, thereby adjusts the length of second telescopic link, makes the second movable rod can drive the electro-magnet and remove towards the concatenation rail, and can make the electro-magnet that has adsorbed the concatenation rail remove towards the position that needs the concatenation, adopts its simple structure of flexible jar driven setting of second to be convenient for maintain, has improved the regulation effect to second telescopic link length adjustment.

Optionally, fixedly provided with wears to establish and rotate the articulated shaft of connection on the second movable rod on the connecting plate, the connecting plate passes through the articulated shaft and articulates the setting on the second movable rod, adjustment mechanism includes worm wheel, worm and accommodate motor, the worm wheel cover is established and fixed connection is epaxial at the articulated, the worm is fixed to be set up on accommodate motor's driving end and with the worm wheel meshing, accommodate motor is fixed to be set up on the second movable rod.

Through adopting above-mentioned technical scheme, drive worm through accommodate motor and rotate for the worm wheel drives the articulated shaft and rotates, and the articulated shaft can drive the connecting plate and rotate, thereby makes the connecting plate drive the concatenation rail rotation on the electro-magnet, makes the concatenation rail adjust to the state with last concatenation rail same straight line, adopts worm and worm wheel drive's mode, can drive the connecting plate and be fixed to the position after arbitrary rotation, has improved the drive effect to the connecting plate.

Optionally, a plugging groove is formed at one end of the splicing rail, and a plugging strip for plugging into the plugging groove of the other splicing rail is arranged at the other end of the splicing rail.

Through adopting above-mentioned technical scheme, the setting of spliced groove and grafting strip can drive two concatenation rails and be located same straight line to the concatenation effect between two concatenation rails has further been improved.

In a second aspect, in order to prevent the hanging basket body from shaking in the lifting process, the application provides a construction method of a building operation platform.

The construction method of the house construction operation platform adopts the following technical scheme:

the construction method of the house construction operation platform comprises the following steps:

when wire rope drives the hanging flower basket body and descends, the hanging flower basket body can drive the gyro wheel and be located on one of them spliced track and remove to next spliced track, drive first movable rod and be located first dead lever through first flexible electric jar, make spliced track keep away from building facade, the grafting strip can be located the jack-in groove and remove, make the vacuum chuck of spliced track break away from the absorption with building facade, drive the rotation gear through rotating motor and be located annular rack and remove this moment, make the pivoted plate be located first movable rod and rotate, drive the second movable rod and be located the second dead lever through the flexible electric jar of second and remove, thereby adjust the length of second telescopic rod, drive the worm through accommodate motor and rotate, make the worm wheel drive articulated shaft rotate, thereby adjust the position of electro-magnet on the connecting plate, make the electro-magnet remove last spliced track, drive spliced track adsorb to the electro-magnet, and remove spliced track to another spliced track's below, drive first movable rod and be located first dead lever and remove, make spliced strip to be located annular rack, make simultaneously drive the grafting strip and adsorb to be located on the annular rack, make the repeated step of lifting flower basket on the mutual lifting flower basket body and keep on the landing.

Through adopting above-mentioned technical scheme, prevent that the hanging flower basket body from rocking when going up and down, improved the stability of hanging flower basket body when going up and down to prevent to lead to dangerous accident's emergence because of rocking.

In summary, the present application includes at least one of the following beneficial technical effects:

when the steel wire rope drives the hanging basket body to lift, the splicing mechanism can drive the two splicing rails to splice in turn along the vertical direction, the splicing rails can be fixed on the outer elevation of a building through the arrangement of the fixing piece, and the splicing rails can be adsorbed on the rails and move along the length direction of the rails through the arrangement rollers of the adsorption piece, so that the hanging basket body is prevented from shaking in the lifting process, the stability of the hanging basket body in lifting is improved, and dangerous accidents are prevented; the two splicing rails are spliced alternately, so that the structure is simple, the splicing movement at infinite distance can be realized, and the lifting range of the hanging basket body is increased;

the first telescopic mechanism can drive the first telescopic rod to stretch out and draw back, thereby make the first telescopic rod drive the piece of snatching be close to or keep away from the outer facade of building, make the piece of snatching drive vacuum chuck and the outer facade of building adsorb or break away from the adsorb, rotating mechanism can drive the pivoted panel and be located first telescopic rod and rotate, thereby make the pivoted panel drive the piece of snatching on the second telescopic rod adjust its position, be convenient for adjust the position of putting of joint rail, the second telescopic mechanism can drive the second telescopic rod and stretch out and draw back, thereby make the second telescopic rod drive the piece of snatching be close to or keep away from the joint rail, thereby further adjust the position of joint rail, adjusting mechanism can drive the pin joint rotation that the piece is located the second telescopic rod, thereby make the piece of snatching drive the joint rail rotate to the same straight line state with last joint rail, thereby further adjust the position of joint rail, further be convenient for splice the joint rail.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

fig. 2 is a schematic structural view for showing a stabilizing mechanism according to an embodiment of the present application.

Reference numerals illustrate: 1. a basket body; 11. ear plates; 12. a track; 121. a roller; 122. splicing the rails; 123. a vacuum chuck; 124. a magnet ring; 125. a plug-in groove; 126. a plug strip; 13. a first telescopic rod; 131. a rotating plate; 132. a second telescopic rod; 133. an electromagnet; 134. a connecting plate; 14. a first fixing rod; 141. a first moving lever; 142. a first telescopic electric cylinder; 143. a first driving plate; 15. an annular rack; 151. rotating the gear; 152. a rotating motor; 16. a second fixing rod; 161. a second moving lever; 162. a second telescopic electric cylinder; 163. a second driving plate; 17. a hinge shaft; 171. a worm wheel; 172. a worm; 173. and (5) adjusting the motor.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-2.

The embodiment of the application discloses a construction work platform is built in room. Referring to fig. 1, a construction work platform is built in a house, including a basket body 1, ear plates 11 for fixing a wire rope are provided at both sides of the basket body 1 and at an opening edge of the basket body 1.

Referring to fig. 1 and 2, the basket body 1 is further provided with a stabilizing mechanism for preventing the basket body 1 from shaking when the basket body 1 is lifted, the stabilizing mechanism comprises a track 12 and a roller 121 slidingly connected to the track 12, the track 12 comprises two spliced rails 122 formed by mutually splicing, the two spliced rails 122 are positioned on the same straight line, and the roller 121 is rotatably arranged on the outer side wall of the basket body 1; in other embodiments, the rails 12 may be arranged in multiple groups, and the stability of the basket body 1 during lifting may be further improved by adopting multiple groups of rails 12.

Referring to fig. 1 and 2, the splicing rails 122 are made of metal materials and are used for being adsorbed by the electromagnets 133, in this embodiment, the splicing rails 122 are made of steel, fixing pieces for fixing the splicing rails 122 on the building facade are arranged on the two splicing rails 122, the fixing pieces comprise vacuum chucks 123 fixedly arranged on the splicing rails 122, the vacuum chucks 123 are used for being adsorbed on the building facade to drive the splicing rails 122 to be fixed on the building facade, and two vacuum chucks 123 are arranged on each splicing rail 122; the roller 121 is provided with an adsorption piece for adsorbing the roller 121 on the rail 12 when the roller 121 moves on the rail 12, and the adsorption piece comprises a magnet ring 124 sleeved on and fixedly connected with the roller 121.

In order to improve the splicing effect between two spliced rails 122, referring to fig. 1 and 2, one end of each spliced rail 122 is provided with a splicing groove 125, and the other end of each spliced rail 122 is provided with a splicing strip 126 for being spliced into the splicing groove 125 of the other spliced rail 122; in this embodiment, the cross section of the plugging slot 125 is in a "U" shape, the plugging strip 126 is matched with the "U" shaped plugging slot 125, and two ends of the "U" shaped plugging slot 125 perpendicular to the length direction of the splicing rail 122 are arranged through the splicing rail 122.

Referring to fig. 1 and 2, the stabilizing mechanism further includes a splicing mechanism for driving one of the splicing rails 122 to splice to the other end of the other splicing rail 122; the splicing mechanism comprises a first telescopic rod 13, a rotating plate 131 rotatably arranged on the first telescopic rod 13, a second telescopic rod 132 fixedly arranged on the rotating plate 131 and a grabbing piece hinged on the end part of the second telescopic rod 132 far away from the rotating plate 131, wherein the grabbing piece is used for grabbing any splicing rail 122; the first telescopic link 13 is fixed to be set up on the lateral wall of hanging flower basket body 1 and perpendicular to hanging flower basket body 1 towards the lateral wall of building facade, and rotor plate 131 is on a parallel with hanging flower basket body 1 towards the lateral wall of building facade, and the length direction of second telescopic link 132 sets up along the length direction of perpendicular to first telescopic link 13, snatchs the piece and includes connecting plate 134 and the fixed electro-magnet 133 that sets up on connecting plate 134, and connecting plate 134 articulates and sets up on second telescopic link 132.

Referring to fig. 1 and 2, a first telescopic mechanism for driving the first telescopic rod 13 to extend and retract so as to drive the grabbing piece to be close to or far away from the hanging basket body 1 is arranged on the hanging basket body 1, the first telescopic rod 13 comprises a first fixed rod 14 and a first moving rod 141 which is inserted into and slidingly connected with the first fixed rod 14, the first fixed rod 14 is fixedly arranged on the hanging basket body 1, the rotating plate 131 is rotatably arranged on the first moving rod 141, the first telescopic mechanism comprises a first telescopic electric cylinder 142 and a first driving plate 143, the first telescopic electric cylinder 142 is fixedly arranged on the first fixed rod 14, the first driving plate 143 is fixedly arranged on the outer wall of the first moving rod 141, and the first driving plate 143 is fixedly arranged on the driving end of the first telescopic electric cylinder 142; the first driving plate 143 is driven to move through the first telescopic electric cylinder 142, so that the first driving plate 143 drives the first moving rod 141 to move in the first fixed rod 14, and the length of the first telescopic rod 13 is adjusted, so that the second telescopic rod 132 drives the splicing rail 122 on the electromagnet 133 to be close to or far away from the building outer elevation.

Referring to fig. 1 and 2, a rotation mechanism for driving the rotation plate 131 to rotate on the first telescopic rod 13 is provided on the rotation plate 131, the rotation mechanism includes an annular rack 15, a rotation gear 151 and a rotation motor 152, the annular rack 15 is sleeved and fixedly connected to the first movement rod 141, the rotation gear 151 is fixedly provided on a driving end of the rotation motor 152 and engaged with the annular gear, and the rotation motor 152 is fixedly provided on the rotation plate 131; the rotating motor 152 drives the rotating gear 151 to rotate, so that the rotating gear 151 is located on the annular rack 15 to move, and the rotating gear 151 and the rotating motor 152 can drive the rotating plate 131 to rotate on the first moving rod 141, so that the rotating plate 131 drives the splicing rail 122 on the electromagnet 133 to adjust the position of the splicing rail 122.

Referring to fig. 1 and 2, a second telescopic mechanism for driving the second telescopic rod 132 to extend and retract is provided on the rotating plate 131, the second telescopic rod 132 includes a second fixed rod 16 and a second moving rod 161 inserted and slidingly connected in the second fixed rod 16, the second fixed rod 16 is fixedly provided on the rotating plate 131, the gripping member is hinged on the second moving rod 161, the second telescopic mechanism includes a second telescopic cylinder 162 and a second driving plate 163, the second telescopic cylinder 162 is fixedly provided on the second fixed rod 16, the second driving plate 163 is fixedly provided on the outer wall of the second moving rod 161, and the second driving plate 163 is fixedly provided on the driving end of the second telescopic cylinder 162; the second driving plate 163 is driven to move by the second telescopic cylinder 162, so that the second driving plate 163 drives the second moving rod 161 to move in the second fixed rod 16, and the second moving rod 161 can drive the splicing rail 122 on the electromagnet 133 to be close to or far from the last splicing rail 122, thereby further adjusting the position of the splicing rail 122.

Referring to fig. 1 and 2, an adjusting mechanism for driving the gripping member to rotate at a hinge point is arranged on the second telescopic rod 132, a hinge shaft 17 penetrating through and rotatably connected to the second moving rod 161 is fixedly arranged on the connecting plate 134, the connecting plate 134 is hinged to the second moving rod 161 through the hinge shaft 17, the adjusting mechanism comprises a worm wheel 171, a worm 172 and an adjusting motor 173, the worm wheel 171 is sleeved and fixedly connected to the hinge shaft 17, the worm 172 is fixedly arranged at a driving end of the adjusting motor 173 and meshed with the worm wheel 171, and the adjusting motor 173 is fixedly arranged on the second moving rod 161; the worm 172 is driven to rotate by the adjusting motor 173, so that the worm wheel 171 drives the hinge shaft 17 to rotate, and the connecting plate 134 drives the electromagnet 133 to rotate in the vertical direction, thereby adjusting the vertical state of the splicing rail 122.

The construction method of the house construction work platform comprises the following steps:

when the wire rope drives the hanging basket body 1 to descend, the hanging basket body 1 can drive the roller 121 to be located on one splicing rail 122 and move to the next splicing rail 122, the first telescopic electric cylinder 142 drives the first moving rod 141 to be located in the first fixed rod 14 and move, so that the splicing rail 122 is far away from the outer facade of the building, the splicing strip 126 can be located on the splicing groove 125 and moves out, the vacuum chuck 123 of the splicing rail 122 is separated from the outer facade of the building, the rotating gear 151 is driven to be located on the annular rack 15 through the rotating motor 152 and move, the rotating plate 131 is located on the first moving rod 141 and moves on the second fixed rod 16, the second telescopic electric cylinder 162 drives the second moving rod 161 to move on the second fixed rod 16, the length of the second telescopic electric rod 132 is adjusted, the worm 172 is driven by the adjusting motor 173 and drives the hinge shaft 17 to rotate, the position of the electromagnet 133 on the adjusting connecting plate 134 is enabled to move to the upper electromagnet 133, the vacuum chuck 123 is enabled to be located on the splicing rail 122, the lower side of the other splicing rail 122 is enabled to be separated from the outer facade of the building, the rotating plate 122 is driven to move to be located on the first telescopic electric cylinder 125 through the first telescopic electric cylinder 142, and simultaneously, the two lifting cylinders 122 are driven to move on the first telescopic electric cylinder 125 and move to be located on the mutually and the lifting basket body 125 is enabled to be located on the mutually stable, and the lifting groove 122 is kept in the lifting and can be located on the lifting and move between the lifting and stable mutually, and the lifting basket body is kept on the lifting drum 122.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. A construction work platform is built in room, its characterized in that: the lifting basket comprises a lifting basket body (1), wherein ear plates (11) used for fixing steel wire ropes are arranged on two sides of the lifting basket body (1) and located at the opening edges of the lifting basket body (1), a stabilizing mechanism used for preventing the lifting basket body (1) from shaking when the lifting basket body (1) lifts is further arranged on the lifting basket body (1), the stabilizing mechanism comprises a track (12) and rollers (121) which are connected to the track (12) in a sliding mode, the track (12) comprises two spliced rails (122) formed by splicing mutually, fixing pieces used for fixing the spliced rails (122) on building outer vertical faces are arranged on the spliced rails (122), the rollers (121) are rotatably arranged on the outer side walls of the lifting basket body (1), suction fittings used for sucking the rollers (121) on the track (12) when the rollers (121) are located on the track (12) are arranged on the rollers, and the stabilizing mechanism further comprises a splicing mechanism used for driving one spliced rail (122) to be spliced to the other end of the other spliced rail (122); the fixing piece comprises a vacuum chuck (123) fixedly arranged on the splicing rail (122), and the vacuum chuck (123) is used for being adsorbed on the building outer vertical surface so as to drive the splicing rail (122) to be fixed on the building outer vertical surface; the splicing mechanism comprises a first telescopic rod (13), a rotating plate (131) arranged on the first telescopic rod (13) in a rotating mode, a second telescopic rod (132) fixedly arranged on the rotating plate (131) and a grabbing piece hinged to the end portion, far away from the rotating plate (131), of the second telescopic rod (132), the first telescopic rod (13) is fixedly arranged on the outer side wall of the hanging basket body (1), the hanging basket body (1) is provided with a first telescopic mechanism used for driving the first telescopic rod (13) to stretch out and draw back so as to drive the grabbing piece to be close to or far away from the hanging basket body (1), the rotating plate (131) is provided with a rotating mechanism used for driving the rotating plate (131) to be located on the first telescopic rod (13), the rotating plate (131) is provided with a second telescopic mechanism used for driving the second telescopic rod (132) to stretch out and draw back, and the grabbing piece is located at a hinging point to rotate, and the grabbing piece is used for grabbing any splicing rail (122).

2. A building construction work platform according to claim 1, wherein: the grabbing piece comprises a connecting plate (134) and an electromagnet (133) fixedly arranged on the connecting plate (134), the connecting plate (134) is hinged to a second telescopic rod (132), the splicing rail (122) is made of a metal material and is used for being adsorbed by the electromagnet (133), and the adsorbing piece comprises a magnet ring (124) sleeved on and fixedly connected with the roller (121).

3. A building construction work platform according to claim 2, wherein: the first telescopic rod (13) comprises a first fixed rod (14) and a first movable rod (141) which is inserted into the first fixed rod (14) in a sliding manner, the first fixed rod (14) is fixedly arranged on the hanging basket body (1), the rotating plate (131) is rotatably arranged on the first movable rod (141), the first telescopic mechanism comprises a first telescopic cylinder (142) and a first driving plate (143), the first telescopic cylinder (142) is fixedly arranged on the first fixed rod (14), the first driving plate (143) is fixedly arranged on the outer wall of the first movable rod (141), and the first driving plate (143) is fixedly arranged on the driving end of the first telescopic cylinder (142).

4. A building construction work platform according to claim 3, wherein: the rotating mechanism comprises an annular rack (15), a rotating gear (151) and a rotating motor (152), wherein the annular rack (15) is sleeved and fixedly connected to the first moving rod (141), the rotating gear (151) is fixedly arranged at the driving end of the rotating motor (152) and meshed with the annular gear, and the rotating motor (152) is fixedly arranged on the rotating plate (131).

5. The building construction work platform according to claim 4, wherein: the second telescopic rod (132) comprises a second fixed rod (16) and a second movable rod (161) which is inserted into the second fixed rod (16) in a sliding manner, the second fixed rod (16) is fixedly arranged on the rotating plate (131), the grabbing piece is hinged to the second movable rod (161), the second telescopic mechanism comprises a second telescopic cylinder (162) and a second driving plate (163), the second telescopic cylinder (162) is fixedly arranged on the second fixed rod (16), the second driving plate (163) is fixedly arranged on the outer wall of the second movable rod (161), and the second driving plate (163) is fixedly arranged on the driving end of the second telescopic cylinder (162).

6. The building construction work platform according to claim 5, wherein: the utility model discloses a motor vehicle, including connecting plate (134), connecting plate (134) are fixed to be provided with on the connecting plate and rotate articulated shaft (17) of connecting on second movable rod (161), connecting plate (134) are articulated to be set up on second movable rod (161) through articulated shaft (17), adjustment mechanism includes worm wheel (171), worm (172) and accommodate motor (173), worm wheel (171) cover is established and fixed connection is on articulated shaft (17), worm (172) are fixed to be set up on the driving end of accommodate motor (173) and with worm wheel (171) meshing, accommodate motor (173) are fixed to be set up on second movable rod (161).

7. The building construction work platform according to claim 6, wherein: one end of each spliced track (122) is provided with a splicing groove (125), and the other end of each spliced track is provided with a splicing strip (126) which is used for being spliced into the splicing groove (125) of the other spliced track (122).

8. A construction method of a house construction operation platform is characterized in that: a building construction work platform comprising the construction work platform of claim 7, comprising the steps of:

when the steel wire rope drives the hanging basket body (1) to descend, the hanging basket body (1) can drive the roller (121) to be located on one splicing rail (122) and move to the next splicing rail (122), the first telescopic electric cylinder (142) drives the first moving rod (141) to be located in the first fixed rod (14) and move, the splicing rail (122) is far away from the outer elevation of a building, at the moment, the splicing strip (126) can be located in the splicing groove (125) and move out, the vacuum chuck (123) of the splicing rail (122) is separated from the outer elevation of the building, at the moment, the rotating motor (152) drives the rotating gear (151) to be located on the annular rack (15) and move, the rotating plate (131) is located on the first moving rod (141) and drives the second moving rod (161) to be located in the second fixed rod (16) through the second telescopic electric cylinder (162), the length of the second telescopic electric cylinder (132) is adjusted, the worm (172) is driven to rotate through the adjusting motor (173), the worm (171) drives the worm wheel (17) to rotate, the worm wheel (122) to drive the hinge shaft (133) to rotate, the electromagnet (133) to move to the upper electromagnet (133) to the splicing rail (122) and move to the upper electromagnet (133) to the splicing rail (122) to be located on the splicing rail (133), the first telescopic electric cylinder (142) is used for driving the first moving rod (141) to move in the first fixed rod (14), so that the inserting strip (126) is inserted into the inserting groove (125), the vacuum chuck (123) on the splicing rail (122) is driven to be adsorbed onto the outer vertical surface of a building, and the lifting of the hanging basket body (1) can be achieved by repeating the steps, and the rollers (121) can be driven to move on the two mutually-alternating splicing rails (122) all the time while the hanging basket body (1) is lifted, so that the stability of the hanging basket body (1) during lifting is maintained.