Disclosure of Invention
The invention aims to provide a high-rise steel structure construction platform to solve the problem that a hoisting material box needs to be manually disassembled.
In order to achieve the purpose, the invention provides the following technical scheme:
a high-rise steel structure construction platform comprises a platform bearing frame suspended on the side part of a high-rise wall surface, a protective enclosure frame and at least one feeding mechanism for lifting a material box, wherein the feeding mechanism comprises a bearing part and a lifting assembly, the bearing part is used for placing the material box, the lifting component is arranged on the platform bearing frame and used for suspending the bearing frame and lifting the bearing frame to the side part of the protective enclosing frame, and also comprises a storage part, a guide enclosing frame and a stirring part, the guide enclosing frame is arranged at the side of the horizontal part of the platform bearing frame, the bearing frame passes through the guide enclosing frame when lifted to the side part of the protective enclosing frame by the lifting assembly, the storage part and the poking part are arranged on the side part of the protective enclosure frame and are oppositely arranged, the middle part of the poking part is rotationally connected with the side part of the protective enclosure frame through a connecting piece, the poking part is used for lifting the bearing part to the side part of the protective enclosure frame, the bearing piece moves upwards to provide power to rotate around the connecting piece, and one end of the bearing piece pushes the bin on the bearing piece into the storage component.
On the basis of the technical scheme, the invention also provides the following optional technical scheme:
in one alternative: the poking piece comprises a bearing part and a pushing part, the bearing part and the pushing part are connected into a whole near the ends and are rotatably connected with the side part of the protective enclosing frame at the connection part through a connecting piece, the bearing part is over against the guide enclosing frame, and the pushing part is positioned on the side part of the guide enclosing frame; the bearing part is used for pushing the bearing part to rotate around the connecting piece from the top of the bearing part when the bearing part is lifted to the side part of the protective enclosure frame;
the induction component is arranged on the bearing part, is electrically connected with the lifting component and is used for controlling the motion state of the lifting component by touching the lifting component to induce pressure when the bearing part moves to a certain position.
In one alternative: the poking piece further comprises an elastic reset piece, and the elastic reset piece is arranged between the pushing portion and the side portion of the platform bearing frame and connected with the pushing portion and the side portion of the platform bearing frame.
In one alternative: the storage component comprises a box body, a supporting plate and at least one rotating roller, the box body is arranged towards an opening on one side of the stirring piece, the supporting plate is fixed inside the box body and used for bearing a material box, and the rotating roller is arranged on the end face of the supporting plate.
In one alternative: the rotating roller positioned at the opening of the box body is driven to rotate by a motor, a pressure sensing piece is arranged at the contact part of the stirring piece and the bearing piece, and the pressure sensing piece is electrically connected with the motor driving the rotating roller and controls the motion state of the motor.
In one alternative: this construction platform still includes stable subassembly, stable subassembly sets up on the platform bears the frame and is used for bearing the frame lateral part with the platform and adsorb on the wall after the platform bears the frame to hang.
In one alternative: the platform bears and still is provided with at least one direction subassembly on the frame, direction subassembly includes two roll-in clamping members, and two roll-in clamping members are located the direction respectively and enclose the both sides of frame, and roll-in clamping member one end bears the frame lateral part elasticity rotation with the platform and is connected, and two roll-in clamping members are close to each other and roll the piece that suspends in midair that centre gripping promoted the subassembly.
Compared with the prior art, the invention has the following beneficial effects:
this construction platform suspends bearing spare and will vertical promotion in midair through hoisting assembly, bearing spare passes the direction and encloses the frame and arrange the protection in and enclose the frame avris, along with the shifting up of bearing spare, it supports at stirring a piece one end to hold carrier top, and then stir the piece and can rotate around the connecting piece, the other end of stirring the piece is to depositing parts department rotation and promote the workbin on the bearing spare to the storage in the depositing parts, when stirring the piece and promoting the workbin, it encloses the frame not to pass the direction all the time to hold carrier bottom, can avoid influencing the workbin and break away from bearing the piece because of the vibration that holds carrier like this, and then can dismantle the workbin from holding carrier automatically, need constructor to go to get the workbin and take or dismantle for driven high-rise material loading, this scheme increases its safety and convenience. The automatic feeding device is simple in structure, convenient to automatically feed the material box provided with the steel structure construction tool, capable of avoiding manual operation feeding, convenient and fast, capable of improving safety and strong in practicability.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments; in the drawings or the description, the same reference numerals are used for similar or identical parts, and the shape, thickness, or height of each part may be enlarged or reduced in practical use. The examples are given only for illustrating the present invention and are not intended to limit the scope of the present invention. Any obvious modifications or variations can be made without departing from the spirit or scope of the present invention.
In one embodiment, as shown in fig. 1, a high-rise steel structure construction platform, a platform carrier 1 suspended on the side of a high-rise wall surface, a protective enclosure frame 2, and at least one feeding mechanism for lifting a bin, wherein the feeding mechanism comprises a carrier 3 and a lifting assembly 4, the carrier 3 is used for placing the bin, the lifting assembly 4 is arranged on the platform carrier 1 and used for suspending the carrier 3 and lifting the carrier 3 to the side of the protective enclosure frame 2, the construction platform further comprises a storage part 6, a guide enclosure frame 13 and a stirring member 5, the guide enclosure frame 13 is arranged at the side of the horizontal part of the platform carrier 1, the carrier 3 passes through the guide enclosure frame 13 when lifted to the side of the protective enclosure frame 2 by the lifting assembly 4, the storage part 6 and the stirring member 5 are both arranged at the side of the protective enclosure frame 2 and are opposite to each other, the middle part of the stirring member 5 is rotatably connected with the side of the protective enclosure frame 2 through a connecting piece, the stirring piece 5 is used for providing power to rotate around the connecting piece by the upward movement of the bearing piece 3 and pushing the material box on the bearing piece 3 into the storage part 6 by one end when the bearing piece 3 is lifted to the side part of the protective enclosure frame 2;
in the implementation process of the embodiment, a constructor stands at the inner side of the protective enclosure frame 2, when the bearing member 3 is at a low position, a bin provided with a steel structure construction tool is placed on the bearing member 3, the bearing member 3 is suspended by the lifting assembly 4 and is lifted vertically, the bearing member 3 penetrates through the guide enclosure frame 13 and is placed at the side of the protective enclosure frame 2, along with the upward movement of the bearing member 3, the top of the bearing member 3 abuts against one end of the stirring member 5, the stirring member 5 rotates around the connecting member, the other end of the stirring member 5 rotates towards the storage part 6 to push the bin on the bearing member 3 to the storage part 6 for storage, when the stirring member 5 pushes the bin, the bottom of the bearing member 3 does not penetrate through the guide enclosure frame 13 all the time, so that the situation that the bin is separated from the bearing member 3 due to the vibration of the bearing member 3 can be avoided, the bin can be automatically disassembled from the bearing member 3, and the constructor need to take or disassemble the bin for the high-rise material loading of the transmission, the scheme increases the safety and convenience, and as an embodiment, the left, right, upper and lower positions of all parts shown in the attached drawings are only one arrangement mode, and the specific positions are set according to specific requirements;
wherein, the lifting assembly 4 can be a telescopic rod suspension lifting with an air cylinder or a hydraulic cylinder suspension lifting, in one embodiment, as shown in fig. 1, the lifting assembly 4 includes a support 41, a winding roller 42 and a wire lifting rope 43, the support 41 is fixed on the vertical portion of the platform carrier 1, the winding roller 42 is mounted on the support 41 and is driven by a motor to rotate, the wire lifting rope 43 surrounds the winding roller 42, and one end of the wire lifting rope is connected to the carrier 3; the winding roller 42 is driven by a motor to rotate, and the steel wire lifting rope 43 is wound and unwound by the winding roller 42 to realize the lifting or descending of the bearing piece 3; the loading of the bearing part 3 can be realized by controlling the motor, so that the control is convenient;
the toggle member 5 may be a crank rod, in one embodiment, as shown in fig. 1 and 2, the toggle member 5 includes a receiving portion 51 and a pushing portion 54, the receiving portion 51 and the pushing portion 54 are connected to form a whole near ends and are rotatably connected to the side portion of the protective enclosure frame 2 at a connection position through a connecting member, the receiving portion 51 faces the guide enclosure frame 13, and the pushing portion 54 is located at the side portion of the guide enclosure frame 13; the bearing part 51 is used for pushing the carrier 3 to rotate around the connecting piece from the top when the carrier 3 is lifted to the side of the protective enclosure frame 2; the lifting device further comprises a sensing component, wherein the sensing component is arranged on the bearing part 51 and electrically connected with the lifting component, and is used for sensing the position of the lifting component when the bearing part 51 moves to a certain position so as to control the motion state of the lifting component 4. The lifting assembly 4 lifts the bearing part 3, and the sensing assembly senses the position of the lifting assembly 4, so that the lifting assembly 4 is controlled to stop lifting the bearing part 3, and the lifting height of the bearing part 3 can be automatically controlled;
wherein the sensing member may be a position sensor, and in one embodiment, as shown in fig. 1 and 2, the sensing member includes a through hole 56, a side pressing roller 57, and a pressure sensing sheet, the through hole 56 is opened on the receiving part 51 and the lifting member 4 passes through the through hole 56, the side pressing roller 57 is disposed at a side of the through hole 56, and the pressure sensing sheet is disposed on an outer wall of the side pressing roller 57 and senses a pressure of the collision; the lifting assembly 4 lifts the bearing piece 3, when the bearing piece 3 moves upwards and the stirring piece 5 is pushed to rotate around the connecting piece, the connecting part of the lifting assembly 4 and the bearing piece 3 is always positioned in the through hole 56, the side pressure roller 57 rotates upwards along with the stirring piece 5, when the end part of the pushing part 54 pushes the bin away from the bearing piece 3, the outer wall of the side pressure roller 57 is contacted with the side part of the lifting assembly 4, and the pressure sheet is induced to sense a pressure signal to control the lifting assembly 4 to stop driving the bearing piece 3 to move upwards; thereby facilitating control of the lifting state of the carrier 3;
in one embodiment, as shown in fig. 1, the toggle member 5 further includes an elastic restoring member 53, and the elastic restoring member 53 is disposed between and connected to the pushing portion 54 and the side portion of the platform carrier 1; after the stirring piece 5 pushes the material box to be separated from the bearing piece 3, the stirring piece 5 is reset under the action of the resilience force of the elastic resetting piece 53 so as to push the next material box; the elastic restoring member 53 may be a spring or a flexible airbag member or other members having a restoring function;
the bearing member 3 may be a supporting plate, and in one embodiment, as shown in fig. 4, a preferable scheme is provided, where the bearing member 3 includes a bearing material frame 31 and a bearing damping guide rail 32, two sides of the bearing material frame 31 are both open, and the bearing damping guide rail 32 is disposed on the bearing material frame 31 and is used for damping a sliding bearing box; the bin damping is arranged on the bearing damping guide rail 32 in a sliding way, and when the bin is suspended and lifted, the stability of the bin is improved, and the bin is convenient to separate under the pushing of the stirring piece 5;
the storage unit 6 may be a frame with one side open, and in one embodiment, as shown in fig. 1 and 3, a preferable scheme is provided, the storage unit 6 includes a box 61, a supporting plate 62 and at least one rotating roller 63, the box 61 is arranged towards one side open of the poking member 5, the supporting plate 62 is fixed inside the box 61 and is used for bearing the bin, and the rotating roller 63 is arranged on an end surface of the supporting plate 62; the material box is pushed by the stirring piece 5 to move to the supporting plate 62, the rotating roller 63 is in contact with the bottom of the material box and rolls and rubs with the bottom of the material box to reduce friction force, the pushing force of the stirring piece 5 is reduced, and the feeding convenience is improved;
in one embodiment, as shown in fig. 3, the rotating roller located at the opening of the box 61 is connected to a driving member for driving the rotating roller 63 to rotate, wherein the driving member is not shown in the figure and may be a motor or a driving motor, a pressure sensing piece 8 is disposed at a contact position of the toggle member 5 and the bearing member 3, and the pressure sensing piece 8 is electrically connected to the motor for driving the rotating roller 63 and controls a motion state thereof; when the bearing piece 3 moves upwards and contacts with the stirring piece 5, the pressure sensing piece 8 receives pressure to control the motor driving the rotating roller 63 to start, so that the rotating roller 63 close to the opening of the box body 61 rotates, when the bottom wall of the work bin contacts with the outer wall of the rotating roller 63, the rotation of the rotating roller 63 provides driving force for the work bin to enter the storage part 6, and the convenience for the work bin to enter the storage part 6 is further improved;
in one embodiment, as shown in fig. 1, the construction platform further comprises a stabilizing assembly, which is disposed on the platform carrier 1 and is used for attaching the side of the platform carrier 1 to the wall surface after the platform carrier 1 is suspended; the platform bearing frame 1 is adsorbed on the wall surface, so that the vibration of the suspension due to external force is avoided, and the stability and the safety of high-rise construction are improved; wherein the stable adsorption component can be a vacuum chuck or fixed by a bolt; according to a preferable scheme, the stabilizing assembly comprises a stabilizing support 9 and at least one suction cup body 10, the stabilizing support 9 is fixed on the platform bearing frame 1 and is of a triangular structure, the suction cup body 10 is arranged on one side, facing the wall, of the stabilizing support 9, and an air pump used for adjusting air pressure in the suction cup body 10 is further arranged on the stabilizing support 9; when the stabilizing support 9 is close to the wall, the surface of the suction cup body 10 is in contact with the wall, the air pressure between the suction cup body 10 and the wall is adjusted through the air pump, and pressure difference is generated between the air pressure and the atmospheric pressure, so that the platform bearing frame 1 can be quickly adsorbed on the wall surface;
in one embodiment, as shown in fig. 1, at least one guiding assembly is further disposed on the platform carriage 1, the guiding assembly includes two rolled clamping members 12, the two rolled clamping members 12 are respectively located at two sides of the guiding surrounding frame 13, one end of the rolled clamping member 12 is elastically and rotatably connected to the side of the platform carriage 1, and the two rolled clamping members 12 are close to each other and roll and clamp the suspension of the lifting assembly 4; the two rolling clamping members 12 clamp the suspension of the lifting assembly 4 under the elastic action, so that the suspension of the lifting assembly 4 is prevented from vibrating when the bearing member 3 moves upwards, and the bottom of the two rolling clamping members 12 can be spread when the bearing member 3 moves upwards between the two rolling clamping members 12, so that the bearing member 3 is prevented from moving upwards;
in one embodiment, as shown in fig. 1, the rolling clamping member 12 includes a rotating seat 121, a clamping rod 122 and a clamping roller 123, the rotating seat 121 is fixed on the platform carriage 1, one end of the clamping rod 122 is rotatably connected with the rotating seat 121 through a torsion spring, the clamping roller 123 is rotatably disposed at one end of the clamping rod 122 away from the rotating seat 121, and under the elastic action of the torsion spring, the two clamping rollers 123 roll and clamp the suspension of the lifting assembly 4 under the rotation action of the clamping rod 122, thereby performing a guiding action.
In the embodiment, specifically provide a high-rise steel construction platform, it utilizes and holds carrier 3 and upwards moves under the drive of lifting unit 4, and when reaching the protection and enclosing 2 lateral parts, the drive power that utilizes it to shift up stirs the upset of piece 5, the one end of stirring piece 5 is deposited to storage unit 6 with the workbin propelling movement that holds on carrier 3 under the roll-over action, and then can dismantle the workbin from holding carrier 3 automatically, need constructor to get the workbin or dismantle for driven high-rise material loading, this scheme increases its safety and convenience.
The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present disclosure, and shall cover the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.