CN112982928A - Scaffold for construction with lift removal function - Google Patents

Abstract

The invention relates to a scaffold for building construction, in particular to a scaffold for building construction with a lifting and moving function. The invention aims to provide a scaffold for building construction, which has high working efficiency and can ensure the working safety of manual sitting and has a lifting and moving function. A scaffold with lifting and moving functions for building construction comprises a supporting mechanism and a stabilizing mechanism, wherein the supporting mechanism comprises a cross frame plate and the like; erect frame plate and lifter plate and set up to two respectively, two one end bolted connections that erect the frame plate are at the both ends downside of horizontal frame plate, and two lifter plates are sliding connection respectively in two perpendicular frame plates, and stabilizing mean sets up to two, and two stabilizing mean set up respectively in the one end of two lifter plates. The invention achieves the effect by: stabilizing mean, rotating seat mechanism have realized promoting scaffold frame and rotatable seat mechanism at will and have realized the working direction that needs, have guaranteed artificial work safety.

Description

Scaffold for construction with lift removal function

Technical Field

The invention relates to a scaffold for building construction, in particular to a scaffold for building construction with a lifting and moving function.

Background

Scaffolding refers to various supports erected on a construction site for workers to handle and solve vertical and horizontal transportation. The general term of the building field refers to the place which is used on the building site and can not be directly constructed in the outer wall, interior decoration or higher floor height, and is mainly used for the up-and-down dry work of constructors, the enclosure of a peripheral safety net, the high-altitude installation of components and the like, namely the building frame.

The types of the scaffold are various, the existing scaffold used for interior decoration of buildings is mostly built by steel pipes or steel frameworks, when the indoor ceiling of a building is decorated and constructed, a scaffold is firstly built and assembled below the ceiling to be worked, after the scaffold is manually climbed, whether the working height of the scaffold is proper or not is tried, the scaffold is required to be manually climbed down to adjust after the height of the scaffold is not proper, the plasterboards are sequentially transmitted to the manual work on the scaffold by the manual work below after the height of the scaffold is adjusted, the manual work is required to climb down from the scaffold after the working area which can be covered by the scaffold is finished, when the scaffold is moved to the next required working area and the scaffold is climbed, the working mode has extremely low efficiency, and the worker should stand on the scaffold to work, and the worker is easy to fall off the scaffold due to negligence of work to cause safety accidents.

Disclosure of Invention

The invention aims to provide a scaffold for building construction, which has high working efficiency and can ensure the working safety by manually sitting down and has a lifting and moving function, in order to overcome the defects that the height of the scaffold is inconvenient to manually adjust, the working mode that the lower workers transfer plasterboards to the upper surface of the scaffold one by one is extremely low in efficiency, and the workers are easy to fall from the scaffold to cause safety accidents due to working negligence.

The technical scheme is as follows: the utility model provides a scaffold frame for construction with lift removal function, including supporting mechanism and stabilizing mean, supporting mechanism is including horizontal frame plate, erect the frame plate, lifter plate and cat ladder, erect frame plate and lifter plate and set up to two respectively, two one end bolted connections that erect the frame plate are at the both ends downside of horizontal frame plate, two lifter plates are sliding connection respectively in two perpendicular frame plates, the upper portion fixed connection of cat ladder is in the one end of horizontal frame plate, the lower extreme fixed connection of cat ladder is in lower extreme one side of erecting the frame plate, stabilizing mean sets up to two, two stabilizing mean set up respectively in the one end of two lifter plates.

As the improvement of above-mentioned scheme, stabilizing mean is including first outrigger, first truckle, second outrigger and second truckle, stabilizing mean sets up to two, two stabilizing mean set up respectively in the one end of two lifter plates, the one end fixed connection of first outrigger is in the one end rear side of lifter plate, the upper portion of first truckle is rotated and is connected in the other end of first outrigger, the one end fixed connection of second outrigger is in the one end front side of lifter plate, the other end of second outrigger is connected in the rotation of second truckle upper portion.

As the improvement of the scheme, the rotating seat mechanisms comprise connecting shafts, seats and controllers, the two rotating seat mechanisms are arranged, the two rotating seat mechanisms are respectively arranged at two ends of one side of the transverse frame plate, one end of each connecting shaft is rotatably connected to the transverse frame plate, the lower side of each seat is fixedly connected to the other end of each connecting shaft, and the controllers are fixedly connected to one sides of the seats.

As an improvement of the above scheme, the lifting mechanism comprises a first motor, a first helical gear, a fixed plate, a first rotating shaft, a second helical gear, a first straight gear and a first rack, the lifting mechanism is provided with two lifting mechanisms which are respectively arranged on two vertical frame plates and two lifting plates, the first motor is arranged on the inner side of one end of each vertical frame plate, the first helical gear is fixedly connected to a power output shaft of the first motor, one end of the fixed plate is fixedly connected to the front side of the lower end of each vertical frame plate, the first rotating shaft penetrates through the fixed plate to be connected with the fixed plate in a rotating mode, the second helical gear is fixedly connected to one end of the first rotating shaft, the second helical gear is meshed with the first helical gear, the first straight gear is fixedly connected to the other end of the first rotating shaft, one side of the first rack is fixedly connected to the front side.

The improvement of above-mentioned scheme, actuating mechanism is including the support frame, the axis of rotation, the second pivot, the drive wheel, the third helical gear, second motor and fourth helical gear, actuating mechanism sets up to two, two actuating mechanism set up respectively in two lifter plates below, the support frame sets up in the lifter plate below, the one end of axis of rotation is rotated and is connected in the one end of lifter plate, the other end fixed connection of axis of rotation is in the upper end of support frame, the second pivot is worn to penetrate in the lower part of support frame rather than being rotated and is connected, drive wheel fixed connection is in the second pivot, third helical gear fixed connection is in the inboard of second pivot, second motor fixed connection is in the inboard of support frame, fourth helical gear fixed connection is in the power output shaft of second motor, fourth helical gear and third helical gear meshing.

As the improvement of the above scheme, the steering mechanism comprises a third motor, a second straight gear and a third straight gear, the number of the steering mechanisms is two, the two steering mechanisms are respectively arranged at one end of the lifting plate, the third motor is fixedly connected to the inner side of one end of the lifting plate, the second straight gear is fixedly connected to a power output shaft of the third motor, the third straight gear is fixedly connected to the rotating shaft, and the third straight gear is meshed with the second straight gear.

As the improvement of above-mentioned scheme, feed mechanism is including the crane, go up the feed bin, the slider, the fourth motor, fourth straight-tooth gear and second rack, bolted connection is passed through in crossbearer board intermediate position one side to the one end of crane, go up the feed bin, the slider, the fourth motor, fourth straight-tooth gear and second rack divide to be set up to two, it sets up both sides around the crane to go up the feed bin for two, two sliders are fixed connection respectively in two feed bin lower parts of going up, both sides around two sliders are sliding connection respectively in the crane, two fourth motors are fixed connection respectively in two feed bins, be close to one side of slider, two fourth straight-tooth gear are fixed connection respectively in two, the power output shaft of fourth motor, two inboard difference fixed connection respectively in the left and right sides of crane of second rack, two fourth straight-tooth gears mesh with two second racks respectively.

As the improvement of above-mentioned scheme, still including discharge mechanism, discharge mechanism is including bottom plate and spring, and discharge mechanism is provided with two, and two discharge mechanism set up respectively inside two last feed bins, and the spring sets up to a plurality ofly, and the one end fixed connection of a plurality of springs is in the inboard bottom of last feed bin, and inside bottom plate sliding connection last feed bin, one side fixed connection of bottom plate was in the other end of a plurality of springs.

The invention achieves the effect by:

stabilizing mean, rotating seat mechanism have realized promoting scaffold frame and rotatable seat mechanism at will and have realized the working direction that needs, have guaranteed artificial work safety.

The lifting mechanism realizes that the lifting and the falling of the manual working position can be controlled manually through the controller.

The driving mechanism and the steering mechanism can control the movement and the movement direction of the scaffold through the controller according to the requirement of a manual working position.

The feeding mechanism and the discharging mechanism realize the transmission of the gypsum boards from the ground, save the manual work of upwards transmitting the gypsum boards one by one, and facilitate the manual work of taking the gypsum boards, thereby improving the working efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the stabilizing mechanism and the lifting mechanism of the present invention.

Fig. 3 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 4 is a schematic perspective view of the driving mechanism and the steering mechanism of the present invention.

Fig. 5 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 6 is a schematic view of a partial three-dimensional structure of the feeding mechanism of the present invention.

Fig. 7 is a schematic perspective view of the discharging mechanism of the present invention.

Number designation in the figures: 1-a transverse frame plate, 101-a vertical frame plate, 102-a lifting plate, 103-a ladder stand, 2-a first bevel frame, 201-a first caster wheel, 202-a second bevel frame, 203-a second caster wheel, 3-a first motor, 301-a first bevel gear, 302-a fixed plate, 303-a first rotating shaft, 304-a second bevel gear, 305-a first straight gear, 306-a first rack, 4-a support frame, 401-a rotating shaft, 402-a second rotating shaft, 403-a driving wheel, 404-a third bevel gear, 405-a second motor, 406-a fourth bevel gear, 5-a third motor, 501-a second straight gear, 502-a third straight gear, 6-a lifting frame, 601-an upper bin, 602-a sliding block, 603-a fourth motor, 604-fourth straight gear, 605-second rack, 7-bottom plate, 701-spring, 8-connecting shaft, 801-seat and 802-controller.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

The utility model provides a scaffold frame for construction with lift removal function, as shown in figure 1, including supporting mechanism and stabilizing mean, supporting mechanism is including horizontal frame plate 1, erect frame plate 101, lifter plate 102 and cat ladder 103, erect frame plate 101 and lifter plate 102 set up to two respectively, bolted connection is passed through at the both ends downside of horizontal frame plate 1 in the upper end of two perpendicular frame plates 101, two lifter plates 102 sliding connection respectively in two perpendicular frame plates 101, the upper portion fixed connection of cat ladder 103 is in the left end of horizontal frame plate 1, the lower extreme fixed connection of cat ladder 103 is in the lower extreme left side of erecting frame plate 101, stabilizing mean sets up to two, two stabilizing mean set up respectively in the one end of two lifter plates 102.

Two vertical frame plate 101 and lifter plate 102's symmetry sets up plays the stability to horizontal frame plate 1, promotes the scaffold frame during use, rotates through stabilizing mean and removes the scaffold frame to the construction building indoor, and the manual work can climb to horizontal frame plate 1 upside through cat ladder 103, has realized the rising of artifical operating position, makes things convenient for the installation of gypsum board.

Example 2

On the basis of embodiment 1, as shown in fig. 2, the stabilizing mechanism includes a first inclined bracket 2, a first caster 201, a second inclined bracket 202 and a second caster 203, two stabilizing mechanisms are provided, the two stabilizing mechanisms are respectively provided at the lower ends of the two lifting plates 102, the upper end of the first inclined bracket 2 is fixedly connected to the rear side of the lower end of the lifting plate 102, the upper portion of the first caster 201 is rotatably connected to the lower end of the first inclined bracket 2, the upper end of the second inclined bracket 202 is fixedly connected to the front side of the lower end of the lifting plate 102, and the upper portion of the second caster 203 is rotatably connected to the lower end of the second inclined bracket 202.

Because first outrigger 2 and second outrigger 202 fixed connection are in the front and back both sides of lifter plate 102, play the effect of stabilizing lifter plate 102, the toppling over of scaffold has been prevented, when artifical use scaffold, promote the scaffold, through the rotation of first truckle 201 and second truckle 203, promote the scaffold to the construction position, because first truckle 201 and second truckle 203 rotate with first outrigger 2 and second outrigger 202 and are connected, realized can promoting the direction that the scaffold removed at will.

Example 3

On the basis of embodiment 2, as shown in fig. 1, the two rotating seat mechanisms include a connecting shaft 8, a seat 801 and a controller 802, the two rotating seat mechanisms are respectively disposed at two ends of the upper side of the horizontal frame plate 1, the lower end of the connecting shaft 8 is rotatably connected to the horizontal frame plate 1, the lower side of the seat 801 is fixedly connected to the upper end of the connecting shaft 8, and the controller 802 is fixedly connected to the front side of the seat 801.

Promote the scaffold frame during use, rotate through stabilizing mean and remove the scaffold frame to the construction building indoor, artifical can climb to 1 upside of cross brace board through cat ladder 103, the installation construction of carrying out the gypsum board on seat 801 can be sat to the manual work, and the work direction that needs has been realized to rotatable seat mechanism, has guaranteed artificial work safety.

Example 4

In addition to embodiment 3, as shown in fig. 2 and 3, the lifting mechanism includes a first motor 3, a first bevel gear 301, a fixing plate 302, a first rotating shaft 303, a second bevel gear 304, a first straight gear 305 and a first rack 306, the two lifting mechanisms are respectively arranged on two vertical frame plates 101 and two lifting plates 102, the first motor 3 is arranged on the inner side of the lower end of the vertical frame plate 101, the first bevel gear 301 is fixedly connected to the power output shaft of the first motor 3, the rear end of the fixing plate 302 is fixedly connected to the front side of the lower end of the vertical frame plate 101, the first rotating shaft 303 penetrates through the fixing plate 302 and is rotatably connected thereto, the second bevel gear 304 is fixedly connected to the right end of the first rotating shaft 303, the second bevel gear 304 is engaged with the first bevel gear 301, the first straight gear 305 is fixedly connected to the left end of the first rotating shaft 303, one side of the first rack 306 is fixedly connected to the front side of the lifting plates 102, the first straight gear 305 is engaged with the first rack 306.

When the gypsum plasterboard installing and installing device is used, the scaffold is pushed, the scaffold is moved to the interior of a construction building through the rotation of the stabilizing mechanism, a worker can climb to the upper side of the transverse frame plate 1 through the ladder 103, the worker can sit on the seat 801 to install and construct gypsum plasterboards, when the gypsum plasterboard installing and installing device starts to work, the worker can control the first motor 3 through the controller 802, the first motor 3 rotates anticlockwise to drive the first bevel gear 301 to rotate, the first bevel gear 301 drives the second bevel gear 304 to rotate anticlockwise, the second bevel gear 304 rotates anticlockwise to drive the first bevel gear 305 to rotate anticlockwise through the first rotating shaft 303, the first bevel gear 305 rotates anticlockwise to drive the vertical frame plate 101 to lift upwards, the first motor 3 rotates anticlockwise to drive the first bevel gear 301 to rotate, the first bevel gear 301 drives the second bevel gear 304 to rotate anticlockwise, the second bevel gear 304 rotates anticlockwise to drive the first bevel gear 305 to rotate anticlockwise, the first straight gear 305 rotates anticlockwise to drive the vertical frame plate 101 to descend downwards, and the lifting and descending of the manual working position can be controlled manually through the controller 802.

Example 5

On the basis of embodiment 4, as shown in fig. 4, the driving mechanism includes a supporting frame 4, a rotating shaft 401, a second rotating shaft 402, the driving device comprises two driving mechanisms, the two driving mechanisms are respectively arranged below the two lifting plates 102, the supporting frame 4 is arranged below the lifting plates 102, the upper end of the rotating shaft 401 is rotatably connected to the lower ends of the lifting plates 102, the lower end of the rotating shaft 401 is fixedly connected to the upper end of the supporting frame 4, the second rotating shaft 402 penetrates through the lower portion of the supporting frame 4 and is rotatably connected with the lower portion of the supporting frame 4, the driving wheel 403 is fixedly connected to the second rotating shaft 402, the third helical gear 404 is fixedly connected to the inner side of the second rotating shaft 402, the second motor 405 is fixedly connected to the inner side of the supporting frame 4, the fourth helical gear 406 is fixedly connected to a power output shaft of the second motor 405, and the fourth helical gear 406 is meshed with the third helical gear 404.

Promote the scaffold frame during use, it is indoor to rotate to remove the scaffold frame to the construction building through stabilizing mean, the manual work can climb to cross slab board 1 upside through cat ladder 103, the manual work can be sat and carry out the installation construction of gypsum board on seat 801, the time of the work switch on, artifical accessible controller 802, control second motor 405 rotates, second motor 405 clockwise rotation and anticlockwise rotation, accessible fourth helical gear 406 and third helical gear 404 drive wheel 403 clockwise and anticlockwise rotation, realized can passing through controller 802 according to the needs of artifical operating position, the back-and-forth movement of control scaffold frame.

Example 6

On the basis of embodiment 5, as shown in fig. 4, the steering mechanism includes a third motor 5, a second spur gear 501 and a third spur gear 502, the number of the steering mechanisms is two, the two steering mechanisms are respectively disposed at the lower end of the lifting plate 102, the third motor 5 is fixedly connected to the inner side of the lower end of the lifting plate 102, the second spur gear 501 is fixedly connected to the power output shaft of the third motor 5, the third spur gear 502 is fixedly connected to the rotating shaft 401, and the third spur gear 502 is engaged with the second spur gear 501.

Promote the scaffold frame during use, it is indoor to rotate to remove the scaffold frame to the construction building through stabilizing mean, the manual work can climb to 1 upside of cross slab board through cat ladder 103, the manual work can be sat and carry out the installation construction of gypsum board on seat 801, the time of the work switch on, artifical accessible controller 802, control third motor 5's rotation, third motor 5's rotation drives axis of rotation 401 through second spur gear 501 and third spur gear 502 and rotates, axis of rotation 401 rotates the direction that steerable drive wheel 403 traveles, it can pass through controller 802 according to manual work position's needs to have realized, the direction that control scaffold frame removed.

Example 7

On the basis of the embodiment 1, as shown in fig. 5 to 7, the feeding mechanism includes a lifting frame 6, an upper bin 601, a sliding block 602, a fourth motor 603, a fourth spur gear 604 and a second rack 605, the upper end of the lifting frame 6 is connected to the lower side of the middle position of the cross frame plate 1 through a bolt, the upper bin 601, the sliding block 602, the fourth motor 603, the fourth spur gear 604 and the second rack 605 are respectively arranged in two numbers, the two upper bins 601 are arranged at the front and rear sides of the lifting frame 6, the two sliding blocks 602 are respectively fixedly connected to the lower parts of the two upper bins 601, the two sliding blocks 602 are respectively slidably connected to the front and rear sides of the lifting frame 6, the two fourth motors 603 are respectively fixedly connected to the two upper bins 601, the side close to the sliding block 602, the two fourth spur gears 604 are respectively fixedly connected to the power output shafts of the two fourth motors 603, the inner sides of the two second racks, the two fourth spur gears 604 are engaged with the two second racks 605, respectively.

Promote the scaffold frame during use, it is indoor to rotate to remove the scaffold frame to the construction building through stabilizing mean, the manual work can climb to 1 upside of cross slab board through cat ladder 103, the manual work can be sat and carry out the installation construction of gypsum board on seat 801, place the gypsum board that will install earlier in feed bin 601, the time of beginning the work switch on, artifical accessible controller 802, control fourth motor 603 rotates, the hour hand and the anticlockwise rotation of fourth motor 603 can drive feed bin 601 and according to the rail of slider 602 in crane 6 to rise and descend, realized the conveying by ground ascending of gypsum board, save the manual work and upwards transferred the gypsum board and improved work efficiency one by one.

Still including discharge mechanism, discharge mechanism is including bottom plate 7 and spring 701, and discharge mechanism is provided with two, and two discharge mechanism set up respectively inside two last feed bin 601, and spring 701 sets up to 9, and 9 spring 701's lower extreme is even interval fixed connection in the inboard bottom of last feed bin 601 respectively, and inside bottom plate 7 sliding connection in last feed bin 601, the downside fixed connection of bottom plate 7 is in the upper end of a plurality of springs 701.

When in use, the scaffold is pushed, the scaffold is moved to the interior of a construction building through the rotation of the stabilizing mechanism, a worker can climb to the upper side of the transverse frame plate 1 through the ladder 103 and can sit on the seat 801 to carry out the installation and construction of the gypsum board, the plasterboard placed in the upper bin 601 is transferred from the ground surface to the upper bin 601 by the controller 802, and since no object presses the bottom plate 7 downward in a normal state, the bottom plate 7 is jacked up by the spring 701, and when the plasterboard is manually placed in the upper bin 601 one by one, because the weight is gradually increased, the spring 701 is gradually compressed, after the gypsum board reaches the upper limit of the loading of the upper bin 601, start up fourth motor 603 and will contain the last feed bin 601 upward conveying of gypsum board, artifical work of beginning will go up the gypsum board in the feed bin 601 and take out one by one, and the spring 701 of compressed gradually resets, has realized that the gypsum board is in the top of last feed bin 601 all the time, has made things convenient for artificial taking.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (8)

1. The utility model provides a scaffold frame for construction with lift removal function, including supporting mechanism, supporting mechanism is including horizontal frame plate, perpendicular frame plate, lifter plate and cat ladder, erects frame plate and lifter plate and sets up to two respectively, and two one end bolted connections that erect the frame plate set up to two at the both ends downside of horizontal frame plate, and two lifter plates are sliding connection respectively in two perpendicular frame plates, and the upper portion fixed connection of cat ladder is in the one end of horizontal frame plate, and the lower extreme fixed connection of cat ladder is in the lower extreme one side of erecting the frame plate, its characterized in that: still including stabilizing mean, stabilizing mean sets up to two, and two stabilizing mean set up respectively in the one end of two lifter plates.

2. The scaffold for construction work having a lifting and moving function according to claim 1, wherein: stabilizing mean is including first outrigger, first truckle, second outrigger and second truckle, stabilizing mean sets up to two, and two stabilizing mean set up respectively in the one end of two lifter plates, and the one end fixed connection of first outrigger is in the one end rear side of lifter plate, and the upper portion of first truckle rotates to be connected in the other end of first outrigger, and the one end fixed connection of second outrigger is in the one end front side of lifter plate, and second truckle upper portion rotates the other end of connecting the second outrigger.

3. The scaffold for construction work having a lifting and moving function according to claim 2, wherein: the rotating seat mechanisms comprise connecting shafts, seats and controllers, the two rotating seat mechanisms are arranged at two ends of one side of the transverse frame plate respectively, one end of each connecting shaft is connected to the transverse frame plate in a rotating mode, the lower side of each seat is fixedly connected to the other end of each connecting shaft, and the controllers are fixedly connected to one sides of the seats.

4. A scaffold for construction work having a lifting and moving function according to claim 3, wherein: the lifting mechanism comprises a first motor, a first helical gear, a fixed plate, a first rotating shaft, a second helical gear, a first straight gear and a first rack, the lifting mechanism is arranged into two, the two lifting mechanisms are respectively arranged on two vertical frame plates and two lifting plates, the first motor is arranged on the inner side of one end of each vertical frame plate, the first helical gear is fixedly connected to a power output shaft of the first motor, one end of the fixed plate is fixedly connected to the front side of the lower end of each vertical frame plate, the first rotating shaft penetrates through the fixed plate and is connected with the fixed plate in a rotating mode, the second helical gear is fixedly connected to one end of the first rotating shaft, the second helical gear is meshed with the first helical gear, the first straight gear is fixedly connected to the other end of the first rotating shaft, one side of the first rack is fixedly connected to the front side.

5. The scaffold for construction work having a lifting and moving function according to claim 4, wherein: actuating mechanism is including the support frame, the axis of rotation, the second pivot, the drive wheel, third helical gear, second motor and fourth helical gear, actuating mechanism sets up to two, two actuating mechanism set up respectively in two lifter plates below, the support frame sets up in the lifter plate below, the one end of axis of rotation is rotated and is connected in the one end of lifter plate, the other end fixed connection of axis of rotation is in the upper end of support frame, the second pivot is worn to penetrate in the lower part of support frame rather than rotate and be connected, drive wheel fixed connection is in the second pivot, third helical gear fixed connection is in the inboard of second pivot, second motor fixed connection is in the inboard of support frame, fourth helical gear fixed connection is in the power output shaft of second motor, fourth helical gear and third helical gear meshing.

6. The scaffold for construction work having a lifting and moving function according to claim 5, wherein: steering mechanism sets up to two including third motor, second straight-tooth gear and third straight-tooth gear, and two steering mechanism set up respectively in the one end of lifter plate, and third motor fixed connection is inboard in the one end of lifter plate, and second straight-tooth gear fixed connection is in the power output shaft of third motor, and third straight-tooth gear fixed connection is in the axis of rotation, and third straight-tooth gear and second straight-tooth gear mesh.

7. The scaffold for construction work having a lifting and moving function according to claim 6, wherein: feed mechanism is including the crane, go up the feed bin, the slider, the fourth motor, fourth straight-teeth gear and second rack, bolted connection is passed through in crossbearer plate intermediate position one side to the one end of crane, go up the feed bin, the slider, the fourth motor, fourth straight-teeth gear and second rack divide to be set up to two, it sets up both sides around the crane to go up the feed bin for two, two slider difference fixed connection are in two feed bin lower parts of going up, two slider difference sliding connection are both sides around the crane, two fourth motor difference fixed connection are in two feed bins, be close to one side of slider, two fourth straight-teeth gear difference fixed connection are in two, the power output shaft of fourth motor, two inboard difference fixed connection in the left and right sides of crane respectively of second rack, two fourth straight-teeth gear mesh with two second racks respectively.

8. The scaffold for construction work having a lifting and moving function according to claim 7, wherein: still including discharge mechanism, discharge mechanism is including bottom plate and spring, and discharge mechanism is provided with two, and two discharge mechanism set up respectively inside two last feed bins, and the spring sets up to a plurality ofly, and the one end fixed connection of a plurality of springs is in the inboard bottom of last feed bin, and inside bottom plate sliding connection last feed bin, one side fixed connection of bottom plate was in the other end of a plurality of springs.

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