CN112062068A - Aerial working operation platform equipment for building - Google Patents

Aerial working operation platform equipment for building Download PDF

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Publication number
CN112062068A
CN112062068A CN202010939368.XA CN202010939368A CN112062068A CN 112062068 A CN112062068 A CN 112062068A CN 202010939368 A CN202010939368 A CN 202010939368A CN 112062068 A CN112062068 A CN 112062068A
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China
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friction
shaft
limiting
connecting plate
plate
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CN202010939368.XA
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Chinese (zh)
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池永江
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Individual
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Individual
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Priority to CN202010939368.XA priority Critical patent/CN112062068A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66FHOISTING, LIFTING, HAULING OR PUSHING, NOT OTHERWISE PROVIDED FOR, e.g. DEVICES WHICH APPLY A LIFTING OR PUSHING FORCE DIRECTLY TO THE SURFACE OF A LOAD
    • B66F11/00Lifting devices specially adapted for particular uses not otherwise provided for
    • B66F11/04Lifting devices specially adapted for particular uses not otherwise provided for for movable platforms or cabins, e.g. on vehicles, permitting workmen to place themselves in any desired position for carrying out required operations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66FHOISTING, LIFTING, HAULING OR PUSHING, NOT OTHERWISE PROVIDED FOR, e.g. DEVICES WHICH APPLY A LIFTING OR PUSHING FORCE DIRECTLY TO THE SURFACE OF A LOAD
    • B66F13/00Common constructional features or accessories

Abstract

The invention relates to aerial work operating platform equipment, in particular to aerial work operating platform equipment for buildings, which comprises an operating platform lifting mechanism, a material pushing mechanism, a ground material conveying mechanism and a traveling mechanism, wherein the equipment can lift operators and materials, can push the materials out, can convey the materials to the high altitude from the ground, can travel on the ground, is connected with the material pushing mechanism, is connected with the ground material conveying mechanism, is connected with the operating platform lifting mechanism, and is connected with the traveling mechanism.

Description

Aerial working operation platform equipment for building
Technical Field
The invention relates to aerial work operating platform equipment, in particular to aerial work operating platform equipment for buildings.
Background
In building construction, high-altitude operation is often needed to convey materials for high-altitude operation personnel, but no good high-altitude operation platform equipment exists in the market, so that the high-altitude operation platform equipment for the building is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing the aerial work operating platform equipment for the building, the equipment can lift operators and materials, the equipment can push the materials out, the equipment can convey the materials to the high altitude from the ground, and the equipment can advance on the ground.
In order to solve the technical problems, the invention relates to aerial work operating platform equipment, in particular to aerial work operating platform equipment for buildings, which comprises an operating platform lifting mechanism, a material pushing mechanism, a ground material conveying mechanism and a traveling mechanism, wherein the equipment can lift operators and materials, can push the materials out, can convey the materials to the high altitude from the ground, and can travel on the ground.
The operation platform lifting mechanism is connected with the material pushing mechanism, the material pushing mechanism is connected with the ground material conveying mechanism, the ground material conveying mechanism is connected with the operation platform lifting mechanism, the advancing mechanism is connected with the operation platform lifting mechanism, and the ground material conveying mechanism is connected with the advancing mechanism.
As a further optimization of the technical scheme, the high-altitude operation platform equipment for the building comprises an operation platform lifting mechanism, a connecting plate a, a connecting plate b, a connecting plate c, a connecting plate d, a hinged plate, an operation plate, a connecting plate e, a connecting plate f, a motor shaft, a belt a, a sliding shaft, a hydraulic cylinder, a connecting plate g, a push-pull rod, a supporting plate, a quarter circle limiting plate, a limiting shaft, a limiting rod, a limiting block, a limiting spring, a vertical limiting shaft, a vertical limiting spring, a vertical limiting stopper, a transmission column, a friction column, a limiting spring, a connecting plate h, a connecting plate i, a pressing column, a pressing block, a rotation stopper, a hinged shaft, a rotation limiting spring, a sliding limiting shaft, a transmission belt, a spring connecting plate and a transmission belt friction shaft, wherein the connecting plate a is connected, the connecting plate b is connected with a connecting plate c, the connecting plate b is connected with a connecting plate f, the connecting plate b is connected with a push-pull rod in a sliding mode, the connecting plate c is connected with a connecting plate e, the connecting plate c is connected with a sliding shaft bearing, the connecting plate c is connected with a connecting plate d in a sliding mode, the connecting plate c is connected with a sliding limiting shaft in a sliding mode, the connecting plate d is hinged with a hinge plate, the connecting plate d is connected with a connecting plate h, the hinge plate is connected with the hinge plate, the operating plate is connected with a connecting plate i, the connecting plate e is connected with a limiting rod in a sliding mode, the connecting plate f is connected with the limiting shaft in a sliding mode, the motor is connected with the connecting plate c, the motor is connected with a motor shaft, a motor shaft is connected with a belt a in a friction mode, the belt, the push-pull rod is connected with the supporting plate, the supporting plate is connected with the sliding shaft in a sliding manner, the quarter-circle limiting plate is connected with the limiting shaft, the limiting rod is connected with the limiting block, the limiting block is connected with the transmission column in a sliding manner, the limiting block is connected with the friction column in a sliding manner, the limiting spring is sleeved on the limiting rod and is limited on the limiting block and a connecting plate e, the vertical limiting shaft is connected with the vertical limiting block, the vertical limiting spring is sleeved on the vertical limiting shaft and is limited on the vertical limiting block and a connecting plate g, the vertical limiting block is connected with the friction column in a sliding manner, the limiting spring is sleeved on the limiting shaft and is limited on the quarter-circle limiting plate and a connecting plate f, the connecting plate h is, connecting plate i is connected with the spring coupling board, and the oppression post is connected with the oppression piece, and rotatory stopper is connected with rotatory spacing spring, and rotatory spacing spring is connected with the spring coupling board, and driving belt and two conveyer belt friction axle friction are connected.
As further optimization of the technical scheme, the high-altitude operation platform equipment for the building comprises a material pushing mechanism, wherein the material pushing mechanism comprises a transmission belt a, a friction wheel a, a pushing plate, an inclined plate, a gear and a rack, the transmission belt a is in friction connection with the friction wheel a, the friction wheel a is connected with a sliding limiting shaft, the pushing plate is connected with the inclined plate, the gear is meshed with the rack, the rack is connected with the pushing plate, the transmission belt a is in friction connection with two transmission belt friction shafts, and the pushing plate is in sliding connection with an operation plate.
As the further optimization of this technical scheme, an aerial working operation platform equipment for building, ground conveying material mechanism include driving belt b, friction pulley b, driving belt c, the winding axle, the winding limiting plate, the steel wire, the connecting plate, the conveying bucket, driving belt b and friction pulley b friction connection, friction pulley b and driving belt c friction connection, driving belt c and winding axle friction connection, the winding axle is connected with the winding limiting plate, steel wire one end is connected with the winding axle and the winding is epaxial the other end of winding is connected with the connecting plate, the connecting plate is connected with the conveying bucket, driving belt b and two conveyer belt friction axle friction connection, friction pulley b and the spacing hub connection that slides, the winding axle is connected with connecting plate d bearing.
As further optimization of the technical scheme, the high-altitude operation platform equipment for the building comprises a travelling mechanism, a driving mechanism and a control mechanism, wherein the travelling mechanism comprises a friction driving wheel, a friction driving shaft a, a friction driving belt a, a friction driving shaft b and a friction driving belt b, the friction transmission wheel is connected with a friction transmission shaft a, the friction transmission shaft a is in friction connection with a friction transmission belt a, the friction transmission belt a is in friction connection with a friction transmission shaft b, the friction transmission shaft b is in friction connection with a friction transmission belt b, the friction transmission belt b is in friction connection with the advancing wheel shaft, the advancing wheel shaft is connected with the advancing wheel, the front wheel shaft is connected with the front wheel, the friction connection plate is connected with a friction transmission shaft a bearing, the friction transmission shaft b is connected with a friction connection plate bearing, the advancing wheel shaft is connected with a connection plate a bearing, and the front wheel shaft is connected with a connection plate a bearing.
As further optimization of the technical scheme, the aerial work platform equipment for the building is characterized in that the belt a is made of high-elasticity rubber.
The aerial work operating platform equipment for the building has the beneficial effects that:
according to the aerial work operating platform equipment for the building, disclosed by the invention, the equipment can lift operators and materials, the equipment can push the materials out, the equipment can convey the materials to the high altitude from the ground, and the equipment can advance on the ground.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of an aerial work platform device for buildings according to the present invention.
Fig. 2 is a first structural schematic diagram of an operating platform lifting mechanism 1 of the aerial work operating platform equipment for buildings.
Fig. 3 is a schematic structural diagram of an operating floor raising mechanism 1 of the aerial work platform equipment for construction of the invention.
Fig. 4 is a third schematic structural diagram of the operating platform lifting mechanism 1 of the aerial work platform equipment for buildings according to the present invention.
Fig. 5 is a fourth schematic structural diagram of the operating platform lifting mechanism 1 of the aerial work platform equipment for buildings according to the invention.
Fig. 6 is a first structural schematic diagram of the material pushing mechanism 2 of the aerial work platform equipment for buildings according to the present invention.
Fig. 7 is a structural schematic diagram of a material pushing mechanism 2 of the aerial work platform equipment for construction according to the invention.
Fig. 8 is a first structural schematic diagram of the ground material conveying mechanism 3 of the aerial work platform equipment for buildings.
Fig. 9 is a second structural schematic diagram of the ground material conveying mechanism 3 of the aerial work platform equipment for buildings according to the invention.
Fig. 10 is a first structural schematic diagram of the traveling mechanism 4 of the aerial work platform device for buildings according to the invention.
Fig. 11 is a second schematic structural diagram of the traveling mechanism 4 of the aerial work platform equipment for construction according to the present invention.
In the figure: an operation table raising mechanism 1; connection board a 1-1; connecting plate b 1-2; connecting plate c 1-3; connecting plate d 1-4; hinge plates 1-5; an operation panel 1-6; connecting plate e 1-7; connecting plate f 1-8; 1-9 of a motor; 1-10 parts of a motor shaft; belt a 1-11; a sliding shaft 1-12; 1-13 of a hydraulic cylinder; connecting plates g 1-14; 1-15 parts of a push-pull rod; support pallets 1-16; a quarter circle limiting plate 1-17; limiting plates 1-18; 1-19 of a limiting shaft; a restraining bar 1-20; limiting blocks 1-21; limiting springs 1-22; 1-23 of a vertical limiting shaft; 1-24 vertical limit springs; 1-25 parts of a vertical limiting block; drive columns 1-26; 1-27 of friction column; 1-28 of a limiting spring; connecting plates h 1-29; connecting plates i 1-30; 1-31 of the compression column; 1-32 of a compression block; rotating the limiting blocks 1-33; articulated shafts 1-34; 1-35 of a rotation limiting spring; 1-36 of a sliding limiting shaft; drive belts 1-37; spring attachment plates 1-38; a material pushing mechanism 2; a drive belt a 2-1; friction wheel a 2-2; 2-3 of a push plate; inclined plates 2-4; 2-5 parts of gear; 2-6 of racks; a ground conveying material mechanism 3; a transmission belt b 3-1; friction wheel b 3-2; a drive belt c 3-3; 3-4 of a winding shaft; winding a limiting plate 3-5; 3-6 parts of steel wire; connecting plates 3-7; 3-8 parts of a conveying barrel; a traveling mechanism 4; a friction transmission wheel 4-1; a friction drive shaft a 4-2; a friction drive belt a 4-3; a friction transmission shaft b 4-4; a friction drive belt b 4-5; 4-6 of a traveling wheel shaft; 4-7 of a travelling wheel; 4-8 parts of a front wheel shaft; 4-9 parts of front wheels; friction coupling plates 4-10.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the invention relates to an aerial work operation platform device, and more specifically to an aerial work operation platform device for buildings, which includes an operation platform lifting mechanism 1, a material pushing mechanism 2, a ground material conveying mechanism 3, and a traveling mechanism 4, and the device can lift an operator and materials, push the materials out, convey the materials from the ground to the high altitude, and travel on the ground.
Operation panel rising mechanism 1 is connected with material push mechanism 2, and material push mechanism 2 is connected with ground conveying material mechanism 3, and ground conveying material mechanism 3 is connected with operation panel rising mechanism 1, and advancing mechanism 4 is connected with operation panel rising mechanism 1, and ground conveying material mechanism 3 is connected with advancing mechanism 4.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the embodiment is further described, where the console lifting mechanism 1 includes a connection plate a1-1, a connection plate b1-2, a connection plate c1-3, a connection plate d1-4, a hinge plate 1-5, an operation plate 1-6, a connection plate e1-7, a connection plate f1-8, a motor 1-9, a motor shaft 1-10, a belt a1-11, a sliding shaft 1-12, a hydraulic cylinder 1-13, a connection plate g1-14, a push-pull rod 1-15, a support pallet 1-16, a quarter circle limit plate 1-17, a limit plate 1-18, a limit shaft 1-19, a limit rod 1-20, a hydraulic cylinder 1-13, a hydraulic, 1-21 parts of limiting blocks, 1-22 parts of limiting springs, 1-23 parts of vertical limiting shafts, 1-24 parts of vertical limiting springs, 1-25 parts of vertical limiting blocks, 1-26 parts of transmission columns, 1-27 parts of friction columns, 1-28 parts of limiting springs, 1-29 parts of connecting plates h1, 1-30 parts of connecting plates, 1-31 parts of pressing columns, 1-32 parts of pressing blocks, 1-33 parts of rotation limiting blocks, 1-34 parts of hinge shafts, 1-35 parts of rotation limiting springs, 1-36 parts of sliding limiting shafts, 1-37 parts of transmission belts, 1-38 parts of spring connecting plates and 1-39 parts of transmission belt friction shafts, 1-1 parts of connecting plates a 5-1 parts of connecting plates are connected with 1-2 parts of connecting plates b, 1-1 parts of connecting plates g1-14 parts of connecting plates, b1-2 parts of connecting plates c1-3 of connecting plates, b 35, connecting plate b1-2 is connected with push-pull rod 1-15 in a sliding manner, connecting plate c1-3 is connected with connecting plate e1-7, connecting plate c1-3 is connected with connecting plate f1-8, connecting plate c1-3 is connected with sliding shaft 1-12 bearing, connecting plate c1-3 is connected with connecting plate d1-4 in a sliding manner, connecting plate c1-3 is connected with sliding limiting shaft 1-36 in a sliding manner, connecting plate d1-4 is hinged with hinged plate 1-5, connecting plate d1-4 is connected with connecting plate h1-29, hinged plate 1-5 is connected with hinged shaft 1-34, operating plate 1-6 is connected with connecting plate i1-30, connecting plate e1-7 is connected with limiting rod 1-20 in a sliding manner, connecting plate f1-8 is connected with limiting shaft 1-19 in a sliding manner, motor 1-9 is connected with connecting plate c1-3, the motor 1-9 is connected with the motor shaft 1-10, the motor shaft 1-10 is connected with the belt a1-11 in a friction mode, the belt a1-11 is connected with the sliding shaft 1-12 in a friction mode, the sliding shaft 1-12 is connected with the transmission column 1-26, the sliding shaft 1-12 is connected with the friction column 1-27, the hydraulic cylinder 1-13 is connected with the connecting plate g1-14, the hydraulic cylinder 1-13 is connected with the push-pull rod 1-15, the push-pull rod 1-15 is connected with the support plate 1-16, the support plate 1-16 is connected with the sliding shaft 1-12 in a sliding mode, the quarter circle limit plate 1-17 is connected with the limit shaft 1-19, the limit plate 1-18 is connected with, limiting rods 1-20 are connected with limiting blocks 1-21, the limiting blocks 1-21 are connected with transmission columns 1-26 in a sliding mode, the limiting blocks 1-21 are connected with friction columns 1-27 in a sliding mode, limiting springs 1-22 are sleeved on the limiting rods 1-20 and limited on the limiting blocks 1-21 and a connecting plate e1-7, vertical limiting shafts 1-23 are connected with vertical limiting blocks 1-25, vertical limiting springs 1-24 are sleeved on the vertical limiting shafts 1-23 and limited on the vertical limiting blocks 1-25 and a connecting plate g1-14, the vertical limiting blocks 1-25 are connected with the friction columns 1-27 in a sliding mode, limiting springs 1-28 are sleeved on the limiting shafts 1-19 and limited on quarter circle limiting plates 1-17 and a connecting plate f1-8, and a connecting plate h1-29 is connected with a connecting plate i1-30, the connecting plates h1-29 are connected with the pressing columns 1-31, the connecting plates h1-29 are connected with the spring connecting plates 1-38, the connecting plates i1-30 are connected with the sliding limiting shafts 1-36 through bearings, the connecting plates i1-30 are connected with the spring connecting plates 1-38, the pressing columns 1-31 are connected with the pressing blocks 1-32, the rotating limiting blocks 1-33 are connected with the rotating limiting springs 1-35, the rotating limiting springs 1-35 are connected with the spring connecting plates 1-38, and the transmission belts 1-37 are in friction connection with the two transmission belt friction shafts 1-39.
The third concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the embodiment further describes an embodiment, where the material pushing mechanism 2 includes a driving belt a2-1, a friction wheel a2-2, a pushing plate 2-3, an inclined plate 2-4, a gear 2-5, and a rack 2-6, the driving belt a2-1 is frictionally connected with the friction wheel a2-2, the friction wheel a2-2 is connected with a sliding limiting shaft 1-36, the pushing plate 2-3 is connected with the inclined plate 2-4, the gear 2-5 is engaged with the rack 2-6, the rack 2-6 is connected with the pushing plate 2-3, the driving belt a2-1 is frictionally connected with two belt friction shafts 1-39, the pushing plate 2-3 is connected with the operating plate 1-6 in a sliding way.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the embodiment is further described as a first embodiment, in which the ground material conveying mechanism 3 includes a driving belt b3-1, a friction wheel b3-2, a driving belt c3-3, a winding shaft 3-4, a winding limit plate 3-5, a steel wire 3-6, a connecting plate 3-7, and a conveying tub 3-8, the driving belt b3-1 is frictionally connected to the friction wheel b3-2, the friction wheel b3-2 is frictionally connected to the driving belt c3-3, the driving belt c3-3 is frictionally connected to the winding shaft 3-4, the winding shaft 3-4 is connected to the winding limit plate 3-5, one end of the steel wire 3-6 is connected to the winding shaft 3-4, and the other end of the steel wire is connected to the connecting plate 3-7 The connecting plate 3-7 is connected with the conveying barrel 3-8, the transmission belt b3-1 is in friction connection with the two conveying belt friction shafts 1-39, the friction wheel b3-2 is connected with the sliding limiting shaft 1-36, and the winding shaft 3-4 is in bearing connection with the connecting plate d 1-4.
The fifth concrete implementation mode:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, the embodiment is further described, wherein the traveling mechanism 4 includes a friction transmission wheel 4-1, a friction transmission shaft a4-2, a friction transmission belt a4-3, a friction transmission shaft b4-4, a friction transmission belt b4-5, a traveling wheel shaft 4-6, a traveling wheel 4-7, a front wheel shaft 4-8, a front wheel 4-9, a friction connecting plate 4-10, the friction transmission wheel 4-1 is connected with the friction transmission shaft a4-2, the friction transmission shaft a4-2 is connected with the friction transmission belt a4-3 in a friction manner, the friction transmission belt a4-3 is connected with the friction transmission shaft b4-4 in a friction manner, the friction transmission shaft b4-4 is connected with the friction transmission belt b4-5 in a friction manner, the friction transmission belt b4-5 is in friction connection with the traveling wheel shaft 4-6, the traveling wheel shaft 4-6 is connected with the traveling wheel 4-7, the front wheel shaft 4-8 is connected with the front wheel 4-9, the friction connecting plate 4-10 is in bearing connection with the friction transmission shaft a4-2, the friction transmission shaft b4-4 is in bearing connection with the friction connecting plate 4-10, the traveling wheel shaft 4-6 is in bearing connection with the connecting plate a1-1, and the front wheel shaft 4-8 is in bearing connection with the connecting plate a 1-1.
The sixth specific implementation mode:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, and the present embodiment will be further described with reference to the first embodiment, in which the belts a1-11 are made of high-elastic rubber.
The working principle of the device is as follows: the equipment can lift an operator and materials, the motors 1-9 work to drive the motor shafts 1-10 to rotate, the motor shafts 1-10 rotate to drive the sliding shafts 1-12 to rotate through the belts a1-11, the sliding shafts 1-12 rotate the friction columns 1-27 to rotate, the friction columns 1-27 rotate to drive the transmission belts 1-37 to ascend or descend, the transmission belts 1-37 move to drive the operation plates 1-6 to move upwards, the operation plates 1-6 move upwards through the connecting plates i1-30, and the relative position stability of the operation plates 1-6 during movement is further improved,
the device can push out materials, pull the sliding shaft 1-12, the sliding shaft 1-12 drives the friction column 1-27 to move, the friction column 1-27 stops pulling when moving to contact with the friction wheel a2-2, the limiting block 1-21 is pressed by the limiting spring 1-22 to press the transmission belt 1-37 to keep the relative position of the transmission belt 1-37 stable, the relative position of the operation plate 1-6 is enhanced to be stable, the sliding shaft 1-12 is pulled and the transmission column 1-26 is driven to move, when the friction column 1-27 contacts with the transmission belt a2-1, the vertical limiting block 1-25 on one side is pressed by the vertical limiting spring 1-24 to press the transmission column 1-26, the relative position of the friction column 1-27 is limited, the motor 1-9 works at the moment, the motor 1-9 works to drive the motor shaft 1-10 to rotate, the motor shaft 1-10 rotates to drive the sliding shaft 1-12 to rotate through the belt a1-11, the sliding shaft 1-12 rotates to drive the friction column 1-27 to rotate, the friction column 1-27 rotates to drive the transmission belt a2-1 to rotate, the transmission belt a2-1 rotates to drive the friction wheel a2-2 to rotate, the friction wheel a2-2 rotates to drive the sliding limit shaft 1-36 to rotate, the sliding limit shaft 1-36 rotates to drive the gear 2-5 to rotate, the gear 2-5 rotates to drive the rack 2-6 to move under the limit of the operation panel 1-6, the rack 2-6 moves to drive the push panel 2-3 to move, the push panel 2-3 moves to drive the inclined panel 2-4 to move,
the device can convey materials to high altitude from the ground, push and pull the sliding shaft 1-12, the sliding shaft 1-12 drives the friction column 1-27 to move, the friction column 1-27 moves to contact with the friction wheel b3-2, the pushing stops, the limiting block 1-21 is pressed by the limiting spring 1-22 to press the transmission belt 1-37 to keep the relative position of the transmission belt 1-37 stable, the relative position of the operation plate 1-6 is enhanced to be stable, the sliding shaft 1-12 is pulled and the transmission column 1-26 is driven to move, when the friction column 1-27 contacts with the transmission belt b3-1, the vertical limiting block 1-25 on one side is pressed by the vertical limiting spring 1-24 to press the transmission column 1-26 to limit the relative position of the friction column 1-27, the motor 1-9 works at the moment, the motor 1-9 works to drive the motor shaft 1-10 to rotate, the motor shaft 1-10 rotates to drive the sliding shaft 1-12 to rotate through the belt a1-11, the sliding shaft 1-12 rotates to drive the friction column 1-27 to rotate, the friction column 1-27 rotates to drive the transmission belt b3-1 to rotate, the transmission belt b3-1 rotates to drive the friction wheel b3-2 to rotate, the friction wheel b3-2 rotates to drive the sliding limiting shaft 1-36 to rotate, the sliding limiting shaft 1-36 rotates to drive the winding shaft 3-4 to rotate through the transmission belt c3-3, the winding shaft 3-4 rotates to drive the steel wire 3-6 to wind or unwind on the winding shaft 3-4, the steel wire 3-6 moves to drive the connecting plate 3-7 to move, the connecting plate 3-7 moves to drive the conveying barrel 3-8 to move,
the equipment can advance on the ground, the hydraulic cylinders 1-13 work to pull the push-pull rods 1-15 downwards, the push-pull rods 1-15 move to drive the support supporting plates 1-16 to move, when the support supporting plates 1-16 move to be in contact with the lower end mounting plate, the support supporting plates 1-16 move to be limited, the friction columns 1-27 are not in friction connection with the transmission belts 1-37 at the moment, the sliding shafts 1-12 naturally descend under the influence of the gravity of the equipment at the upper end, the sliding shafts 1-12 descend to drive the friction columns 1-27 to descend, when the friction columns 1-27 descend to be in friction connection with the friction transmission wheels 4-1, the sliding shafts 1-12 descend to be limited, the motors 1-9 work to drive the motor shafts 1-10 to rotate at the moment, the motor shafts 1-10 rotate to drive the sliding shafts 1-12 to, the sliding shaft 1-12 rotates to drive the friction column 1-27 to rotate, the friction column 1-27 rotates to drive the friction driving wheel 4-1 to rotate, the friction driving wheel 4-1 rotates to drive the friction driving shaft a4-2 to rotate, the friction driving shaft a4-2 rotates to drive the friction driving shaft b4-4 to rotate through the friction driving belt a4-3, the friction driving shaft b4-4 rotates to drive the traveling wheel shaft 4-6 to rotate through the friction driving belt b4-5, the traveling wheel shaft 4-6 rotates to drive the traveling wheel 4-7 to rotate, the traveling wheel 4-7 travels on the ground, and the front wheel 4-9 serves as a driven wheel to travel on the ground in a driven mode.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides an aerial working operation platform equipment for building, includes that operation panel risees mechanism (1), material push mechanism (2), ground conveying material mechanism (3), advancing mechanism (4), its characterized in that: the operation panel rising mechanism (1) is connected with the material pushing mechanism (2), the material pushing mechanism (2) is connected with the ground conveying material mechanism (3), the ground conveying material mechanism (3) is connected with the operation panel rising mechanism (1), the advancing mechanism (4) is connected with the operation panel rising mechanism (1), and the ground conveying material mechanism (3) is connected with the advancing mechanism (4).
2. An aerial work platform apparatus for construction as claimed in claim 1 wherein: the operating table lifting mechanism (1) comprises a connecting plate a (1-1), a connecting plate b (1-2), a connecting plate c (1-3), a connecting plate d (1-4), a hinged plate (1-5), an operating plate (1-6), a connecting plate e (1-7), a connecting plate f (1-8), a motor (1-9), a motor shaft (1-10), a belt a (1-11), a sliding shaft (1-12), a hydraulic cylinder (1-13), a connecting plate g (1-14), a push-pull rod (1-15), a supporting plate (1-16), a quarter circle limiting plate (1-17), a limiting plate (1-18), a limiting shaft (1-19), a limiting rod (1-20), a limiting block (1-21), Limiting springs (1-22), vertical limiting shafts (1-23), vertical limiting springs (1-24), vertical limiting blocks (1-25), transmission columns (1-26), friction columns (1-27), limiting springs (1-28), connecting plates h (1-29), connecting plates i (1-30), pressing columns (1-31), pressing blocks (1-32), rotary limiting blocks (1-33), hinge shafts (1-34), rotary limiting springs (1-35), sliding limiting shafts (1-36), transmission belts (1-37), spring connecting plates (1-38) and transmission belt friction shafts (1-39), wherein the connecting plates a (1-1) are connected with the connecting plates b (1-2), and the connecting plates a (1-1) are connected with the connecting plates g (1-14), the connecting plate b (1-2) is connected with a connecting plate c (1-3), the connecting plate b (1-2) is connected with a connecting plate f (1-8), the connecting plate b (1-2) is connected with a push-pull rod (1-15) in a sliding manner, the connecting plate c (1-3) is connected with a connecting plate e (1-7), the connecting plate c (1-3) is connected with a connecting plate f (1-8), the connecting plate c (1-3) is connected with a sliding shaft (1-12) in a bearing manner, the connecting plate c (1-3) is connected with a connecting plate d (1-4) in a sliding manner, the connecting plate c (1-3) is connected with a sliding limit shaft (1-36) in a sliding manner, the connecting plate d (1-4) is hinged with a hinged plate (1-5), and the connecting plate d (1-4) is connected with a connecting plate h (, the hinged plate (1-5) is connected with a hinged shaft (1-34), the operating plate (1-6) is connected with a connecting plate i (1-30), a connecting plate e (1-7) is connected with a limiting rod (1-20) in a sliding way, a connecting plate f (1-8) is connected with a limiting shaft (1-19) in a sliding way, a motor (1-9) is connected with a connecting plate c (1-3), a motor (1-9) is connected with a motor shaft (1-10), a motor shaft (1-10) is connected with a belt a (1-11) in a friction way, a belt a (1-11) is connected with a sliding shaft (1-12) in a friction way, a sliding shaft (1-12) is connected with a transmission column (1-26), a sliding shaft (1-12) is connected with a friction column (1-27), a hydraulic cylinder (1-13) is connected with a connecting plate g (1-14), the hydraulic cylinder (1-13) is connected with a push-pull rod (1-15), the push-pull rod (1-15) is connected with a support supporting plate (1-16), the support supporting plate (1-16) is connected with a sliding shaft (1-12) in a sliding manner, a quarter circle limiting plate (1-17) is connected with the sliding shaft (1-12) in a sliding manner, the quarter circle limiting plate (1-17) is connected with a limiting shaft (1-19), the limiting plate (1-18) is connected with the limiting shaft (1-19), the limiting rod (1-20) is connected with a limiting block (1-21), the limiting block (1-21) is connected with a transmission column (1-26) in a sliding manner, the limiting block (1-21) is connected with a friction column (1-27) in a sliding manner, a limiting spring (1-22) is sleeved on the limiting rod (1-20) and limited on the limiting block (1-21) and a connecting plate e (1-7), the vertical limiting shafts (1-23) are connected with vertical limiting blocks (1-25), vertical limiting springs (1-24) are sleeved on the vertical limiting shafts (1-23) and limited on the vertical limiting blocks (1-25) and connecting plates g (1-14), the vertical limiting blocks (1-25) are connected with friction columns (1-27) in a sliding mode, limiting springs (1-28) are sleeved on the limiting shafts (1-19) and limited on quarter circle limiting plates (1-17) and connecting plates f (1-8), connecting plates h (1-29) are connected with connecting plates i (1-30), the connecting plates h (1-29) are connected with compression columns (1-31), the connecting plates h (1-29) are connected with spring connecting plates (1-38), the connecting plates i (1-30) are connected with sliding limiting shafts (1-36) through bearings, the connecting plates i (1-30) are connected with spring connecting plates (1-38), the pressing columns (1-31) are connected with pressing blocks (1-32), the rotary limiting blocks (1-33) are connected with rotary limiting springs (1-35), the rotary limiting springs (1-35) are connected with the spring connecting plates (1-38), and the transmission belts (1-37) are in friction connection with two transmission belt friction shafts (1-39).
3. An aerial work platform apparatus for construction as claimed in claim 1 wherein: the material pushing mechanism (2) comprises a transmission belt a (2-1), a friction wheel a (2-2), a pushing plate (2-3), an inclined plate (2-4), a gear (2-5) and a rack (2-6), the transmission belt a (2-1) is in friction connection with the friction wheel a (2-2), the friction wheel a (2-2) is connected with the sliding limiting shaft (1-36), the push plate (2-3) is connected with the inclined plate (2-4), the gear (2-5) is meshed with the rack (2-6), the rack (2-6) is connected with the push plate (2-3), the transmission belt a (2-1) is in friction connection with the two transmission belt friction shafts (1-39), and the push plate (2-3) is in sliding connection with the operation plate (1-6).
4. An aerial work platform apparatus for construction as claimed in claim 1 wherein: the ground material conveying mechanism (3) comprises a transmission belt b (3-1), a friction wheel b (3-2), a transmission belt c (3-3), a winding shaft (3-4), a winding limiting plate (3-5), a steel wire (3-6), a connecting plate (3-7) and a conveying barrel (3-8), wherein the transmission belt b (3-1) is in friction connection with the friction wheel b (3-2), the friction wheel b (3-2) is in friction connection with the transmission belt c (3-3), the transmission belt c (3-3) is in friction connection with the winding shaft (3-4), the winding shaft (3-4) is connected with the winding limiting plate (3-5), one end of the steel wire (3-6) is connected with the winding shaft (3-4) and wound on the winding shaft (3-4), and the other end of the steel wire is connected with the connecting plate (3-7), the connecting plate (3-7) is connected with the conveying barrel (3-8), the transmission belt b (3-1) is in friction connection with the two conveying belt friction shafts (1-39), the friction wheel b (3-2) is connected with the sliding limiting shaft (1-36), and the winding shaft (3-4) is in bearing connection with the connecting plate d (1-4).
5. An aerial work platform apparatus for construction as claimed in claim 1 wherein: the travelling mechanism (4) comprises a friction transmission wheel (4-1), a friction transmission shaft a (4-2), a friction transmission belt a (4-3), a friction transmission shaft b (4-4), a friction transmission belt b (4-5), a travelling wheel shaft (4-6), a travelling wheel (4-7), a front wheel shaft (4-8), a front wheel (4-9) and a friction connecting plate (4-10), wherein the friction transmission wheel (4-1) is connected with the friction transmission shaft a (4-2), the friction transmission shaft a (4-2) is in friction connection with the friction transmission belt a (4-3), the friction transmission belt a (4-3) is in friction connection with the friction transmission shaft b (4-4), the friction transmission shaft b (4-4) is in friction connection with the friction transmission belt b (4-5), the friction transmission belt b (4-5) is in friction connection with the traveling wheel shaft (4-6), the traveling wheel shaft (4-6) is connected with the traveling wheel (4-7), the front wheel shaft (4-8) is connected with the front wheel (4-9), the friction connecting plate (4-10) is in bearing connection with the friction transmission shaft a (4-2), the friction transmission shaft b (4-4) is in bearing connection with the friction connecting plate (4-10), the traveling wheel shaft (4-6) is in bearing connection with the connecting plate a (1-1), and the front wheel shaft (4-8) is in bearing connection with the connecting plate a (1-1).
6. An aerial work platform apparatus for construction as claimed in claim 1 wherein: the material of the belt a (1-11) is high-elastic rubber.
CN202010939368.XA 2020-09-09 2020-09-09 Aerial working operation platform equipment for building Withdrawn CN112062068A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202010939368.XA CN112062068A (en) 2020-09-09 2020-09-09 Aerial working operation platform equipment for building

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Application Number Priority Date Filing Date Title
CN202010939368.XA CN112062068A (en) 2020-09-09 2020-09-09 Aerial working operation platform equipment for building

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CN202010939368.XA Withdrawn CN112062068A (en) 2020-09-09 2020-09-09 Aerial working operation platform equipment for building

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113063074A (en) * 2021-03-16 2021-07-02 董清国 Computer room computer storage device
CN113414091A (en) * 2021-06-23 2021-09-21 池永江 Grit screening sieve for building engineering

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113063074A (en) * 2021-03-16 2021-07-02 董清国 Computer room computer storage device
CN113414091A (en) * 2021-06-23 2021-09-21 池永江 Grit screening sieve for building engineering

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Application publication date: 20201211