CN109025211B

CN109025211B - Architectural decoration construction auxiliary facilities

Info

Publication number: CN109025211B
Application number: CN201811042710.5A
Authority: CN
Inventors: 刘丽军
Original assignee: Dong Yi Ri Sheng Home Decoration Group Co ltd
Current assignee: DONG YI RI SHENG HOME DECORATION GROUP Co.,Ltd.
Priority date: 2018-09-07
Filing date: 2018-09-07
Publication date: 2020-05-12
Anticipated expiration: 2038-09-07
Also published as: CN109025211A

Abstract

The invention relates to an auxiliary facility for building decoration, in particular to an auxiliary facility for building decoration construction, which comprises a lifting box, a material box, a grabbing box, a box body slideway and a lifting ladder, and can solve the problem that the existing laying mode is long in time for laying one by one manually, and the problem that when a wall surface is laid, two workers are needed to cooperate, one person stands on the ladder, the other person is responsible for delivering materials, and the materials are easy to fall off to cause injury of the personnel when the materials are conveyed, most of the ladders are arranged in advance and cannot move, and the higher ladder constructors are needed to get on or off the ladder for higher wall surfaces, so that danger is easy to occur.

Description

Architectural decoration construction auxiliary facilities

Technical Field

The invention relates to an auxiliary facility for architectural decoration, in particular to an auxiliary facility for architectural decoration construction.

Background

The laying of ground and wall among the architectural decoration is the most important part among the architectural decoration, the building materials of general decoration are timber apron or ceramic tile as the main, current mode of laying is all long with the artifical one time of going on laying the consumption, and just need two workman to cooperate when laying the wall, one person stands to on the ladder another person is responsible for passing the material and takes place the material easily and drop the injury that causes personnel when the transport material, and most ladders all set up the unable shift position in advance, need higher ladder constructor to go up and down the ladder to produce danger easily to higher wall.

Disclosure of Invention

The invention relates to an auxiliary facility for architectural decoration, in particular to an auxiliary facility for architectural decoration construction. Can solve current laying mode and come one to lay the problem that the time of consumption is long with the manual work, and just need two workman to cooperate when laying the wall, stand on the ladder alone another individual is responsible for passing the material and take place the material easily when carrying the material and drop the injury that causes personnel, most ladders all set up in advance can not the shift position moreover, need the problem that the higher ladder constructor goes up and down the ladder and produce danger easily to higher wall.

The invention relates to an auxiliary facility for building decoration, in particular to an auxiliary facility for building decoration construction, which comprises a lifting box, a material box, a grabbing box, a box body slideway and a lifting ladder, wherein the upper end of the grabbing box is provided with a grabbing sucker, a rubber pad, a piston supporting column, a piston buckle, a linkage plate, a buckle base, a piston clamping groove spring, a clamping groove linkage box, a linkage box spring, a linkage box slideway, a linkage box sliding block, a linkage box hinged arm and a linkage box pull ring, the grabbing sucker is welded in the grabbing box, the lower end of the grabbing sucker is provided with the rubber pad, the grabbing sucker is internally provided with a hollow structure, the piston slides in the grabbing sucker, the upper end of the piston is welded with the piston supporting column, the upper end of the piston supporting column is welded with the piston buckle, the upper end, the inside slip of buckle base has the piston draw-in groove, the upper end of piston draw-in groove is provided with piston draw-in groove spring, the piston draw-in groove uses with the cooperation of piston buckle, the upper end welding of snatching the case has the draw-in groove linkage case, the inside of draw-in groove linkage case is provided with the linkage case spring, the inside of draw-in groove linkage case is provided with the linkage case slide, the upper end slip of linkage case slide has the linkage case slider, the upper end of linkage case slider articulates there is the linkage case articulated arm, the upper end of piston draw-in groove articulates there is the linkage case articulated arm, the. Can solve current laying mode and come one to lay the problem that the time of consumption is long with the manual work, and just need two workman to cooperate when laying the wall, stand on the ladder alone another individual is responsible for passing the material and take place the material easily when carrying the material and drop the injury that causes personnel, most ladders all set up in advance can not the shift position moreover, need the problem that the higher ladder constructor goes up and down the ladder and produce danger easily to higher wall.

The upper end of the lifting box is provided with a lifting box slide way, a lifting box support column, a lifting box slide block, a lifting box screw rod, a screw helical gear, a rotating shaft support arm, a rotating shaft belt pulley, a lifting box belt, a lifting box motor base and a rotating ring, the upper end of the lifting box is provided with the lifting box slide way, the upper end slide way of the lifting box slide way is provided with the lifting box slide block, the upper end of the lifting box slide block is welded with the lifting box support column, the inside of the lifting box support column is provided with a hole, the inside of the lifting box is rotated with the lifting box screw rod, the upper end of the lifting box screw rod is connected with the helical gear through a key, the two ends of the rotating shaft are welded with the helical gear rotating shaft, the rotating shaft helical gear is meshed with the screw, the inside welding of lift case has the axis of rotation support arm, the inside rotation of axis of rotation support arm has the axis of rotation, the up end key-type of axis of rotation has the axis of rotation belt pulley, the upper end of axis of rotation belt pulley is provided with the lift case belt, the inside welding of lift case has lift case motor base, the upper end of lift case motor base is provided with the lift case motor, the upper end of lift case motor is provided with the belt pulley, the upper end of lift case motor belt pulley is provided with the lift case belt, the upper end welding of lift case support column has the.

The upper end of the material box is provided with a damping slide block, a damping spring, a telescopic net base, a cross net slide block, a cross net, a telescopic rod sleeve, a telescopic rod, a triangular limiting block, a telescopic rod control box, a fixture block supporting arm, a fixture block, a control box spring, a placing plate and a plate, the upper end of the material box is provided with the damping slide block in a sliding manner, the lower end of the damping slide block is welded with the damping spring, the upper end of the telescopic net base is provided with the cross net slide block in a sliding manner, the upper end of the cross net slide block is hinged with the cross net, the upper end of the cross net slide block is welded with the telescopic rod sleeve, the telescopic rod is arranged in the telescopic rod sleeve in a sliding manner, the upper end of the telescopic rod is welded with the triangular limiting block, the upper end of the telescopic rod sleeve is, the welding of the upper end of fixture block support arm has the control box spring, and the welding of the upper end of shock attenuation slider has places the board, and the lower extreme of placing the board articulates there is the cross net, places the upper end of board and places panel.

The upper end of the elevator is provided with an elevator triangular clamping block, a sliding box, a sliding clamping base, a sliding clamping buckle, a clamping buckle supporting column, a sliding clamping spring, an auxiliary roller base, an auxiliary roller, a steel wire fixer, a sliding ladder base, a sliding ladder, a pulley, a steel wire winder, a steel wire winding roller and a rotating arm, the two ends of the elevator are welded with the elevator triangular clamping block, the upper end of the elevator slides with the sliding box, the sliding clamping base is welded inside the sliding box, the sliding clamping buckle is slid inside the sliding clamping base, the clamping buckle supporting column is welded on the upper end of the sliding buckle, the upper end of the clamping buckle supporting column is provided with the sliding clamping spring, the sliding buckle is matched with the elevator triangular clamping block for use, the auxiliary roller base is welded inside the sliding box, the upper end of the auxiliary roller base is rotated with an, the upper end welding of slip case has the steel wire fixer, and the upper end welding of slip case has the slip ladder base, and the upper end welding of slip ladder base has the slip ladder, and the lower extreme welding of slip ladder has the pulley, and the upper end of pulley is provided with the steel wire, and the upper end of steel wire fixer is fixed with the steel wire, and the upper end welding of companion ladder has the steel wire coiler, and the upper end rotation of steel wire coiler has steel wire winding roller, and the upper end winding of steel wire winding roller has the steel wire, and the upper end welding of steel wire winding roller has the rotor arm.

The upper end welding of cage has the material case, and the upper end of cage support column rotates has the case of snatching, and the right-hand member welding of cage has the box slide, and the upper end of box slide slides there is the companion ladder.

As a further optimization of the technical scheme, the lifting box supporting column, the lifting box sliding block, the lifting box screw rod, the screw rod helical gear, the rotating shaft helical gear and the rotating shaft supporting arm are respectively provided with two lifting box supporting columns, two lifting box sliding blocks, two lifting box screw rods, two screw rod helical gears, two rotating shaft helical gears and two rotating shaft supporting arms.

As a further optimization of the technical scheme, the lifting box supporting column, the lifting box sliding block, the lifting box screw rod and the screw rod helical gear of the auxiliary facility for building decoration construction are concentric.

As further optimization of the technical scheme, the lifting box, the material box, the grabbing box, the box body slideway and the elevator of the auxiliary facility for building decoration construction are made of stainless steel.

As a further optimization of the technical scheme, the telescopic rod sleeve and the telescopic rod of the auxiliary facility for building decoration construction are concentric.

As further optimization of the technical scheme, the lifting box belt and the rubber pad of the auxiliary facility for building decoration construction are made of rubber.

The auxiliary facility for architectural decoration construction has the beneficial effects that:

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of an auxiliary facility for architectural decoration construction according to the present invention.

Fig. 2 is a schematic structural view of a lifting box of the auxiliary facility for architectural decoration construction of the present invention.

FIG. 3 is a schematic view of the structure of a material box of the auxiliary facility for architectural decoration construction of the present invention.

FIG. 4 is a schematic view of a base structure of a retractable net of the auxiliary facility for architectural decoration construction of the present invention.

Fig. 5 is a schematic view of a telescopic rod sleeve structure of the auxiliary facility for architectural decoration construction.

FIG. 6 is a schematic view of a grabbing box structure of the auxiliary facility for architectural decoration construction of the present invention.

Fig. 7 is a schematic view of a grabbing suction cup structure of the auxiliary facility for architectural decoration construction of the present invention.

Fig. 8 is a schematic structural view of an elevator of the auxiliary facility for architectural decoration construction of the present invention.

Fig. 9 is a schematic structural view of a sliding box of the auxiliary facility for architectural decoration construction of the present invention.

FIG. 10 is a schematic structural view of a wire winder for use in an auxiliary facility for architectural decoration construction according to the present invention.

FIG. 11 is a schematic structural diagram of a steel wire winder of an auxiliary facility for architectural decoration construction according to the present invention.

In the figure: a lifting box 1; a lifting box slideway 1-1; a lifting box support column 1-2; 1-3 of a lifting box sliding block; 1-4 of a lifting box screw; 1-5 parts of a lead screw bevel gear; rotating a shaft bevel gear 1-6; 1-7 of a rotating shaft; a rotating shaft supporting arm 1-8; 1-9 of a rotating shaft belt pulley; 1-10 of a lifting box belt; 1-11 of a lifting box motor; lifting box motor bases 1-12; 1-13 of a rotating ring; a material box 2; a damping slide block 2-1; a damping spring 2-2; 2-3 of a telescopic net base; cross net sliding blocks 2-4; 2-5 of a cross net; 2-6 of a telescopic rod sleeve; 2-7 parts of a telescopic rod; 2-8 parts of a triangular limiting block; 2-9 parts of a telescopic rod control box; 2-10 parts of a clamping block supporting arm; 2-11 parts of a fixture block; 2-12 parts of control box spring; placing plates 2-13; 2-14 of plates; a grabbing box 3; grabbing a sucker 3-1; 3-2 parts of a rubber pad; 3-3 of a piston; 3-4 parts of a piston support column; 3-5 parts of a piston buckle; 3-6 of a linkage plate; 3-7 of a buckle base; 3-8 parts of a piston clamping groove; 3-9 parts of piston clamping groove spring; 3-10 parts of a clamping groove linkage box; 3-11 parts of linkage box springs; 3-12 of a linkage box slideway; 3-13 of a linkage box sliding block; a linkage box articulated arm 3-14; 3-15 parts of a linkage box pull ring; a box body slideway 4; an elevator 5; the elevator comprises 5-1 parts of an elevator triangular clamping block and 5-2 parts of a sliding box; 5-3 of a sliding buckle base; 5-4 of a sliding buckle; 5-5 of a buckle support column; 5-6 of a sliding buckle spring; auxiliary roller bases 5-7; 5-8 parts of auxiliary rollers; 5-9 parts of a steel wire fixer; 5-10 parts of a sliding ladder base; 5-11 of a sliding ladder; 5-12 parts of pulleys; 5-13 parts of steel wire; 5-14 parts of a steel wire winder; 5-15 parts of steel wire winding rollers; the arms 5-16 are rotated.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, and the invention mainly solves the technical problem of providing an auxiliary facility for building decoration construction, which comprises a lifting box 1, a material box 2, a grabbing box 3, a box body slideway 4 and a lifting ladder 5, wherein the upper end of the grabbing box 3 is provided with a grabbing sucker 3-1, a rubber pad 3-2, a piston 3-3, a piston support column 3-4, a piston buckle 3-5, a linkage plate 3-6, a buckle base 3-7, a piston clamping groove 3-8, a piston clamping groove spring 3-9, a clamping groove linkage box 3-10, a linkage box spring 3-11, a linkage box slideway 3-12, a linkage box sliding block 3-13, a linkage box articulated arm 3-14 and a linkage box pull ring 3-15, the grabbing sucker 3-1 is welded inside the grabbing box 3 and can grab different plates, the lower end of the grabbing sucker 3-1 is provided with a rubber pad 3-2, the inside of the grabbing sucker 3-1 is arranged to be a hollow structure, a piston 3-3 slides in the grabbing sucker 3-1, a piston support column 3-4 is welded at the upper end of the piston 3-3 and can drive the piston 3-3 to slide up and down, a piston buckle 3-5 is welded at the upper end of the piston support column 3-4, a linkage plate 3-6 is welded at the upper end of the piston support column 3-4, a buckle base 3-7 is welded at the upper end of the grabbing sucker 3-1, a piston clamping groove 3-8 slides in the buckle base 3-7, a piston clamping groove spring 3-9 is arranged at the upper end of the piston clamping groove 3-8, the piston clamping groove 3-8 is matched with the piston buckle 3-5 to fix the piston support column 3-4 when the piston, the upper end of the grabbing box 3 is welded with a clamping groove linkage box 3-10, linkage box springs 3-11 are arranged inside the clamping groove linkage box 3-10, linkage box slide rails 3-12 are arranged inside the clamping groove linkage box 3-10, linkage box slide blocks 3-13 are arranged on the upper ends of the linkage box slide rails 3-12 in a sliding mode, linkage box hinge arms 3-14 are hinged to the upper ends of the linkage box slide blocks 3-13, linkage box hinge arms 3-14 are hinged to the upper ends of the piston clamping grooves 3-8, and linkage box pull rings 3-15 are welded to the upper ends of the linkage box slide blocks 3-13, so that constructors can take down plates when the grabbing box is used. Can solve current laying mode and come one to lay the problem that the time of consumption is long with the manual work, and just need two workman to cooperate when laying the wall, stand on the ladder alone another individual is responsible for passing the material and take place the material easily when carrying the material and drop the injury that causes personnel, most ladders all set up in advance can not the shift position moreover, need the problem that the higher ladder constructor goes up and down the ladder and produce danger easily to higher wall.

The upper end of the lifting box 1 is provided with a lifting box slide 1-1, a lifting box support column 1-2, a lifting box slide block 1-3, a lifting box screw 1-4, a screw helical gear 1-5, a rotating shaft helical gear 1-6, a rotating shaft 1-7, a rotating shaft support arm 1-8, a rotating shaft belt pulley 1-9, a lifting box belt 1-10, a lifting box motor 1-11, a lifting box motor base 1-12 and a rotating ring 1-13, the upper end of the lifting box 1 is provided with a lifting box slide 1-1, the upper end slide of the lifting box slide 1-1 is provided with a lifting box slide block 1-3, the upper end of the lifting box slide block 1-3 is welded with a lifting box support column 1-2, the lifting box support column 1-2 is internally provided with a hole, and the lifting box screw 1-4 rotates inside the lifting box 1, the upper end of a lifting box sliding block 1-3 is provided with a threaded through hole, a lifting box screw 1-4 is rotated inside a lifting box sliding block 1-3 hole, a lifting box screw 1-4 is rotated inside a lifting box supporting column 1-2, the lifting box screw 1-4 realizes the lifting function of the lifting box supporting column 1-2, the upper end of the lifting box screw 1-4 is connected with a screw helical gear 1-5 in a key way, rotating shaft helical gears 1-6 are welded at the two ends of a rotating shaft 1-7, the rotating shaft helical gears 1-6 are meshed with the screw helical gears 1-5 to realize the linkage effect of the lifting box sliding blocks 1-3 at the two ends, rotating shaft supporting arms 1-8 are welded inside the lifting box 1, and the rotating shaft 1-7 plays a supporting role in the internal rotation of the rotating shaft supporting arms 1-8, the upper end key of the rotating shaft 1-7 is connected with a rotating shaft belt pulley 1-9, the upper end of the rotating shaft belt pulley 1-9 is provided with a lifting box belt 1-10, the inside of the lifting box 1 is welded with a lifting box motor base 1-12, the upper end of the lifting box motor base 1-12 is provided with a lifting box motor 1-11, the upper end of the lifting box motor 1-11 is provided with a belt pulley, the upper end of the lifting box motor 1-11 belt pulley is provided with a lifting box belt 1-10 which can realize the lifting of the device, and the upper end of the lifting box support column 1-2 is welded with a rotating ring 1-13.

The upper end of the material box 2 is provided with a damping slide block 2-1, a damping spring 2-2, a telescopic net base 2-3, a cross net slide block 2-4, a cross net 2-5, a telescopic rod sleeve 2-6, a telescopic rod 2-7, a triangular limiting block 2-8, a telescopic rod control box 2-9, a clamping block supporting arm 2-10, a clamping block 2-11, a control box spring 2-12, a placing plate 2-13 and a plate 2-14, the upper end of the material box 2 is provided with the damping slide block 2-1 in a sliding manner, the lower end of the damping slide block 2-1 is welded with the damping spring 2-2 to play a role in reducing the vibration of the plate, the upper end of the telescopic net base 2-3 is provided with the cross net 2-4 in a sliding manner, and the upper end of the cross net slide block 2-4 is hinged with the, the upper end of the cross net sliding block 2-4 is welded with a telescopic rod sleeve 2-6, a telescopic rod 2-7 slides inside the telescopic rod sleeve 2-6, a triangular limiting block 2-8 is welded at the upper end of the telescopic rod 2-7, a telescopic rod control box 2-9 is welded at the upper end of the telescopic rod sleeve 2-6, a fixture block supporting arm 2-10 rotates inside the telescopic rod control box 2-9, a fixture block 2-11 is welded at the left end of the fixture block supporting arm 2-10 to realize the lifting of the cross net 2-5, a control box spring 2-12 is welded inside the telescopic rod control box 2-9, a control box spring 2-12 is welded at the upper end of the fixture block supporting arm 2-10 to play a role in fixing the lifting of the cross net 2-5, and a placing plate 2-13 is welded at the upper end of the shock absorption, the lower end of the placing plate 2-13 is hinged with a cross net 2-5, and the upper end of the placing plate 2-13 is provided with a plate 2-14.

The upper end of the elevator 5 is provided with an elevator triangular clamping block 5-1, a sliding box 5-2, a sliding buckle base 5-3, a sliding buckle 5-4, a buckle support column 5-5, a sliding buckle spring 5-6, an auxiliary roller base 5-7, an auxiliary roller 5-8, a steel wire fixer 5-9, a sliding ladder base 5-10, a sliding ladder 5-11, a pulley 5-12, a steel wire 5-13, a steel wire winder 5-14, a steel wire winding roller 5-15 and a rotating arm 5-16, the two ends of the elevator 5 are welded with the elevator triangular clamping block 5-1, the upper end of the elevator 5 is provided with the sliding box 5-2 in a sliding way, the sliding buckle base 5-3 is welded in the sliding box 5-2, and the sliding buckle 5-4 is slid in the sliding buckle base 5-3, the upper end of a sliding buckle 5-4 is welded with a buckle support column 5-5, the upper end of the buckle support column 5-5 is provided with a sliding buckle spring 5-6, the sliding buckle 5-4 is matched with an elevator triangular fixture block 5-1 for use and can be fixed when the sliding ladder 5-11 rises upwards, the inside of a sliding box 5-2 is welded with an auxiliary roller base 5-7, the upper end of the auxiliary roller base 5-7 is rotated with an auxiliary roller 5-8, the upper end of the auxiliary roller 5-8 is slid with an elevator 5 to reduce friction, the upper end of the sliding box 5-2 is welded with a steel wire fixer 5-9, the upper end of the sliding box 5-2 is welded with a sliding ladder base 5-10, the upper end of the sliding ladder base 5-10 is welded with a sliding ladder 5-11, and the lower end of the sliding ladder 5-11 is welded with a, the upper ends of the pulleys 5-12 are provided with steel wires 5-13, the upper ends of the steel wire fixing devices 5-9 are fixed with the steel wires 5-13, the upper end of the elevator 5 is welded with a steel wire winder 5-14, the upper ends of the steel wire winders 5-14 are provided with steel wire winding rollers 5-15 in a rotating mode, the upper ends of the steel wire winding rollers 5-15 are wound with the steel wires 5-13, and the upper ends of the steel wire winding rollers 5-15 are welded with rotating arms 5-16 to achieve the lifting function of the elevator 5-11.

The upper end of the lifting box 1 is welded with a material box 2, the upper end of a lifting box supporting column 1-2 is rotated with a grabbing box 3, the right end of the lifting box 1 is welded with a box body slide 4, and the upper end of the box body slide 4 is provided with a lifting ladder 5 in a sliding manner.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the embodiment further describes the embodiment in that two lift box support columns 1-2, two lift box slide blocks 1-3, two lift box screw rods 1-4, two screw bevel gears 1-5, two rotating shaft bevel gears 1-6, and two rotating shaft support arms 1-8 are provided.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the embodiment further describes that the lift box support column 1-2, the lift box slide block 1-3, the lift box screw 1-4, and the screw helical gear 1-5 are concentric. The fourth concrete implementation mode:

the following describes the embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the embodiment further describes the embodiment, and the lifting box 1, the material box 2, the grabbing box 3, the box body chute 4, and the lifting ladder 5 are made of stainless steel.

The fifth concrete 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 further describes the first embodiment in which the telescopic rod sleeves 2 to 6 and the telescopic rods 2 to 7 are concentric.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the embodiment further describes the embodiment, and the elevator box belts 1 to 10 and the rubber pads 3 to 2 are made of rubber.

The working principle of the invention is as follows:

a building decoration construction auxiliary facility has the working principle that a device is placed on a site needing construction, then plates 2-14 needing to be laid are placed on the upper ends of placing plates 2-13, a constructor pushes a cross net sliding block 2-4 inwards to drive a telescopic rod 2-7 to slide towards the inside of a telescopic rod sleeve 2-6 and enable a cross net 2-5 to rise upwards, the cross net 2-5 rises upwards to push the placing plates 2-13 upwards, the placing plates 2-13 move upwards to drive a damping sliding block 2-1 to move upwards, when the plates 2-14 are tightly attached to a grabbing suction cup 3-1, the cross net 2-5 stops being pushed, then a linkage plate 3-6 is pulled to drive a piston supporting column 3-4 to move upwards, the piston supporting column 3-4 moves upwards to drive a piston 3-3 to slide upwards in the grabbing suction cup 3-1, the piston buckle 3-5 is clamped into the piston clamping groove 3-8 to complete fixation, the piston 3-3 slides upwards to drive the air in the grabbing sucker 3-1 to move upwards so that the rubber pad 3-2 sinks towards the inner part of the grabbing sucker 3-1 and vacuum is generated on the surface of the plate 2-14 to suck the plate 2-14, then the grabbing box 3 is rotated to enable other grabbing suckers 3-1 to grab the plate 2-14, when the plate 2-14 at the upper end of the placing plate 2-13 is grabbed, the clamping block supporting arm 2-10 is pressed downwards to rotate clockwise, the clamping block supporting arm 2-10 drives the clamping block 2-11 to lift upwards to separate from the triangular limiting block 2-8, then the cross net 2-4 is pulled towards two sides to drive the cross net 2-5 to reset for placing the next plate, the cross net 2-5 is reset to drive the damping slide block 2-1 to slide downwards while the damping spring 2-2 plays a damping role to prevent the device from being damaged by the impact force when falling, then the lifting box motor 1-11 rotates to drive the lifting box belt 1-10 to rotate, the lifting box belt 1-10 rotates to drive the rotating shaft belt pulley 1-9 to rotate, the rotating shaft belt pulley 1-9 rotates to drive the rotating shaft 1-7 to rotate inside the rotating shaft supporting arm 1-8, the rotating shaft supporting arm 1-8 plays a role of supporting the rotating shaft 1-7, the rotating shaft 1-7 rotates to drive the rotating shaft helical gears 1-6 at two ends to rotate, the rotating shaft helical gears 1-6 rotate to drive the meshed lead screw helical gears 1-5 to rotate, the lead screw helical gears 1-5 rotate to drive the lifting box lead screws 1-4 to rotate, because the lifting box sliding block 1-3 slides on the upper end of the lifting box slide way 1-1 to limit the rotation of the lifting box sliding block 1-3, the lifting box screw 1-4 rotates to drive the lifting box sliding block 1-3 to slide upwards on the upper end of the lifting box slide way 1-1 to drive the lifting box supporting column 1-2 to move upwards, the lifting box supporting column 1-2 moves upwards to drive the grabbing box 3 to move upwards to a position to be paved, then an operator pulls the linkage box pull ring 3-15 to drive the linkage box sliding block 3-13 to slide upwards on the upper end of the linkage box slide way 3-12, the linkage box sliding block 3-13 slides upwards to drive the linkage box articulated arm 3-14 to move upwards, the linkage box articulated arm 3-14 moves upwards to pull the piston clamping groove 3-8 to slide outside the inside of the buckle base 3-7 and simultaneously compress the piston clamping groove spring 3-9, at the moment, the linkage plate 3-6 is pushed downwards to drive the piston 3-3 to move downwards, the piston 3-3 moves downwards to drive air to move downwards to push the rubber pad 3-2 to reset, the rubber pad 3-2 is separated from the plate 2-14, the plate 2-14 can be taken down to be laid, after the laying is finished, the grabbing box 3 is rotated to take down the next plate 2-14 to be laid, an operator can step on the upper end of the elevator 5 to lay, when a higher wall surface needs to be laid, the rotating arm 5-16 is rotated to drive the steel wire winding roller 5-15 to rotate, the steel wire winding roller 5-15 rotates to wind and pull the steel wire 5-13, the steel wire 5-13 moves downwards to pull the steel wire fixing device 5-9 to move upwards, the steel wire fixing device 5-9 moves upwards to drive the sliding box 5-2 to slide upwards at the upper end of the, the sliding box 5-2 moves upwards to drive the sliding ladder 5-11 to rise upwards to heighten the elevator 5, a constructor stands at a higher place where the upper end of the sliding ladder 5-11 can be laid, when the laying is finished, one constructor pulls the buckle support columns 5-5 to two sides to drive the sliding buckles 5-4 to slide towards two sides to separate from the elevator triangular fixture block 5-1 and compress the sliding buckle springs 5-6, then the other constructor rotates the rotating arms 5-16 to drive the steel wire winding rollers 5-15 to rotate to loosen the steel wires 5-13, then the gravity action of the sliding ladder 5-11 drives the sliding box 5-2 to slide downwards at the upper end of the elevator 5 to finish resetting, after the resetting, the buckle support columns 5-5 are loosened, the sliding buckles 5-4 are pushed by the acting force of the sliding buckle springs 5-6 to finish resetting, and the next lifting of the sliding ladder 5-11 can be carried out, when the sliding ladder 5-11 is reset, two constructors are needed to operate to avoid the problem that the constructors at the upper end of the sliding ladder 5-11 fall down to cause the danger of vehicle construction due to the fact that the sliding ladder 5-11 is mistakenly touched by the operators, the problem that the time consumed by laying the sliding ladder 5-11 together is long is solved, two workers are needed to cooperate when a wall is laid, one worker stands on the ladder, the other worker is responsible for delivering materials, the materials are easy to fall off to cause the injury of the workers when the materials are carried, most of ladders are set up in advance and cannot move, and the problem that higher constructors of the ladders need to go up and down to cause danger when the higher wall is laid.

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

1. An auxiliary facility for building decoration construction comprises a lifting box (1), a material box (2), a grabbing box (3), a box body slide way (4) and a lifting ladder (5), wherein the upper end of the grabbing box (3) is provided with a grabbing sucker (3-1), a rubber pad (3-2), a piston (3-3), a piston support column (3-4), a piston buckle (3-5), a linkage plate (3-6), a buckle base (3-7), a piston clamping groove (3-8), a piston clamping groove spring (3-9), a clamping groove linkage box (3-10), a linkage box spring (3-11), a linkage box slide way (3-12), a linkage box slide block (3-13), a linkage box hinged arm (3-14) and a linkage box pull ring (3-15), the grabbing sucker (3-1) is welded inside the grabbing box (3), the lower end of the grabbing sucker (3-1) is provided with a rubber pad (3-2), the inside of the grabbing sucker (3-1) is arranged to be a hollow structure, a piston (3-3) slides in the grabbing sucker (3-1), a piston support column (3-4) is welded at the upper end of the piston (3-3), a piston buckle (3-5) is welded at the upper end of the piston support column (3-4), a linkage plate (3-6) is welded at the upper end of the piston support column (3-4), a buckle base (3-7) is welded at the upper end of the grabbing sucker (3-1), a piston clamping groove (3-8) slides in the buckle base (3-7), a piston clamping groove spring (3-9) is arranged at the upper end of the piston clamping groove (3-8), and the piston clamping groove (3-8) is matched with the piston buckle (3-5, a clamping groove linkage box (3-10) is welded at the upper end of the grabbing box (3), a linkage box spring (3-11) is arranged inside the clamping groove linkage box (3-10), a linkage box slide way (3-12) is arranged inside the clamping groove linkage box (3-10), a linkage box sliding block (3-13) is arranged at the upper end of the linkage box slide way (3-12) in a sliding manner, a linkage box hinged arm (3-14) is hinged at the upper end of the linkage box sliding block (3-13), a linkage box hinged arm (3-14) is hinged at the upper end of the piston clamping groove (3-8), and a linkage box pull ring (3-15) is welded at the upper end of the linkage box sliding block (3-13); the method is characterized in that: the upper end of the lifting box (1) is provided with a lifting box slide way (1-1), a lifting box support column (1-2), a lifting box slide block (1-3), a lifting box screw rod (1-4), a screw rod helical gear (1-5), a rotating shaft helical gear (1-6), a rotating shaft (1-7), a rotating shaft support arm (1-8), a rotating shaft belt pulley (1-9), a lifting box belt (1-10), a lifting box motor (1-11), a lifting box motor base (1-12) and a rotating ring (1-13), the upper end of the lifting box (1) is provided with the lifting box slide way (1-1), the upper end of the lifting box slide way (1-1) is provided with the lifting box slide block (1-3), the upper end of the lifting box slide block (1-3) is welded with the lifting box support column (1-2), a hole is arranged inside a lifting box supporting column (1-2), a lifting box screw rod (1-4) is arranged inside the lifting box (1) in a rotating mode, a threaded through hole is formed in the upper end of a lifting box sliding block (1-3), a lifting box screw rod (1-4) is arranged inside the lifting box sliding block (1-3) in a rotating mode, a lifting box screw rod (1-4) is arranged inside the lifting box supporting column (1-2) in a rotating mode, a screw rod helical gear (1-5) is connected to the upper end of the lifting box screw rod (1-4) in a key mode, rotating shaft helical gears (1-6) are welded to two ends of a rotating shaft (1-7), the rotating shaft helical gears (1-6) are meshed with the screw rod helical gears (1-5), a rotating shaft supporting arm (1-8) is welded inside the lifting box (1), a rotating shaft (1-7, a rotating shaft belt pulley (1-9) is connected with the upper end key of the rotating shaft (1-7), a lifting box belt (1-10) is arranged at the upper end of the rotating shaft belt pulley (1-9), a lifting box motor base (1-12) is welded inside the lifting box (1), a lifting box motor (1-11) is arranged at the upper end of the lifting box motor base (1-12), a belt pulley is arranged at the upper end of the lifting box motor (1-11), a lifting box belt (1-10) is arranged at the upper end of the lifting box motor (1-11) belt pulley, and a rotating ring (1-13) is welded at the upper end of a lifting box supporting column (1-2);

the upper end of the material box (2) is provided with a damping slide block (2-1), a damping spring (2-2), a telescopic net base (2-3), a cross net slide block (2-4), a cross net (2-5), a telescopic rod sleeve (2-6), a telescopic rod (2-7), a triangular limiting block (2-8), a telescopic rod control box (2-9), a clamping block supporting arm (2-10), a clamping block (2-11), a control box spring (2-12), a placing plate (2-13) and a plate (2-14), the upper end of the material box (2) is provided with the damping slide block (2-1) in a sliding manner, the lower end of the damping slide block (2-1) is welded with the damping spring (2-2), the upper end of the telescopic net base (2-3) is provided with the cross net slide block (2-4), the upper end of each crossed net sliding block (2-4) is hinged with a crossed net (2-5), the upper end of each crossed net sliding block (2-4) is welded with a telescopic rod sleeve (2-6), a telescopic rod (2-7) slides inside each telescopic rod sleeve (2-6), the upper end of each telescopic rod (2-7) is welded with a triangular limiting block (2-8), the upper end of each telescopic rod sleeve (2-6) is welded with a telescopic rod control box (2-9), a fixture block supporting arm (2-10) rotates inside each telescopic rod control box (2-9), a fixture block (2-11) is welded at the left end of each fixture block supporting arm (2-10), a control box spring (2-12) is welded inside each telescopic rod control box (2-9), and a control box spring (2-12) is welded at the upper end of each fixture block supporting arm (2-10, a placing plate (2-13) is welded at the upper end of the damping sliding block (2-1), a cross net (2-5) is hinged at the lower end of the placing plate (2-13), and a plate (2-14) is placed at the upper end of the placing plate (2-13);

the upper end of the elevator (5) is provided with an elevator triangular clamping block (5-1), a sliding box (5-2), a sliding buckle base (5-3), a sliding buckle (5-4), a buckle supporting column (5-5), a sliding buckle spring (5-6), an auxiliary roller base (5-7), an auxiliary roller (5-8), a steel wire fixer (5-9), a sliding ladder base (5-10), a sliding ladder (5-11), a pulley (5-12), a steel wire (5-13), a steel wire winder (5-14), a steel wire winding roller (5-15) and a rotating arm (5-16), the two ends of the elevator (5) are welded with the elevator triangular clamping block (5-1), the upper end of the elevator (5) is provided with the sliding box (5-2) in a sliding manner, a sliding buckle base (5-3) is welded in the sliding box (5-2), a sliding buckle (5-4) is arranged in the sliding buckle base (5-3) in a sliding mode, a buckle supporting column (5-5) is welded at the upper end of the sliding buckle (5-4), a sliding buckle spring (5-6) is arranged at the upper end of the buckle supporting column (5-5), the sliding buckle (5-4) is matched with an elevator triangular clamping block (5-1) for use, an auxiliary roller base (5-7) is welded in the sliding box (5-2), an auxiliary roller (5-8) is rotated at the upper end of the auxiliary roller base (5-7), an elevator (5) is arranged at the upper end of the auxiliary roller (5-8) in a sliding mode, and a steel wire fixer (5-9) is welded at the upper end of the sliding box (5-2), the upper end of the sliding box (5-2) is welded with a sliding ladder base (5-10), the upper end of the sliding ladder base (5-10) is welded with a sliding ladder (5-11), the lower end of the sliding ladder (5-11) is welded with a pulley (5-12), the upper end of the pulley (5-12) is provided with a steel wire (5-13), the upper end of a steel wire fixer (5-9) is fixed with the steel wire (5-13), the upper end of the lifting ladder (5) is welded with a steel wire winder (5-14), the upper end of the steel wire winder (5-14) is rotated with a steel wire winding roller (5-15), the upper end of the steel wire winding roller (5-15) is wound with the steel wire (5-13), and the upper end of the steel wire winding roller (5-15) is welded with a rotating;

the upper end of the lifting box (1) is welded with the material box (2), the upper end of the lifting box supporting column (1-2) is rotated with the grabbing box (3), the right end of the lifting box (1) is welded with the box body slide way (4), and the upper end of the box body slide way (4) is provided with the lifting ladder (5) in a sliding manner.

2. The architectural decoration construction auxiliary facility according to claim 1, wherein: the lifting box comprises two lifting box supporting columns (1-2), two lifting box sliding blocks (1-3), two lifting box screw rods (1-4), two screw rod bevel gears (1-5), two rotating shaft bevel gears (1-6) and two rotating shaft supporting arms (1-8).

3. The architectural decoration construction auxiliary facility according to claim 1, wherein: the lifting box supporting column (1-2), the lifting box sliding block (1-3), the lifting box lead screw (1-4) and the lead screw bevel gear (1-5) share the same center line.

4. The architectural decoration construction auxiliary facility according to claim 1, wherein: the lifting box (1), the material box (2), the grabbing box (3), the box body slide way (4) and the lifting ladder (5) are made of stainless steel.

5. The architectural decoration construction auxiliary facility according to claim 1, wherein: the telescopic rod sleeve (2-6) and the telescopic rod (2-7) share the same center line.

6. The architectural decoration construction auxiliary facility according to claim 1, wherein: the lifting box belt (1-10) and the rubber pad (3-2) are made of rubber.