CN112360126B - Automatic scaffold for building - Google Patents

Automatic scaffold for building Download PDF

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Publication number
CN112360126B
CN112360126B CN202011345132.XA CN202011345132A CN112360126B CN 112360126 B CN112360126 B CN 112360126B CN 202011345132 A CN202011345132 A CN 202011345132A CN 112360126 B CN112360126 B CN 112360126B
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China
Prior art keywords
module
belt pulley
pulley
telescopic
cylinder
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CN202011345132.XA
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Chinese (zh)
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CN112360126A (en
Inventor
刘启聪
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Xinjiang Xinruicheng Construction Engineering Co Ltd
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Xinjiang Xinruicheng Construction Engineering Co Ltd
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G1/00Scaffolds primarily resting on the ground
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G1/00Scaffolds primarily resting on the ground
    • E04G1/18Scaffolds primarily resting on the ground adjustable in height
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G1/00Scaffolds primarily resting on the ground
    • E04G1/24Scaffolds primarily resting on the ground comprising essentially special base constructions; comprising essentially special ground-engaging parts, e.g. inclined struts, wheels
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G1/00Scaffolds primarily resting on the ground
    • E04G1/34Scaffold constructions able to be folded in prismatic or flat parts or able to be turned down
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G5/00Component parts or accessories for scaffolds
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G5/00Component parts or accessories for scaffolds
    • E04G2005/008Hoisting devices specially adapted as part of a scaffold system

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Mechanical Engineering (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Manipulator (AREA)
  • Transmission Devices (AREA)

Abstract

The invention discloses an automatic scaffold for buildings, which comprises a lower support column telescopic module, an upper support column telescopic module, a belt pulley module and a functional area module, wherein the lower support column telescopic module is mainly combined with the upper support column telescopic module to realize the telescopic function of a support column, in addition, the lower support column telescopic module can also play a role of freely and automatically weighing the upper support column telescopic module, the upper support column telescopic module has an upper part contraction function, the belt pulley module mainly has the function of displacing a belt pulley, the interior of the belt pulley module also has the function of preventing the belt pulley from sliding out, and the functional area module mainly is a worker moving area and has the function of automatic feeding. The invention has complete functions, can greatly facilitate building construction, has complex structure but low cost, and is a very convenient auxiliary building construction tool.

Description

Automatic scaffold for building
Technical Field
The invention relates to the field of constructional engineering, in particular to an automatic scaffold for buildings.
Background
At construction's in-process, the scaffold frame is the instrument of a very common supplementary construction, and the time of setting up the scaffold frame at every turn all very long and loaded down with trivial details, extravagant a large amount of manpower resources, when setting up construction scaffold frame, in case can not be in case the mistake build totally, life that probably can give people brings danger, for solving this kind of problem, application number: CN201821792159.1 discloses an automatic scaffold for construction, but such scaffold functions very long and is not fully automatic and needs human assistance, and is not really helpful to improve efficiency, and moreover, no protection measures bring no sense of safety to workers.
Disclosure of Invention
The invention provides an automatic scaffold for buildings, which can effectively solve the technical problems and has the advantages of simple structure, low cost, high efficiency and high automation degree.
In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an automatic scaffold for buildings comprises a lower strut telescopic module, an upper strut telescopic module, a belt pulley module and a functional area module, wherein the lower strut telescopic module comprises a lower strut telescopic module main body column; the upper telescopic module of the supporting column comprises an upper telescopic module main body column of the supporting column and an upper telescopic module cylinder of the supporting column; the belt pulley module comprises a belt pulley module base and a belt pulley module belt; the functional area module comprises a functional area module base; the telescopic module comprises a main body column of a lower telescopic module of a support column in a lower telescopic module of the support column and a cylinder of an upper telescopic module of the support column, wherein the main body column of the upper telescopic module of the support column and the main body column of the lower telescopic module of the support column form sliding fit, the main body column of the lower telescopic module of the support column in the upper telescopic module of the support column and a base of a belt pulley module in the belt pulley module are fixedly arranged, and a belt pulley module belt in the belt pulley module and a base of a functional area module in the functional area module are fixedly arranged.
Further, the post lower telescopic module also comprises a post lower telescopic module optical axis rack assembly, a post lower telescopic module optical axis matching seat, a post lower telescopic module motor, a post lower telescopic module gear, a post lower telescopic module connecting rod seat, a post lower telescopic module connecting rod, a post lower telescopic module cushion block connecting column and a post lower telescopic module cushion block, wherein the post lower telescopic module optical axis rack assembly and the post lower telescopic module main body column are fixedly arranged, the post lower telescopic module optical axis rack assembly and the post lower telescopic module optical axis matching seat form sliding fit, the post lower telescopic module optical axis matching seat and the post lower telescopic module motor are fixedly arranged, the post lower telescopic module motor and the post lower telescopic module gear are fixedly arranged, the post lower telescopic module gear and the post lower telescopic module optical axis rack assembly form gear fit, the post lower telescopic module connecting rod seat and the post lower telescopic module optical axis matching seat are fixedly arranged, the lower telescopic module connecting rod of the support column is rotatably arranged on the lower telescopic module connecting rod seat of the support column, the lower telescopic module connecting rod of the support column is rotatably arranged on the lower telescopic module cushion block connecting column of the support column, and the lower telescopic module main body column of the support column and the lower telescopic module cushion block of the support column are fixedly arranged.
Further, the upper telescopic module of the pillar also comprises an upper telescopic module cylinder connection of the pillar, a telescopic module window system cylinder connecting rod on the pillar, an upper telescopic module window system cylinder on the pillar, a telescopic module window system cross rod on the pillar, a telescopic module window system cushion block on the pillar and a telescopic module upper connecting post on the pillar, a main body column of the upper telescopic module of the pillar is fixedly installed with the upper telescopic module cylinder on the pillar, the upper telescopic module cylinder of the pillar is fixedly installed with the upper telescopic module cylinder on the pillar, the upper telescopic module main body column of the pillar is in sliding fit with the upper telescopic module connecting post on the pillar, the upper telescopic module main body column of the pillar and the upper telescopic module window system cylinder on the pillar are fixedly installed, the upper telescopic module window system cylinder on the pillar and the upper telescopic module window system cylinder connecting rod on the pillar are fixedly installed, the upper telescopic module window system cylinder connecting rod on the pillar and the telescopic module window system cylinder on the pillar are fixedly installed, the cross bar of the telescopic module window system on the pillar and the cushion block of the telescopic module window system on the pillar are fixedly installed.
The belt pulley module further comprises a belt pulley module motor base, a belt pulley module motor connecting belt pulley, a belt pulley module motor connecting belt, a belt pulley module motor connecting driven belt pulley shaft, a belt pulley module motor connecting driven belt pulley gear, a belt pulley module transmission gear shaft, a belt pulley module lifting gear shaft, a belt pulley module large belt pulley base, a belt pulley module large belt pulley, a belt pulley module antiskid system cylinder center plate optical shaft base, a belt pulley module antiskid system cylinder connecting plate, a belt pulley module antiskid system cylinder track, a belt pulley module antiskid system cylinder large belt antiskid block, A belt pulley module anti-slip system cylinder large belt pulley anti-slip block connecting rod, a belt pulley module anti-slip system cylinder power belt pulley anti-slip block connecting rod, a belt pulley module anti-slip system cylinder central plate optical axis, a belt pulley module motor base and a belt pulley module motor are fixedly installed, a belt pulley module motor connecting belt pulley and a belt pulley module motor connecting belt are clung to each other, a belt pulley module motor connecting belt and a belt pulley module motor connecting driven belt pulley are clung to each other, a belt pulley module motor connecting driven belt pulley shaft and a belt pulley module motor connecting driven belt pulley are fixedly installed, a belt pulley module motor connecting driven belt shaft and a belt pulley module motor connecting driven belt pulley gear are fixedly installed, a belt pulley module motor is connected with a driven belt pulley shaft and is rotationally arranged on a belt pulley module base, a belt pulley module transmission gear shaft is rotationally arranged on the belt pulley module base, a belt pulley module lifting gear is fixedly arranged with the belt pulley module lifting gear shaft, the belt pulley module lifting gear shaft is fixedly arranged with a belt pulley module big belt pulley, the belt pulley module lifting gear shaft is rotationally arranged on a belt pulley module big belt pulley seat, a belt pulley module antiskid system cylinder is fixedly arranged with the belt pulley module base, a belt pulley module antiskid system cylinder is fixedly arranged with a belt pulley module antiskid system cylinder center plate, a belt pulley module antiskid system cylinder center plate is fixedly arranged with a belt pulley module antiskid system cylinder center plate optical axis seat, a belt pulley module antiskid system cylinder center plate optical axis seat is fixedly arranged with the belt pulley module antiskid system cylinder center plate optical axis seat, and a belt pulley module antiskid system cylinder center plate optical axis seat are fixedly arranged with the belt pulley module antiskid system cylinder center plate optical axis seat The installation, the antiskid of belt pulley module goes out system cylinder track and the antiskid of belt pulley module goes out system cylinder center plate fixed mounting, belt pulley module antiskid goes out system cylinder connecting plate and belt pulley module antiskid goes out system cylinder center plate optical axis formation sliding fit, the big belt pulley non-slipping spur connecting rod of belt pulley module antiskid system cylinder and belt pulley module antiskid goes out system cylinder center plate fixed mounting, the big belt non-slipping spur of belt pulley module antiskid goes out system cylinder and the big belt pulley non-slipping spur connecting rod fixed mounting of belt pulley module antiskid system cylinder, belt pulley module antiskid goes out system cylinder power belt pulley non-slipping spur connecting rod fixed mounting with belt pulley module antiskid go out system cylinder power belt pulley non-slipping spur connecting rod fixed mounting, belt pulley module antiskid goes out system cylinder power belt pulley non-slipping spur connecting rod and belt pulley module antiskid system cylinder connecting plate fixed mounting.
Further, the functional area module also comprises a functional area module spring system base, a functional area module spring system optical axis, a functional area module spring system spring, a functional area module base optical axis, a functional area module upper base plate, a functional area module external support, a functional area module cylinder, a functional area module sliding functional base plate, a functional area module internal strut, a functional area module sliding rail, a functional area module lifting optical axis, a functional area module lifting base plate, a functional area module lifting cylinder, a functional area module cross column, a functional area module top plate, a functional area module guardrail area base plate, a functional area module guardrail cross beam, a functional area module guardrail stand column, a functional area module guardrail inclined rod, a functional area module base and a functional area module spring system base which are fixedly installed with the functional area module spring system optical axis, a spring of a functional area module spring system and an optical axis of the functional area module spring system form sliding fit, the optical axis of a functional area module base and the functional area module base are fixedly installed, the optical axis of the functional area module base and an upper functional area module base form sliding fit, the upper functional area module base and an external support and support of the functional area module are fixedly installed, the external support and support of the functional area module and a lifting optical axis of the functional area module are fixedly installed, a functional area module cylinder and an upper functional area module base are fixedly installed, a functional area module slide rail and an upper functional area module base are fixedly installed, the sliding functional area module base and a functional area module slide rail form sliding fit, the sliding functional area module base and a strut inside the functional area module are fixedly installed, the functional area module cylinder and the sliding functional area module base are fixedly installed, and the lifting cylinder and the lifting base are fixedly installed, function district module lifting cylinder and the inside pillar fixed mounting of function district module, fixed mounting is strutted with the outside support of function district module to function district module roof, function district module guardrail district bottom plate and function district module upper plate fixed mounting, function district module guardrail district bottom plate and function district module guardrail stand fixed mounting, function district module guardrail stand and function district module guardrail crossbeam fixed mounting, function district module guardrail down tube and function district module guardrail district bottom plate fixed mounting.
Furthermore, the belt pulley module anti-slip system cylinder connecting plate and the belt pulley module anti-slip system cylinder rail form a sliding fit.
Furthermore, the belt pulley module motor is connected with a driven belt pulley gear and forms gear fit with a belt pulley module transmission gear, the belt pulley module transmission gear and a belt pulley module transmission gear shaft are fixedly installed, and a belt pulley module lifting gear and the belt pulley module transmission gear form gear fit.
Furthermore, the functional area module lifting bottom plate and the functional area module lifting optical axis form sliding fit.
Compared with the prior art, the invention has the beneficial effects that: (1) the whole process of the invention is full-automatic without manual assistance, and the efficiency is very high; (2) the invention is provided with the damping system and the protection device, thereby better protecting the user; (3) the invention can be contracted, and is convenient to transport; (4) the invention has low cost.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
FIG. 2 is a schematic view of the structure of the post lower expansion module of the present invention.
Fig. 3 is a schematic structural view of the telescopic module on the pillar according to the present invention.
FIG. 4 is a schematic diagram of a pulley module of the present invention.
FIG. 5 is a schematic diagram of a functional area module structure according to the present invention.
Fig. 6 is a schematic structural detail view of the telescopic module on the strut according to the present invention.
Reference numbers: 1-a lower telescopic module of a strut; 2-telescopic module on the pillar; 3-a pulley module; 4-functional area module; 101-a post lower telescopic module optical axis rack assembly; 102-telescopic module optical axis matching seat under the pillar; 103-a post lower extension module motor; 104-telescopic module gear under the pillar; 105-a lower telescopic module connecting rod seat of the pillar; 106-a strut lower expansion module link; 107-column lower telescopic module cushion block connecting columns; 108-lower pillar telescoping module spacer blocks; 109-main body column of lower telescopic module of support column; 201-telescopic module main body column on the support; 202-telescopic module cylinder on the pillar; 203-telescopic module cylinder connection on the pillar; 204-cylinder connecting rod of telescopic module window system on the pillar; 205-telescoping modular window system cylinder on stanchion; 206-telescoping modular window system rail on post; 207-telescoping modular window system blocks on the posts; 208-upper connecting columns of telescopic modules on the struts; 301-pulley module base; 302-pulley modular belt; 303-belt pulley module motor base; 304-a pulley module motor; 305-a pulley module motor is connected with a pulley; 306-belt pulley module motor connecting belt; 307-the belt pulley module motor is connected with a driven belt pulley; 308-the belt pulley module motor is connected with a driven belt pulley shaft; 309-the belt pulley module motor is connected with a driven belt pulley gear; 310-pulley module drive gear; 311-pulley module drive gear shaft; 312-pulley module lifting gear; 313-pulley module lifting gear shaft; 314-large pulley seat of pulley module; 315-Belt Pulley Module Large Belt Pulley; 316-pulley module anti-slip out of system cylinder; 317-pulley module anti-slip out of system cylinder center plate; 318-pulley module is prevented from slipping out of the optical axis seat of the center plate in the system cylinder; 319-Belt Pulley Module antiskid System Cylinder connection plate; 320-antiskid of the belt pulley module out of the system cylinder track; 321-antiskid blocks of the belt pulley module are arranged on the large belt of the cylinder of the antiskid system; 322-pulley module antiskid out of the big pulley antiskid block connecting rod of the system cylinder; 323-the pulley module is prevented from slipping out of the antiskid block of the power pulley of the system cylinder; 324-pulley module antiskid goes out of the system cylinder power pulley antiskid block connecting rod; 325-the pulley module is prevented from slipping out of the optical axis of the center plate of the system cylinder; 401-functional area module base; 402-functional area module spring system base; 403-functional area module spring system optical axis; 404-functional zone module spring system springs; 405-functional area module base optical axis; 406-functional area module upper backplane; 407-external support and support of the functional area module; 408-a functional zone module cylinder; 409-functional area module sliding functional bottom plate; 410-functional area module internal support; 411-functional area module slide rail; 412-functional area module lifting optical axis; 413-functional area module lifting bottom plate; 414-functional area module lift cylinder; 415-functional area module cross column; 416-functional area module top panel; 417-functional area module guardrail area bottom plate; 418-functional area module guardrail beam; 419-function area module guardrail posts; 420-function area module guardrail diagonal rod.
Detailed Description
The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.
Example (b): fig. 1 is a schematic view of the overall structure of the present invention, which includes a lower telescopic module 1, an upper telescopic module 2, a pulley module 3, and a functional area module 4, where the lower telescopic module 1 includes a lower telescopic module main body column 109; the telescopic module on the strut 2 comprises a telescopic module main body column on the strut 201 and a telescopic module cylinder on the strut 202; pulley module 3 comprises pulley module base 301, pulley module belt 302; the functional area module 4 includes a functional area module base 401; telescopic module main part post 109 under the pillar in the telescopic module 1 under the pillar and telescopic module cylinder 202 on the pillar in the telescopic module 2 on the pillar are fixedly installed, telescopic module main part post 201 on the pillar in the telescopic module 2 on the pillar and telescopic module main part post 109 under the pillar in the telescopic module 1 under the pillar form sliding fit, telescopic module main part post 109 under the pillar in the telescopic module 1 under the pillar and belt pulley module base 301 in the belt pulley module 3 are fixedly installed, belt pulley module belt 302 in the belt pulley module 3 and functional area module base 401 in the functional area module 4 are fixedly installed.
The post lower telescopic module 1 further comprises a post lower telescopic module optical axis rack assembly 101, a post lower telescopic module optical axis matching seat 102, a post lower telescopic module motor 103, a post lower telescopic module gear 104, a post lower telescopic module connecting rod seat 105, a post lower telescopic module connecting rod 106, a post lower telescopic module cushion block connecting rod 107 and a post lower telescopic module cushion block 108, wherein the post lower telescopic module optical axis rack assembly 101 and the post lower telescopic module main body rod 109 are fixedly arranged, the post lower telescopic module optical axis rack assembly 101 and the post lower telescopic module optical axis matching seat 102 form a sliding fit, the post lower telescopic module optical axis matching seat 102 and the post lower telescopic module motor 103 are fixedly arranged, the post lower telescopic module motor 103 and the post lower telescopic module gear 104 are fixedly arranged, the post lower telescopic module gear 104 and the post lower telescopic module optical axis rack assembly 101 form a gear fit, the lower telescopic module connecting rod seat 105 of the support column and the lower telescopic module optical axis matching seat 102 are fixedly installed, the lower telescopic module connecting rod 106 of the support column is rotatably installed on the lower telescopic module connecting rod seat 105 of the support column, the lower telescopic module connecting rod 106 of the support column is rotatably installed on the lower telescopic module cushion block connecting column 107 of the support column, and the lower telescopic module main body column 109 of the support column and the lower telescopic module cushion block 108 of the support column are fixedly installed. The module is mainly used for supplementing the telescopic function of the strut, when the telescopic function is completed, the lower telescopic module motor 103 of the strut drives the lower telescopic module gear 104 of the strut to rotate, the lower telescopic module gear 104 of the strut and the lower telescopic module optical axis rack assembly 101 of the strut form gear fit, the lower telescopic module optical axis rack assembly 101 of the strut and the lower telescopic module optical axis matching seat 102 of the strut form sliding fit, the lower telescopic module optical axis matching seat 102 of the strut does linear motion on the lower telescopic module optical axis rack assembly 101 of the strut at the moment, under the action of the lower telescopic module connecting rod 106 of the strut, the lower telescopic module cushion block connecting column 107 of the strut is lifted upwards, at the moment, the top of the lower telescopic module cushion block connecting column 107 of the strut props against the upper telescopic module main body column 201 of the strut, and the upper telescopic module main body column 201 of the strut can be prevented from sliding down.
The upper telescopic module 2 of the support column further comprises an upper telescopic module cylinder connection 203, an upper telescopic module window system cylinder connecting rod 204, an upper telescopic module window system cylinder 205, an upper telescopic module window system cross rod 206, an upper telescopic module window system cushion block 207, an upper telescopic module connecting rod 208, an upper telescopic module main body column 201 and an upper telescopic module cylinder connection 203, a lower telescopic module cylinder connection 203 and an upper telescopic module cylinder 202, a lower telescopic module window system cylinder 205 and an upper telescopic module window system cylinder connecting rod 204, a sliding fit is formed between the upper telescopic module main body column 201 and the upper telescopic module connecting rod 208, a fixed mounting is formed between the upper telescopic module main body column 201 and the upper telescopic module window system cylinder 205, a lower telescopic module window system cylinder 205 and an upper telescopic module window system cylinder connecting rod 204, an upper telescopic module window system cylinder connecting rod 204 and an upper telescopic module window system cross rod 206, a lower telescopic module window system cylinder connecting rod 204 and an upper telescopic module window system cylinder connecting rod 206 are fixed on the support column And (3) mounting, wherein the cross bar 206 of the telescopic module window system on the support column and the cushion block 207 of the telescopic module window system on the support column are fixedly mounted. This module mainly cooperates flexible module 1 under the pillar to accomplish the function, when the support is propped up to needs, flexible module cylinder 202 work on the pillar, flexible module main part post 201 on the jack-up pillar, flexible module main part post 201 rises on the pillar this moment, when needs shrink the pillar on the pillar flexible module during last spliced pole 208, flexible module window system cylinder 205 work on the pillar, flexible module window system cushion 207 takes out from the space on the pillar this moment, spliced pole 208 loses the support on the flexible module on the pillar this moment, the landing downwards, accomplish the shrink function.
Pulley module 3 further includes a pulley module motor mount 303, a pulley module motor 304, a pulley module motor connection pulley 305, a pulley module motor connection belt 306, a pulley module motor connection driven pulley 307, a pulley module motor connection driven pulley shaft 308, a pulley module motor connection driven pulley gear 309, a pulley module drive gear 310, a pulley module drive gear shaft 311, a pulley module lift gear 312, a pulley module lift gear shaft 313, a pulley module large pulley mount 314, a pulley module large pulley 315, a pulley module slip-out system cylinder 316, a pulley module slip-out system cylinder center plate 317, a pulley module slip-out system cylinder center plate optical shaft mount 318, a pulley module slip-out system cylinder connection plate 319, a pulley module slip-out system cylinder rail 320, a pulley module slip-out system cylinder rail 306, a pulley module slip-out system gear shaft mount 309, a pulley module drive gear shaft 311, a pulley module drive gear shaft, a pulley module lift gear shaft mount 312, a pulley module lift gear shaft mount, a pulley module drive gear, a pulley module drive gear, a pulley module, a pulley, A large belt cleat 321 for a pulley module anti-slip system cylinder, a large belt cleat connecting rod 322 for a pulley module anti-slip system cylinder, a power pulley cleat 323 for a pulley module anti-slip system cylinder, a power pulley cleat connecting rod 324 for a pulley module anti-slip system cylinder, a central plate optical axis 325 for a pulley module anti-slip system cylinder, a pulley module motor base 303 fixed with a pulley module motor 304, a pulley 305 fixed with a pulley module motor connection pulley 304, a pulley module motor connection pulley 305 tightly attached with a pulley module motor connection belt 306, a pulley module motor connection belt 306 tightly attached with a pulley module motor connection driven pulley 307, a pulley module motor connection driven pulley shaft 308 fixed with a pulley module motor connection driven pulley 307 fixed with a pulley module motor connection driven pulley shaft 309, a pulley module motor connection driven pulley shaft 308 connected with a pulley module motor connection driven pulley gear shaft 307 fixed with a pulley module motor connection driven pulley gear shaft Fixedly mounted, a pulley module motor is connected with a driven pulley shaft 308 and rotatably mounted on a pulley module base 301, a pulley module transmission gear shaft 311 is rotatably mounted on the pulley module base 301, a pulley module lifting gear shaft 313 is rotatably mounted on the pulley module base 301, a pulley module lifting gear 312 is fixedly mounted with the pulley module lifting gear shaft 313, the pulley module lifting gear shaft 313 is fixedly mounted with a pulley module large pulley 315, the pulley module lifting gear shaft 313 is rotatably mounted on a pulley module large pulley base 314, a pulley module anti-slip system cylinder 316 is fixedly mounted with the pulley module base 301, a pulley module anti-slip system cylinder 316 is fixedly mounted with a pulley module anti-slip system cylinder center plate, a pulley module anti-slip system cylinder center plate 317 is fixedly mounted with the pulley module anti-slip system cylinder center plate optical shaft base 318, the pulley module anti-slip system cylinder central plate optical axis seat 318 and the pulley module anti-slip system cylinder central plate optical axis 325 are fixedly installed, the pulley module anti-slip system cylinder track 320 and the pulley module anti-slip system cylinder central plate 317 are fixedly installed, the pulley module anti-slip system cylinder connecting plate 319 and the pulley module anti-slip system cylinder central plate optical axis 325 form a sliding fit, the pulley module anti-slip system cylinder large pulley anti-slip block connecting rod 322 and the pulley module anti-slip system cylinder connecting plate 319 are fixedly installed, the pulley module anti-slip system cylinder large belt anti-slip block 321 and the pulley module anti-slip system cylinder large belt anti-slip block connecting rod 322 are fixedly installed, the pulley module anti-slip system cylinder power pulley anti-slip block 323 and the pulley module anti-slip system cylinder power pulley anti-slip block connecting rod 324 are fixedly installed, the power belt pulley anti-skid block connecting rod 324 of the belt pulley module anti-skid system cylinder is fixedly installed with the belt pulley module anti-skid system cylinder connecting plate 319. The module is mainly used for lifting a functional area module 4, when lifting is needed, a belt pulley module motor 304 drives a belt pulley module motor connecting belt pulley 305 to rotate, the belt pulley module motor connecting belt pulley 305 drives a belt pulley module motor connecting driven belt pulley 307 to rotate through a belt pulley module motor connecting belt 306, the belt pulley module motor connecting driven belt pulley 309 rotates under the action of the belt pulley module motor connecting driven belt pulley shaft 308, a belt pulley module transmission gear 310 and a belt pulley module lifting gear 312 rotate under the action of gear matching, at the moment, the belt pulley module lifting gear 312 drives a belt pulley module big belt pulley 315 to rotate through a belt pulley module lifting gear shaft 313, the belt pulley module big belt pulley 315 is tightly attached to a belt 302 of the belt pulley module, and the belt pulley module big belt pulley 315 drives the belt pulley module 302 to move, this module still has the function that prevents the belt roll-off, belt pulley module antiskid goes out system cylinder 316 during operation, promote belt pulley module antiskid and go out system cylinder connecting plate 319 seesaw, belt pulley module antiskid goes out system cylinder big belt pulley antiskid ribbed tile connecting rod 322 and belt pulley module antiskid ribbed tile power belt pulley antiskid ribbed tile connecting rod 324 through belt pulley module antiskid out system cylinder big belt pulley antiskid ribbed tile 321 and belt pulley module antiskid out system cylinder power belt pulley antiskid ribbed tile 323 seesaw, belt pulley module antiskid out system cylinder big belt antiskid ribbed tile 321 and belt pulley module antiskid out system cylinder power belt pulley antiskid ribbed tile 323 can not promote the belt, prevent the belt roll-off.
The function area module 4 further comprises a function area module spring system base 402, a function area module spring system optical axis 403, a function area module spring system spring 404, a function area module base optical axis 405, a function area module upper base plate 406, a function area module external support 407, a function area module cylinder 408, a function area module sliding function base plate 409, a function area module internal strut 410, a function area module slide rail 411, a function area module lifting optical axis 412, a function area module lifting base plate 413, a function area module lifting cylinder 414, a function area module cross column 415, a function area module top plate 416, a function area module guardrail area base plate 417, a function area module guardrail cross beam 418, a function area module guardrail upright 419, a function area module guardrail diagonal 420, the function area module base 401 and the function area module spring system base 402 are fixedly mounted, the function area module spring system base 402 and the function area module spring system optical axis 403 are fixedly mounted, the functional area module spring system spring 404 is in sliding fit with the functional area module spring system optical axis 403, the functional area module base optical axis 405 is fixedly mounted with the functional area module base 401, the functional area module base optical axis 405 is in sliding fit with the functional area module upper base plate 406, the functional area module upper base plate 406 is fixedly mounted with the functional area module external support 407, the functional area module external support 407 is fixedly mounted with the functional area module lifting optical axis 412, the functional area module cylinder 408 is fixedly mounted with the functional area module upper base plate 406, the functional area module slide rail 411 is fixedly mounted with the functional area module upper base plate 406, the functional area module slide functional base plate 409 is in sliding fit with the functional area module slide rail 411, the functional area module slide functional base plate 409 is fixedly mounted with the functional area module internal support column 410, the functional area module cylinder 408 is fixedly mounted with the functional area module slide functional base plate 409, functional area module lifting cylinder 414 and functional area module lifting bottom plate 413 fixed mounting, functional area module lifting cylinder 414 and functional area module internal support pillar 410 fixed mounting, functional area module top plate 416 and functional area module external support 407 fixed mounting, functional area module guardrail area bottom plate 417 and functional area module upper bottom plate 406 fixed mounting, functional area module guardrail area bottom plate 417 and functional area module guardrail column 419 fixed mounting, functional area module guardrail column 419 and functional area module guardrail beam 418 fixed mounting, functional area module guardrail diagonal 420 and functional area module guardrail area bottom plate 417 fixed mounting. The module is mainly a functional area which is manually moved, the structure consisting of a functional area module spring system base 402, a functional area module spring system optical axis 403 and a functional area module spring system spring 404 can effectively absorb shock and prevent overlarge shaking during working, the functional area module lifting bottom plate 413 is a feeding area which can facilitate a worker to take materials, when material taking is needed, the functional area module cylinder 408 pushes the functional area module sliding functional bottom plate 409, the functional area module sliding functional bottom plate 409 slides on the functional area module slide rail 411, at this time, the functional area module lifting cylinder 414 pushes the functional area module lifting bottom plate 413, the functional area module lifting bottom plate 413 and the functional area module lifting optical axis 412 form sliding fit, at this time, the functional area module lifting bottom plate 413 moves up and down, therefore, the functional area module lifts the bottom plate 413 to move back and forth and up and down, so that the worker can conveniently take materials.
Pulley module anti-slip out system cylinder connecting plate 319 forms a sliding fit with pulley module anti-slip out system cylinder track 320. The pulley module motor is connected with a driven pulley gear 309 and a pulley module transmission gear 310 to form gear fit, the pulley module transmission gear 310 and a pulley module transmission gear shaft 311 are fixedly installed, and a pulley module lifting gear 312 and the pulley module transmission gear 310 form gear fit. The functional area module lifting base 413 forms a sliding fit with the functional area module lifting optical axis 412.

Claims (3)

1. The utility model provides an automatic scaffold for building, includes flexible module (1) under the pillar, flexible module (2) on the pillar, belt pulley module (3), functional area module (4), its characterized in that:
the lower telescopic module 1 comprises a lower telescopic module optical axis rack assembly (101), a lower telescopic module optical axis matching seat (102), a lower telescopic module motor (103), a lower telescopic module gear (104), a lower telescopic module connecting rod seat (105), a lower telescopic module connecting rod (106), a lower telescopic module cushion block connecting column (107), a lower telescopic module cushion block (108) and a lower telescopic module main body column (109), wherein the lower telescopic module optical axis rack assembly (101) and the lower telescopic module main body column (109) are fixedly arranged, the lower telescopic module optical axis rack assembly (101) and the lower telescopic module optical axis matching seat (102) form sliding fit, the lower telescopic module optical axis matching seat (102) and the lower telescopic module motor (103) are fixedly arranged, and the lower telescopic module motor (103) and the lower telescopic module gear (104) are fixedly arranged, a lower telescopic module gear (104) of the support column and a lower telescopic module optical axis rack assembly (101) of the support column form gear matching, a lower telescopic module connecting rod seat (105) of the support column and a lower telescopic module optical axis matching seat (102) of the support column are fixedly installed, a lower telescopic module connecting rod (106) of the support column is rotatably installed on the lower telescopic module connecting rod seat (105) of the support column, a lower telescopic module connecting rod (106) of the support column is rotatably installed on a lower telescopic module cushion block connecting column (107) of the support column, and a main body column (109) of the lower telescopic module of the support column and a lower telescopic module cushion block (108) of the support column are fixedly installed;
the telescopic module on the strut (2) comprises a telescopic module on the strut main body column (201), a telescopic module on the strut cylinder (202), a telescopic module on the strut cylinder connection (203), a telescopic module on the strut window system cylinder connecting rod (204), a telescopic module on the strut window system cylinder (205), a telescopic module on the strut window system cross rod (206), a telescopic module on the strut window system cushion block (207) and a telescopic module on the strut upper connecting column (208), wherein the telescopic module on the strut main body column (201) is fixedly installed with the telescopic module on the strut cylinder connection (203), the telescopic module on the strut cylinder connection (203) is fixedly installed with the telescopic module on the strut cylinder (202), the telescopic module on the strut main body column (201) and the telescopic module on the strut upper connecting column (208) form sliding fit, and the telescopic module on the strut main body column (201) and the telescopic module on the strut window system cylinder (205) form fixed installation, a telescopic module window system cylinder (205) on the support column and a telescopic module window system cylinder connecting rod (204) on the support column are fixedly arranged, the telescopic module window system cylinder connecting rod (204) on the support column and a telescopic module window system cross rod (206) on the support column are fixedly arranged, and the telescopic module window system cross rod (206) on the support column and a telescopic module window system cushion block (207) on the support column are fixedly arranged;
the belt pulley module (3) comprises a belt pulley module base (301), a belt pulley module belt (302), a belt pulley module motor base (303), a belt pulley module motor (304), a belt pulley module motor connecting belt pulley (305), a belt pulley module motor connecting belt (306), a belt pulley module motor connecting driven belt pulley (307), a belt pulley module motor connecting driven belt pulley shaft (308), a belt pulley module motor connecting driven belt pulley gear (309), a belt pulley module transmission gear (310), a belt pulley module transmission gear shaft (311), a belt pulley module lifting gear (312), a belt pulley module lifting gear shaft (313), a belt pulley module large belt pulley base (314), a belt pulley module large belt pulley (315), a belt pulley module anti-slipping system cylinder (316), a belt pulley module anti-slipping system cylinder central plate (317), A pulley module antiskid system cylinder central plate optical axis seat (318), a pulley module antiskid system cylinder connecting plate (319), a pulley module antiskid system cylinder track (320), a pulley module antiskid system cylinder large belt antiskid block (321), a pulley module antiskid system cylinder large belt antiskid block connecting rod (322), a pulley module antiskid system cylinder power belt pulley antiskid block (323), a pulley module antiskid system cylinder power belt pulley antiskid block connecting rod (324), a pulley module antiskid system cylinder central plate optical axis (325), a pulley module motor seat (303) is fixedly installed with a pulley module motor (304), a pulley module motor (304) is fixedly installed with a pulley module motor connecting belt pulley (305), the pulley module motor connecting belt pulley (305) is tightly attached with a pulley module motor connecting belt (306), a belt pulley module motor connecting belt (306) is tightly attached to a belt pulley module motor connecting driven belt pulley (307), a belt pulley module motor connecting driven belt pulley shaft (308) is fixedly installed with a belt pulley module motor connecting driven belt pulley gear (309), a belt pulley module motor connecting driven belt pulley shaft (308) is rotatably installed on a belt pulley module base (301), a belt pulley module transmission gear shaft (311) is rotatably installed on the belt pulley module base (301), a belt pulley module pull-up gear shaft (313) is rotatably installed on the belt pulley module base (301), a belt pulley module lifting gear (312) is fixedly installed with a belt pulley module pull-up gear shaft (313), and a belt pulley module pull-up gear shaft (313) is fixedly installed with a belt pulley module large belt pulley (315), a pulley module lifting gear shaft (313) is rotatably arranged on a large pulley seat (314) of the pulley module, an antiskid system cylinder (316) of the pulley module is fixedly arranged with a base (301) of the pulley module, an antiskid system cylinder (316) of the pulley module is fixedly arranged with a central plate (317) of the antiskid system cylinder of the pulley module, the central plate (317) of the antiskid system cylinder of the pulley module is fixedly arranged with a light shaft seat (318) of the central plate of the antiskid system cylinder of the pulley module, the light shaft seat (318) of the central plate of the antiskid system cylinder of the pulley module is fixedly arranged with a light shaft (325) of the central plate of the antiskid system cylinder of the pulley module, a track (320) of the antiskid system cylinder of the pulley module is fixedly arranged with the central plate (317) of the antiskid system cylinder of the pulley module, an antiskid system cylinder connecting plate (319) of the antiskid system cylinder of the pulley module forms sliding fit with the light shaft (325) of the central plate of the antiskid system cylinder of the pulley module, a large belt pulley anti-slip block connecting rod (322) of a belt pulley module anti-slip system cylinder and a belt pulley module anti-slip system cylinder connecting plate (319) are fixedly installed, a large belt anti-slip block (321) of the belt pulley module anti-slip system cylinder and a large belt pulley anti-slip block connecting rod (322) of the belt pulley module anti-slip system cylinder are fixedly installed, a power belt pulley anti-slip block (323) of the belt pulley module anti-slip system cylinder and a power belt pulley anti-slip block connecting rod (324) of the belt pulley module anti-slip system cylinder are fixedly installed, and a power belt pulley anti-slip block connecting rod (324) of the belt pulley module anti-slip system cylinder and a belt pulley module anti-slip system cylinder connecting plate (319) are fixedly installed;
the functional area module (4) comprises a functional area module base (401), a functional area module spring system base (402), a functional area module spring system optical axis (403), a functional area module spring system spring (404), a functional area module base optical axis (405), a functional area module upper base plate (406), a functional area module external support (407), a functional area module cylinder (408), a functional area module sliding functional base plate (409), a functional area module internal strut (410), a functional area module sliding rail (411), a functional area module lifting optical axis (412), a functional area module lifting base plate (413), a functional area module lifting cylinder (414), a functional area module transverse strut (415), a functional area module top plate (416), a functional area module guardrail area base plate (417), a functional area module guardrail cross beam (418), a functional area module guardrail stand column (419), A function area module guardrail diagonal rod (420), a function area module base (401) and a function area module spring system base (402) are fixedly installed, the function area module spring system base (402) and a function area module spring system optical axis (403) are fixedly installed, a function area module spring system spring (404) and the function area module spring system optical axis (403) form a sliding fit, a function area module base optical axis (405) and the function area module base (401) are fixedly installed, the function area module base optical axis (405) and a function area module upper base plate (406) form a sliding fit, the function area module upper base plate (406) and a function area module external support (407) are fixedly installed, the function area module external support (407) and a function area module lifting optical axis (412) are fixedly installed, a function area module cylinder (408) and the function area module upper base plate (406) are fixedly installed, a function area module slide rail (411) and a function area module upper bottom plate (406) are fixedly installed, a function area module slide function bottom plate (409) and the function area module slide rail (411) form slide fit, a function area module slide function bottom plate (409) and a function area module inner strut (410) are fixedly installed, a function area module cylinder (408) and a function area module slide function bottom plate (409) are fixedly installed, a function area module lifting cylinder (414) and a function area module lifting bottom plate (413) are fixedly installed, a function area module lifting cylinder (414) and a function area module inner strut (410) are fixedly installed, a function area module top plate (416) and a function area module outer support (407) are fixedly installed, a function area module guardrail area bottom plate (417) and a function area module upper bottom plate (406) are fixedly installed, a function area module guardrail area bottom plate (417) and a function area module guardrail upright (419) are fixedly installed, the function area module guardrail upright post (419) is fixedly installed with the function area module guardrail cross beam (418), the function area module guardrail diagonal rod (420) is fixedly installed with the function area module guardrail cross beam (418), and the function area module guardrail diagonal rod (420) is fixedly installed with the function area module guardrail area bottom plate (417);
telescopic module main part post (109) under the pillar in telescopic module (1) under the pillar and telescopic module cylinder (202) fixed mounting on the pillar in telescopic module (2) on the pillar, telescopic module main part post (201) under the pillar in telescopic module (2) on the pillar and telescopic module main part post (109) under the pillar in telescopic module (1) form sliding fit, telescopic module main part post (109) under the pillar in telescopic module (1) under the pillar and belt pulley module base (301) fixed mounting in belt pulley module (3), belt pulley module belt (302) in belt pulley module (3) and functional area module base 401 fixed mounting in functional area module (4).
2. An automatic scaffold for construction according to claim 1, characterized in that: the pulley module lifting gear (312) forms a gear fit with a pulley module drive gear (310).
3. An automatic scaffold for construction according to claim 1, characterized in that: the functional area module lifting bottom plate (413) and the functional area module lifting optical axis (412) form sliding fit.
CN202011345132.XA 2020-11-25 2020-11-25 Automatic scaffold for building Active CN112360126B (en)

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KR101036659B1 (en) * 2008-10-23 2011-05-25 삼성중공업 주식회사 Elevating work platform
CN102400548B (en) * 2011-11-17 2014-01-15 柳雪春 Four-lead screw lifting device
CN111851973A (en) * 2019-04-29 2020-10-30 青岛塔沃工程机械有限公司 Intelligent attached lifting construction platform
CN110374315A (en) * 2019-07-24 2019-10-25 黄光平 A kind of construction security platform
CN111749527B (en) * 2020-07-10 2021-07-13 浙江德宝通讯科技股份有限公司 Support and communication tower are consolidated to pylon

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