CN207541837U - A kind of assembled architecture on-site hoisting actual training device - Google Patents
A kind of assembled architecture on-site hoisting actual training device Download PDFInfo
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- CN207541837U CN207541837U CN201721320565.3U CN201721320565U CN207541837U CN 207541837 U CN207541837 U CN 207541837U CN 201721320565 U CN201721320565 U CN 201721320565U CN 207541837 U CN207541837 U CN 207541837U
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- column
- crossbeam
- assembled architecture
- sliding rack
- frame
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Abstract
The utility model is related to a kind of assembled architecture on-site hoisting actual training devices,Including steel construction door frame,Slide frame mechanism,Lifting components and steel wire rope,Steel construction door frame is by crossbeam,Stull pedestal,Left column and right column composition,Left column and right column respectively include column support,Pedestal,Guide rail,Rail brackets,Lower connecting plate and postive stop baffle,Right column frame further includes column sheave,Bracket of hoisting machine and hoist engine,Frame mechanism is slided by sliding rack crossbeam,Two sliding rack sheaves,Guide shoe,Differential mechanism,Magnetic powder brake,Turning machine,Slip ring,Hanging ring,Photoelectric limit switch forms,Crossbeam pulley base bottom is respectively fixed with steel wire rope,Steel wire rope passes through its corresponding sliding rack transport of grain by water to the capital in former times respectively,Crossbeam pulley,Column sheave is connected with hoist engine,The utility model passes through to hoist engine,Various pulleys,Guide rail,Differential mechanism,Magnetic powder brake,The ingenious application of the equipment such as turning machine,It simulates in assembled architecture operation,Lifting components rise and fall and the various actions of rotation.
Description
Technical field
The utility model is related to build simulation and training field, more specifically a kind of assembled architecture on-site hoisting real training
Device.
Background technology
With the maturation of system simulation technology, simulated training starts more to apply in various trainings, and assembled is built
Building has the technical merit of operating personnel higher requirement, and beginner's operation difficulty is big, and has larger danger, this is just needed
Design one kind can meet assembled architecture operator beginner training requirement and have dangerous equipment, currently for
Assembled architecture worker gives the relevant device of teaching training, and assembled architecture worker is passed through on the spot in engineering under normal circumstances
Working method gradually learning art, this mode of learning period is longer, and must have related architectural engineering to coordinate, restriction condition
More, of high cost, assembled architecture worker beginner, which is directly entered building site work, also has larger danger.
Invention content
The goal of the invention of the utility model is, for shortcoming of the prior art, to provide a kind of assembled architecture and show
Field lifting actual training device
The utility model is achieved through the following technical solutions:
A kind of assembled architecture on-site hoisting actual training device including steel construction door frame, slides frame mechanism, lifting components and steel
Cord, the steel construction door frame are made of crossbeam, stull pedestal, left column and right column, and the crossbeam is including on cross beam frame, two
Connecting plate, two crossbeam pulleys, two upper junction plate are separately positioned on the lower section at cross beam frame both ends, and the two crossbeams pulley passes through
Crossbeam pulley base is arranged on both sides above cross beam frame;The left column and right column respectively include column support, pedestal, guide rail, lead
Rail stent, lower connecting plate and postive stop baffle, the pedestal are arranged on the bottom of column support, and the lower connecting plate is arranged on column support
The top of madial wall, the lower connecting plate coordinate with upper junction plate, and the postive stop baffle is arranged on the side wall of column support, described
Right column frame further includes column sheave, bracket of hoisting machine and hoist engine, and the column sheave is arranged on outside the column support of right column
The top of side wall, the hoist engine are arranged on the column support lateral wall bottom of right column by bracket of hoisting machine;The sliding rack
Mechanism is by sliding rack crossbeam, two sliding rack sheaves, guide shoe, differential mechanism, magnetic powder brake, turning machine, slip ring, hanging ring, photoelectricity
Limit switch forms, and the guide shoe is arranged on the both ends of sliding rack crossbeam, and two sliding rack sheaves are separately positioned on sliding rack horizontal stroke
The both ends of beam upper surface, the magnetic powder brake, differential mechanism, turning machine be sequentially connected and be arranged on two sliding rack sheaves it
Between, the steering motor spindle is equipped with slip ring and hanging ring, and the photoelectric limit switch is arranged on sliding rack beam side wall end, described
Lifting components are flexibly connected by rope with hanging ring, and the crossbeam pulley base bottom is respectively fixed with steel wire rope, the steel wire rope
It is connected respectively by its corresponding sliding rack transport of grain by water to the capital in former times, crossbeam pulley, column sheave with hoist engine.
Further, it is additionally provided with catching device on the side wall of above-mentioned column support.
Further, the column support lateral wall of above-mentioned right column is equipped with rope guard.
Further, above-mentioned lifting components include component framework and cover board, and the cover board is arranged on the both sides of framework frame,
The top of the component framework is equipped with retainer ring.
Further, stull pedestal is equipped between above-mentioned two pedestal.
Further, it is additionally provided with reinforcing plate between above-mentioned pedestal and column support.
Further, above-mentioned hoist engine is connected with console.
Further, above-mentioned cross beam frame is equipped with drag chain stent.
The beneficial effects of the utility model are:
The utility model passes through to hoist engine, crossbeam pulley, column sheave, sliding rack sheave, guide rail, differential mechanism, magnetic powder
The ingenious application of the equipment such as brake, turning machine, simulates in assembled architecture operation, lifting components rise and fall and rotation
Various actions;Student is equipped with the picture of virtual emulation, to learn by the placement operation to pendulous lifting components model
The laying method of assembled architecture lifting components in actual work, the present invention correctly simulate assembled architecture worker scene and apply
The course of work of work is the research for having much innovative significance as the training apparatus of assembled architecture worker.
For current assembled architecture worker building-site training mode, the present invention be applied to assembled architecture worker
Training is equivalent to dangerous higher building site learning performance being converted to office operation, substantially increases the safety of student's study
Property, while the present invention is equipped with safety caging device at two, makes equipment running process more reliable.
The mechanical structure planning and designing of the utility model are reasonable, sound construction and floor space is small, highly less than common room
Room is always high, and equipment is placed not by site influence, more convenient for student training.
The utility model uses assembly type modularized design thinking, and dismounting is easy to assembly quick, is easily portable.
Description of the drawings
FIG. 1 is a schematic structural view of the utility model;
Fig. 2 is the utility model steel construction door frame structure diagram;
Fig. 3 is the utility model beam structure schematic diagram;
Fig. 4 is the utility model left column structure diagram;
Fig. 5 is the utility model right column structure diagram;
Fig. 6 is the utility model sliding rack mechanism structure schematic diagram;
Fig. 7 is the utility model lifting components structure diagram;
In figure:1- crossbeams, 2- stull pedestals, 3- left columns, 4- right columns, 5- cross beam frames, 6- upper junction plates, 7- crossbeams are slided
Wheel, 8- crossbeam pulley bases, 9- column supports, 10- pedestals, 11- guide rails, 12- rail brackets, 13- lower connecting plates, 14- postive stop baffles,
15- column sheaves, 16- bracket of hoisting machine, 17- hoist engines, 18- sliding rack crossbeams, 19- sliding rack sheaves, 20- guide shoes, 21- are poor
Fast device, 22- magnetic powder brakes, 23- turning machines, 24- slip rings, 25- hanging rings, 26- photoelectric limit switch, 27- steel wire ropes, 28- prevent
Pendant device, 29- rope guards, 30- component frameworks, 31- cover boards, 32- retainer rings, 33- reinforcing plates, 34- drag chain stents, 35- are hung
Fill component.
Specific embodiment
The utility model is described further in the following with reference to the drawings and specific embodiments, so that those skilled in the art can
To be better understood by the utility model, but it is not intended to limit the scope of the present invention.
Unless stated otherwise, technological means used by the utility model is this field conventional technology.
In the description of the present invention, it should be noted that term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ",
The orientation or position relationship of the instructions such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer " are
Based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description rather than instruction or dark
Show that signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that right
The limitation of the present invention.
A kind of assembled architecture on-site hoisting actual training device including steel construction door frame, slides frame mechanism, lifting components and steel
Cord, the steel construction door frame are made of crossbeam 1, stull pedestal 2, left column 3 and right column 4, and the crossbeam 1 includes cross beam frame
5th, two upper junction plates 6, two crossbeam pulleys 7, two upper junction plate 6 are separately positioned on the lower section at 5 both ends of cross beam frame, and described two is horizontal
Beam pulley 7 is arranged on 5 top both sides of cross beam frame by crossbeam pulley base 8;The left column 3 and right column 4 respectively include column
Frame 9, pedestal 10, guide rail 11, rail brackets 12, lower connecting plate 13 and postive stop baffle 14, the pedestal 10 are arranged on column support 9
Bottom is additionally provided with reinforcing plate 33, stull pedestal 2, the lower connecting plate is equipped between two pedestals 10 between pedestal 10 and column support 9
13 are arranged on the top of 9 madial wall of column support, and the lower connecting plate 13 coordinates with upper junction plate 6, and the postive stop baffle 14 is set
On the side wall of column support 9,4 frame of right column further includes column sheave 15, bracket of hoisting machine 16 and hoist engine 17, described vertical
Column sheave 15 is arranged on the top of 9 lateral wall of column support of right column 4, and the hoist engine 17 is arranged on by bracket of hoisting machine 16
The 9 lateral wall bottom of column support of right column 4 is additionally provided with catching device 28,9 outside of column support of right column 4 on the side wall of column support 9
Wall is equipped with rope guard 29, and the cross beam frame 5 is equipped with drag chain stent 34.
The slip frame mechanism is by sliding rack crossbeam 18, two sliding rack sheaves 19, guide shoe 20, differential mechanism 21, magnetic powder systems
Dynamic device 22, turning machine 23, slip ring 24, hanging ring 25, photoelectric limit switch 26 form, and the guide shoe 20 is arranged on sliding rack crossbeam 18
Both ends, two sliding rack sheaves 19 are separately positioned on the both ends of 18 upper surface of sliding rack crossbeam, the magnetic powder brake 22, poor
Fast device 21, turning machine 23 are sequentially connected and are arranged between two sliding rack sheaves 19, and 23 bottom of turning machine is equipped with slip ring
24 and hanging ring 25, the photoelectric limit switch 26 be arranged on 18 side wall ends of sliding rack crossbeam, the lifting components 35 pass through rope
Rope is flexibly connected with hanging ring 25, and 8 bottom of crossbeam pulley base is respectively fixed with steel wire rope 27, and the steel wire rope 27 passes through respectively
Its corresponding sliding rack transport of grain by water to the capital in former times 19, crossbeam pulley 7, column sheave 15 and hoist engine 17 connect, and hoist engine 17 is connected with console;
Above-mentioned lifting components 35 include component framework 30 and cover board 31, and the cover board 31 is arranged on the both sides of framework frame 30, the structure
The top of part frame 30 is equipped with retainer ring 32.
The utility model can simulate the up and down, swing and rotation of lifting components, when lifting components is required to rise,
Hoist engine is slowly pulled back steel wire rope, and the entire frame mechanism that slides rises along two side rails, so as to which lifting components be driven to rise;When requiring
When lifting components decline, hoist engine slow release steel wire rope, the entire frame mechanism that slides declines, and lifting components then follow sliding rack machine
Structure declines.During rising or decline, differential and motor applies torque, lifting components by turning machine to lifting components
It under the action of this torque, slowly swings or rotates centered on turning machine axis, thus simulate lifting structure
The real motion state of part;Since the lifting components weight of real assembled architecture is very big, pushes away and put away relatively elaborate, and this reality
Lighter with novel lifting components, truer to simulate, the magnetic powder brake for being connected to the differential mechanism left side is entire lifting structure
The rotation of part provides resistance, and the dynamics of putting is pushed away so as to increase lifting components.
Claims (8)
1. a kind of assembled architecture on-site hoisting actual training device, it is characterised in that:Including steel construction door frame, slide frame mechanism, hang
Dress component and steel wire rope, the steel construction door frame are made of crossbeam, stull pedestal, left column and right column, and the crossbeam includes
Cross beam frame, two upper junction plates, two crossbeam pulleys, two upper junction plate are separately positioned on the lower section at cross beam frame both ends, and described two
Crossbeam pulley is arranged on both sides above cross beam frame by crossbeam pulley base;The left column and right column respectively include column support,
Pedestal, guide rail, rail brackets, lower connecting plate and postive stop baffle, the pedestal are arranged on the bottom of column support, the lower connecting plate
The top of column support madial wall is arranged on, the lower connecting plate coordinates with upper junction plate, and the postive stop baffle is arranged on column support
Side wall on, the right column frame further includes column sheave, bracket of hoisting machine and hoist engine, and the column sheave is arranged on right vertical
The top of the column support lateral wall of column, the hoist engine are arranged on the column support lateral wall bottom of right column by bracket of hoisting machine
Portion;The slip frame mechanism is by sliding rack crossbeam, two sliding rack sheaves, guide shoe, differential mechanism, magnetic powder brake, turning machine, cunnings
Ring, hanging ring, photoelectric limit switch composition, the guide shoe are arranged on the both ends of sliding rack crossbeam, and two sliding rack sheaves are set respectively
It puts at the both ends of sliding rack beam surface upper, the magnetic powder brake, differential mechanism, turning machine are sequentially connected and are arranged on two cunnings
Between moving frame sheave, the steering motor spindle is equipped with slip ring and hanging ring, and the photoelectric limit switch is arranged on sliding rack crossbeam side
Wall end, the lifting components are flexibly connected by rope with hanging ring, and the crossbeam pulley base bottom is respectively fixed with steel wire rope,
The steel wire rope is connected respectively by its corresponding sliding rack transport of grain by water to the capital in former times, crossbeam pulley, column sheave with hoist engine.
2. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The column support
Side wall on be additionally provided with catching device.
3. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The right column
Column support lateral wall be equipped with rope guard.
4. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The lifting structure
Part includes component framework and cover board, and the cover board is arranged on the both sides of framework frame, and the top of the component framework, which is equipped with, to be fixed
Ring.
5. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:Two pedestal
Between be equipped with stull pedestal.
6. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The pedestal with
Reinforcing plate is additionally provided between column support.
7. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The hoist engine
It is connected with console.
8. a kind of assembled architecture on-site hoisting actual training device according to claim 1, it is characterised in that:The cross beam frame
It is equipped with drag chain stent.
Priority Applications (1)
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CN201721320565.3U CN207541837U (en) | 2017-10-13 | 2017-10-13 | A kind of assembled architecture on-site hoisting actual training device |
Applications Claiming Priority (1)
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CN201721320565.3U CN207541837U (en) | 2017-10-13 | 2017-10-13 | A kind of assembled architecture on-site hoisting actual training device |
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Publication Number | Publication Date |
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CN207541837U true CN207541837U (en) | 2018-06-26 |
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ID=62610467
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CN201721320565.3U Active CN207541837U (en) | 2017-10-13 | 2017-10-13 | A kind of assembled architecture on-site hoisting actual training device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111583759A (en) * | 2020-06-18 | 2020-08-25 | 上海震旦职业学院 | Embedded training equipment for manufacturing nodes of assembled building components |
CN112365786A (en) * | 2020-11-05 | 2021-02-12 | 王蓉蓉 | Teaching and practical training device for assembling of beam column of fabricated building |
-
2017
- 2017-10-13 CN CN201721320565.3U patent/CN207541837U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111583759A (en) * | 2020-06-18 | 2020-08-25 | 上海震旦职业学院 | Embedded training equipment for manufacturing nodes of assembled building components |
CN112365786A (en) * | 2020-11-05 | 2021-02-12 | 王蓉蓉 | Teaching and practical training device for assembling of beam column of fabricated building |
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