CN106205352A - Construction safety channel pattern and manufacture method - Google Patents
Construction safety channel pattern and manufacture method Download PDFInfo
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- CN106205352A CN106205352A CN201610750115.1A CN201610750115A CN106205352A CN 106205352 A CN106205352 A CN 106205352A CN 201610750115 A CN201610750115 A CN 201610750115A CN 106205352 A CN106205352 A CN 106205352A
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- simulation
- cross bar
- vertical rod
- bar
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G21/00—Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
- E04G21/32—Safety or protective measures for persons during the construction of buildings
- E04G21/3204—Safety or protective measures for persons during the construction of buildings against falling down
- E04G21/3209—Temporary tunnels specially adapted against falling objects
-
- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B25/00—Models for purposes not provided for in G09B23/00, e.g. full-sized devices for demonstration purposes
- G09B25/04—Models for purposes not provided for in G09B23/00, e.g. full-sized devices for demonstration purposes of buildings
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- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Business, Economics & Management (AREA)
- Physics & Mathematics (AREA)
- Educational Administration (AREA)
- Educational Technology (AREA)
- General Physics & Mathematics (AREA)
- Theoretical Computer Science (AREA)
- Mechanical Engineering (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Instructional Devices (AREA)
Abstract
Construction safety channel pattern and manufacture method are to give training and design for carrying out aided education and the rural migrant worker for construction enterprises, belong to vocational education facility field;Construction safety channel pattern by simulate protective plate, simulation vertical rod, the longitudinal cross bar of simulation, simulate horizontal cross bar, simulation brace sweeps the floor what bar formed with simulating;Simulation protective plate is arranged on the horizontal cross bar of simulation;Simulate on the framework of the composition that horizontal cross bar is erected at simulation vertical rod, the longitudinal cross bar of simulation, simulation brace;Simulation protective plate cross bar longitudinal with simulation, to simulate bar of sweeping the floor parallel;Simulation vertical rod cross bar longitudinal with simulation, simulate horizontal cross bar, simulate brace and simulation bar of sweeping the floor intersects vertically;Simulation brace and simulation vertical rod, simulation longitudinal direction cross bar, simulate that horizontal cross bar is oblique to intersect;The invention has the beneficial effects as follows and make university students or rural migrant worker be imparted knowledge to students by model display, escape way is configured with directly understanding, it is simple to understand.
Description
Technical field
The present invention is construction safety channel pattern and manufacture method, is for carrying out aided education and being construction enterprises
Rural migrant worker give training and design, belong to vocational education facility field.
Background technology
The position that ground running personnel are more in the position, gateway and construction area in construction site will arrange peace
Full tunnel, is mainly arranged the injury of walking person for preventing the falling object from high altitude in work progress from causing;Due to safety
Passage important, one of " four mouthfuls " of being put into security concern zone of protection;Owing to escape way needs construction manager existing
Field designed, designed, sets up voluntarily, and this is not for having the university students of practical experience, and the rural migrant worker having not been entered into duty comes
Saying, difficulty is the biggest, but wants to allow them understand and grasp the structure of escape way to be really not easy;China's architectural engineering class
Teaching in University adopt that to lecture be main teaching method, although China Higher and middle vocational education in recent years has imparting knowledge to students always
Broken through, be have employed the Informalized teaching means such as multimedia, be provided with some Teaching Circumstances, but break away from the most at all and to lecture be
Main teaching model;For making education can catch up with the paces of China's economic development, a collection of application technology university is transformed in country's decision-making, this
The a little teacher of university, facilities are all arranged according to elite formula training mode, want to press close to construction teaching, and difficulty is the biggest;Another
Aspect, the issuing and implementation planned along with the industry 2025 of China, country strengthens the training request to rural migrant worker in recent years, and
The inspection of enterprise in charge of construction is examined and puts more effort, but enterprise in charge of construction is difficult to tissue to the escape way of rural migrant worker
Training, the current facility of application technology university, School of High Profession Technology, middle vocational school can not meet the rural migrant worker's safety being engaged in building industry
Passage design and the training request set up.
The construction safety channel pattern that the present invention provides can solve these problems.
Summary of the invention
The specific practice of this programme is:
Use construction safety channel pattern as shown in Figure 1, by simulation protective plate 1, simulation vertical rod 2, the longitudinal cross bar of simulation
3, simulate horizontal cross bar 4, simulation brace 5 sweeps the floor what bar 6 formed with simulation;By simulation vertical rod 2, the longitudinal cross bar 3 of simulation, simulation horizontal stroke
To cross bar 4, simulation brace 5 and simulate after bar 6 of sweeping the floor sets up into the framework of simulating Safety passage, at the framework of simulating Safety passage
Top set up two-layer simulation protective plate 1;Simulation protective plate 1 is arranged on the horizontal cross bar 4 of simulation;Simulate horizontal cross bar
On the framework of 4 compositions being erected at simulation vertical rod 2, the longitudinal cross bar 3 of simulation, simulation brace 5;Simulation protective plate 1 is with simulation longitudinally
Cross bar 3, simulation bar 6 of sweeping the floor are parallel;Simulate vertical rod 2 cross bar 3 longitudinal with simulation, simulate horizontal cross bar 4, simulation brace 5 and simulate
Bar 6 of sweeping the floor intersects vertically;Simulation brace 5 and simulation vertical rod 2, simulation longitudinal direction cross bar 3, simulate that horizontal cross bar 4 is oblique to intersect.
Simulation protective plate 1 is the plate-like portion that two ends are erected on the longitudinal cross bar 3 of simulation and cross bar 3 longitudinal with simulation is connected
Part;Simulation protective plate 1 is arranged together with simulation about 3 points two-layers of longitudinal cross bar, is separately positioned on the top of simulation vertical rod 2 and upper
Portion;Two-layer simulation protective plate 1 is parallel to each other, and cross bar 3 longitudinal with simulation intersects vertically.
Simulation vertical rod 2 is along the longitudinally vertically disposed rod-like members in discrete both sides;Simulation vertical rod 2 is at top and upper end bearing
The position of simulation protective plate 1, cross bar 3 longitudinal with simulation and the horizontal cross bar 4 of simulation intersect vertically respectively, oblique with simulation brace 5
Intersect;Intersect vertically at the longitudinal cross bar 3 of middle part layering and simulation;Intersect vertically at Near Ground and simulation bar 6 of sweeping the floor.
The longitudinal cross bar 3 of simulation is along the horizontally disposed rod-like members on both sides the most respectively;The longitudinal cross bar 3 of simulation is on top
With the position of upper end bearing simulation protective plate 1, intersect vertically with simulation vertical rod 2 and the horizontal cross bar 4 of simulation respectively, with simulation brace
5 is oblique crossing;Intersect vertically with simulation vertical rod 2 in middle part layering;The longitudinal cross bar 3 of simulation is arranged on the inner side of simulation vertical rod 2.
Simulating horizontal cross bar 4 is along the rod-like members arranged at the top of simulation vertical rod 2 and upper level the most respectively;Mould
Intending horizontal cross bar 4 top intersect vertically with simulation protective plate 1 and be connected, bottom cross bar 3 longitudinal with simulation intersects vertically and is connected,
Two ends intersect vertically with simulation vertical rod 2 and are connected, middle part with simulate that brace 5 is oblique is connected.
Simulation brace 5 is angularly disposed rod-like members;The upper end of simulation brace 5 is connected with simulating horizontal cross bar 4, lower end
Cross bar 3 longitudinal with simulation vertical rod 2 and simulation is connected.
Simulating bar 6 of sweeping the floor is the stem arranged at both sides vertical equity the most respectively on the edge of the lower end of simulation vertical rod 2
Part;Simulate bar 6 of sweeping the floor to arrange in the outside of simulation vertical rod 2, intersect vertically with simulation vertical rod 2.
The manufacture method of construction safety channel pattern is, first surveys and sets the position that simulation is swept the floor bar 6 and simulated vertical rod 2,
Make simulation sweep the floor bar 6 with simulation vertical rod 2 intersect vertically and be connected;It is taken up in order of priority again and the longitudinal cross bar of each layer simulation is installed from bottom to top
3, horizontal cross bar 4, simulation brace 5 are simulated;Check each connection node, confirm node connect can rearward, install from bottom to top upper end,
Top supporting simulation protective plate 1;Supporting simulation protective plate 1 is connected reliably with simulating horizontal cross bar 4.
The invention has the beneficial effects as follows and make university students or rural migrant worker be imparted knowledge to students by model display, escape way is configured with directly
The understanding connect, it is simple to understand.
Accompanying drawing explanation
Fig. 1 construction safety channel pattern schematic diagram.
In figure: 1-simulates protective plate;2-simulates vertical rod;The longitudinal cross bar of 3-simulation;4-simulates horizontal cross bar;5-simulation is tiltedly
Bar;6-simulates bar of sweeping the floor.
Detailed description of the invention
Embodiment
Certain university's designed, designed uses construction safety channel pattern as shown in Figure 1, by simulation protective plate 1, mould
Intend vertical rod 2, the longitudinal cross bar 3 of simulation, simulate horizontal cross bar 4, bar 6 composition is swept the floor in simulation brace 5 and simulation;By simulation vertical rod 2,
The longitudinal cross bar 3 of simulation, simulate horizontal cross bar 4, simulation brace 5 and simulate bar 6 of sweeping the floor and set up into the framework of simulating Safety passage after,
Two-layer simulation protective plate 1 is set up at the top of the framework of simulating Safety passage;Simulation protective plate 1 is arranged on simulation laterally
On cross bar 4;Simulate on the framework of the composition that horizontal cross bar 4 is erected at simulation vertical rod 2, the longitudinal cross bar 3 of simulation, simulation brace 5;Mould
Intend protective plate 1 cross bar 3 longitudinal with simulation, to simulate bar 6 of sweeping the floor parallel;Simulation vertical rod 2 and the longitudinal cross bar 3 of simulation, simulation laterally horizontal stroke
Bar 4, simulation brace 5 and simulation bar 6 of sweeping the floor intersect vertically;Simulation brace 5 and simulation vertical rod 2, the longitudinal cross bar 3 of simulation, simulation horizontal stroke
Oblique crossing to cross bar 4.
Simulation protective plate 1 is the plate-like portion that two ends are erected on the longitudinal cross bar 3 of simulation and cross bar 3 longitudinal with simulation is connected
Part;Simulation protective plate 1 is arranged together with simulation about 3 points two-layers of longitudinal cross bar, is separately positioned on the top of simulation vertical rod 2 and upper
Portion;Two-layer simulation protective plate 1 is parallel to each other, and cross bar 3 longitudinal with simulation intersects vertically.
Simulation vertical rod 2 is along the longitudinally vertically disposed rod-like members in discrete both sides;Simulation vertical rod 2 is at top and upper end bearing
The position of simulation protective plate 1, cross bar 3 longitudinal with simulation and the horizontal cross bar 4 of simulation intersect vertically respectively, oblique with simulation brace 5
Intersect;Intersect vertically at the longitudinal cross bar 3 of middle part layering and simulation;Intersect vertically at Near Ground and simulation bar 6 of sweeping the floor.
The longitudinal cross bar 3 of simulation is along the horizontally disposed rod-like members on both sides the most respectively;The longitudinal cross bar 3 of simulation is on top
With the position of upper end bearing simulation protective plate 1, intersect vertically with simulation vertical rod 2 and the horizontal cross bar 4 of simulation respectively, with simulation brace
5 is oblique crossing;Intersect vertically with simulation vertical rod 2 in middle part layering;The longitudinal cross bar 3 of simulation is arranged on the inner side of simulation vertical rod 2.
Simulating horizontal cross bar 4 is along the rod-like members arranged at the top of simulation vertical rod 2 and upper level the most respectively;Mould
Intending horizontal cross bar 4 top intersect vertically with simulation protective plate 1 and be connected, bottom cross bar 3 longitudinal with simulation intersects vertically and is connected,
Two ends intersect vertically with simulation vertical rod 2 and are connected, middle part with simulate that brace 5 is oblique is connected.
Simulation brace 5 is angularly disposed rod-like members;The upper end of simulation brace 5 is connected with simulating horizontal cross bar 4, lower end
Cross bar 3 longitudinal with simulation vertical rod 2 and simulation is connected.
Simulating bar 6 of sweeping the floor is the stem arranged at both sides vertical equity the most respectively on the edge of the lower end of simulation vertical rod 2
Part;Simulate bar 6 of sweeping the floor to arrange in the outside of simulation vertical rod 2, intersect vertically with simulation vertical rod 2.
The manufacture method of construction safety channel pattern is, first surveys and sets the position that simulation is swept the floor bar 6 and simulated vertical rod 2,
Make simulation sweep the floor bar 6 with simulation vertical rod 2 intersect vertically and be connected;It is taken up in order of priority again and the longitudinal cross bar of each layer simulation is installed from bottom to top
3, horizontal cross bar 4, simulation brace 5 are simulated;Check each connection node, confirm node connect can rearward, install from bottom to top upper end,
Top supporting simulation protective plate 1;Supporting simulation protective plate 1 is connected reliably with simulating horizontal cross bar 4.
Claims (8)
1. construction safety channel pattern, is characterized in that, by simulation protective plate (1), simulation vertical rod (2), the longitudinal cross bar of simulation
(3), simulate horizontal cross bar (4), simulation brace (5) sweeps the floor what bar (6) formed with simulation;By simulation vertical rod (2), simulation longitudinally horizontal stroke
Bar (3), simulate horizontal cross bar (4), simulation brace (5) is swept the floor after bar (6) sets up into the framework of simulating Safety passage with simulation,
The top of the framework of simulating Safety passage sets up two-layer simulation protective plate (1);Simulation protective plate (1) is arranged on simulation horizontal stroke
On cross bar (4);Simulate horizontal cross bar (4) and be erected at simulation vertical rod (2), the longitudinal cross bar (3) of simulation, the group of simulation brace (5)
On the framework become;Simulation protective plate (1) cross bar longitudinal with simulation (3), to simulate bar (6) of sweeping the floor parallel;Simulation vertical rod (2) and simulation
Longitudinal cross bar (3), simulate horizontal cross bar (4), simulation brace (5) and simulation bar (6) of sweeping the floor and intersect vertically;Simulation brace (5) with
Simulation vertical rod (2), the longitudinal cross bar of simulation (3), simulate that horizontal cross bar (4) is oblique to intersect.
Construction safety channel pattern the most according to claim 1, is characterized in that, simulation protective plate (1) is two end-rack
It is located at the longitudinal cross bar (3) of simulation plate-shaped member that is upper and that be connected with simulation longitudinal direction cross bar (3);Simulation protective plate (1) is together with simulation
The upper and lower two-layer of longitudinal cross bar (3) point is arranged, and is separately positioned on top and the top of simulation vertical rod (2);Two-layer simulation protective plate (1)
Being parallel to each other, cross bar (3) longitudinal with simulation intersects vertically.
Construction safety channel pattern the most according to claim 1, is characterized in that, simulation vertical rod (2) is along longitudinally dividing
The vertically disposed rod-like members in vertical both sides;Simulation vertical rod (2) is at the position on top with upper end bearing simulation protective plate (1), respectively
Cross bar (3) longitudinal with simulation and simulate horizontal cross bar (4) and intersect vertically, and simulates that brace (5) is oblique to intersect;Middle part layering with
The longitudinal cross bar (3) of simulation intersects vertically;Intersect vertically at Near Ground and simulation bar (6) of sweeping the floor.
Construction safety channel pattern the most according to claim 1, is characterized in that, the longitudinal cross bar (3) of simulation is along vertical
To the horizontally disposed rod-like members on both sides respectively;The longitudinal cross bar (3) of simulation is at top and upper end bearing simulation protective plate (1)
Position, respectively with simulation vertical rod (2) and simulate horizontal cross bar (4) and intersect vertically, oblique intersects with simulating brace (5);At middle part
It is layered and intersects vertically with simulation vertical rod (2);The longitudinal cross bar (3) of simulation is arranged on the inner side of simulation vertical rod (2).
Construction safety channel pattern the most according to claim 1, is characterized in that, simulating horizontal cross bar (4) is along vertical
To the rod-like members arranged at the top of simulation vertical rod (2) and upper level respectively;Simulate horizontal cross bar (4) top anti-with simulation
Backplate (1) intersects vertically and connects, and bottom cross bar (3) longitudinal with simulation intersects vertically and be connected, and hangs down with simulation vertical rod (2) in two ends
Directly intersecting and connect, middle part is oblique with simulation brace (5) to be connected.
Construction safety channel pattern the most according to claim 1, is characterized in that, simulation brace (5) is angularly disposed
Rod-like members;The upper end of simulation brace (5) is connected with simulating horizontal cross bar (4), and lower end and simulation vertical rod (2) and simulation are longitudinally
Cross bar (3) connects.
Construction safety channel pattern the most according to claim 1, is characterized in that, simulating bar (6) of sweeping the floor is in simulation
The rod-like members that the edge of the lower end of vertical rod (2) is arranged at both sides vertical equity the most respectively;Simulation sweeps the floor bar (6) in simulation vertical rod
(2) outside is arranged, and intersects vertically with simulation vertical rod (2).
8. the manufacture method of construction safety channel pattern, is characterized in that, first survey sets simulation and sweeps the floor bar (6) and simulate vertical rod
(2) position, make simulation sweep the floor bar (6) with simulation vertical rod (2) intersect vertically and be connected;It is taken up in order of priority again and installs respectively from bottom to top
Layer is simulated longitudinal cross bar (3), is simulated horizontal cross bar (4), simulation brace (5);Check each connection node, confirm that node connects reliable
After, upper end, top supporting simulation protective plate (1) are installed from bottom to top;By supporting simulation protective plate (1) and the horizontal cross bar of simulation
(4) connect reliably.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610750115.1A CN106205352A (en) | 2016-08-30 | 2016-08-30 | Construction safety channel pattern and manufacture method |
Applications Claiming Priority (1)
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CN201610750115.1A CN106205352A (en) | 2016-08-30 | 2016-08-30 | Construction safety channel pattern and manufacture method |
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CN106205352A true CN106205352A (en) | 2016-12-07 |
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CN201610750115.1A Pending CN106205352A (en) | 2016-08-30 | 2016-08-30 | Construction safety channel pattern and manufacture method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111305584A (en) * | 2020-03-30 | 2020-06-19 | 刘玉香 | Protector is used in engineering construction |
-
2016
- 2016-08-30 CN CN201610750115.1A patent/CN106205352A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111305584A (en) * | 2020-03-30 | 2020-06-19 | 刘玉香 | Protector is used in engineering construction |
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Application publication date: 20161207 |
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RJ01 | Rejection of invention patent application after publication |