CN203160573U - Roof board high-altitude conveying system - Google Patents
Roof board high-altitude conveying system Download PDFInfo
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- CN203160573U CN203160573U CN 201320001586 CN201320001586U CN203160573U CN 203160573 U CN203160573 U CN 203160573U CN 201320001586 CN201320001586 CN 201320001586 CN 201320001586 U CN201320001586 U CN 201320001586U CN 203160573 U CN203160573 U CN 203160573U
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- forming machine
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Abstract
The utility model discloses a roof board high-altitude conveying system which comprises a metal plate roll, a forming machine and a conveying device. The forming machine is connected with the metal plate roll and used for machining the metal plate roll into a roof board with a needed shape; the machined roof board is conveyed to a roof used for imitating installation of the metal roof board by the conveying device, the conveying device is a conveying guiding rail of the roof board, one end of the conveying device is connected with a board feeding port reserved in the roof board, the other end of the conveying device is arranged below a board discharging port of the forming machine, and the board discharging angle of the forming machine is identical to the inclined angle of the conveying guiding rail of the roof board; the roof board discharged by the board discharging port of the forming machine falls on the conveying guiding rail of the roof board, and the roof board is driven to be conveyed upwards through the board discharging pushing force of the forming machine along the conveying guiding rail of the roof board. According to the roof board high-altitude conveying system, roof board production and high-altitude conveying in a construction site are not influenced by the height of the building roof, the length of one single roof board and construction site conditions, the conveying efficiency of the roof board is improved, and the cost of manpower and lifting equipment are reduced.
Description
Technical field
The utility model large-scale steel structure roofworks field, particularly a kind of roof panel high-altitude transmission system.
Background technology
In large-scale steel work roofworks, frequent 20 meters of the overlength (〉 that adopt) sheet metals such as roofing color steel, aluminium alloys, copper coin and titanium zinc alloy, effectively reduce the overlap joint of roof board material, the globality of increase roofing, thereby better guarantee whole Wind-Pressure Resistance ability, the waterproof ability of roofing.
20 meters with interior roof board material, can use the mode of plant produced, forwarding motor dispensing, but surpass 20 meters veneer, generally adopt the mode of produced on-site, be about to produce board equipment and be transported to the scene, produce at the scene, reduce shipping dispensing link.
After roof panel is produced at the scene, be transported to the lifting position by manpower, by modes such as crane, pulley or manpower pullings, with the roof panel vertical transport to roofing, install at roofing again, disclose a kind of over-long roof contour plate vertical-lift conveying arrangement as Chinese patent literature CN201377184Y, it is transported to the roof to contour plate from ground be to move slipper bracket to by pull rope to rise along the slideway that tilts, and roof panel is arranged on the slipper bracket.But this scheme is subjected to crane height, pulley hoisting depth and weight, human cost and stability influence, generally only the roofing height below 12 meters, roof panel veneer length is in 40 meters the time, could be by carry out vertical transport (lifting, promote or pull) with upper type.When higher or veneer length surpasses 40 meters when the roofing height, generally adopt many cranes to cooperate and lift to roofing, limit but be subjected to on-the-spot place, phenomenons such as the kinking distortion of sheet material, destruction loss are more serious in the hoisting process simultaneously.
Simultaneously, when the roofing height is no more than 20 meters, can also adopt and set up scaffold (high-altitude production platform), production equipment is lifted to the scaffold top, equipment is produced in the high-altitude, after roof panel comes out from board, directly carry on roofing, reduced the lifting link, but this technology can not satisfy the roofing production requirement of height more than 20 meters, because scaffold building is too high, the scaffold basis requires, stability and the supporting capacity of scaffold are limit, and cost can be very high.Simultaneously, scaffold building cost height, on-the-spot site condition require height, can not satisfy too high roofworks.
In sum, in large-scale roofworks, often can only adopt the mode of " splicing of roofing short slab ", the water resistance of manually splicing the position is relatively poor, and the globality of roof panel is bad, forms more hidden danger of quality.
The utility model content
In order to realize that the transmission of the production of building-site roof panel and high-altitude is not influenced by building roof height, roof panel veneer length, on-the-spot site condition, improve efficiency of transmission, reduction manpower and the hanging device cost of roof panel, the utility model provides a kind of roof panel high-altitude transmission system.
Described technical scheme is as follows:
On the one hand, the utility model provides a kind of roof panel high-altitude transmission system, comprising: the sheet metal volume;
Forming machine is connected with described sheet metal volume, is used for the metal roll bending is made the roof panel of required form;
Transmitting device is used for made roof panel is transferred to the roofing of intending installing metal roofing board;
Described roof panel conveying comprises support dragline and delivery chute, one end of described support dragline is fixedlyed connected with described roofing reservation upper plate mouth, its other end is arranged at the plate outlet below of described forming machine, described delivery chute is along the whole length direction setting of described support dragline, the width of described delivery chute is greater than made roof panel width, roof panel along the transmission board of described delivery chute towards last conveying.
The below of described forming machine arranges an angle adjustment support, and described angle adjustment support has an inclined plane, and described forming machine is arranged on the described inclined plane, and the angle of inclination on described inclined plane is consistent with the angled conveyor of described delivery chute.
The formed tilt angle alpha in described inclined plane and ground is smaller or equal to 60 °.
Described delivery chute is provided with support connecting piece, and described support dragline is connected with described delivery chute by described support connecting piece.
Described support connecting piece is arranged on two cell walls of described delivery chute, and it is a hook, and described hook is formed by outside bending by the cell wall free end of described delivery chute, and described support dragline is two wire rope, and it is arranged at respectively in the two described hooks.
The middle part of described roof panel conveying is provided with lifting point or the strong point, is used for preventing that its middle part from producing downwarp.
On the other hand, also provide a kind of roof panel high-altitude transmission method, described method comprises:
The roof panel conveying is obliquely installed between roofing and ground that metal roofing board intend to be installed, makes the lower end of roof panel conveying be arranged at the plate outlet place of forming machine;
The scene is carried out roof panel to roll bending and is made, the roof panel of making is exported and is dropped down onto on the roof panel conveying by the plate outlet of forming machine, and roof panel upwards is delivered to the roofing of intending installing metal roofing board at the effect lower edge of forming machine discharging thrust roof panel conveying.
Described roof panel conveying is obliquely installed in intending installing between the roofing and ground of metal roofing board, and wherein the roof panel conveying is formed by supporting dragline and delivery chute, and its concrete assemble method is:
The two ends of supporting dragline are connected with roofing and the ground of intending the installation metal roofing board respectively;
Delivery chute is arranged on the support dragline along the whole length direction that supports dragline, and the lower end of delivery chute is arranged at the plate outlet place of forming machine;
The scene is carried out roof panel to roll bending and is made, and the roof panel of making is exported and dropped down onto on the delivery chute by the plate outlet of forming machine, and roof panel upwards is delivered to the roofing of intending installing metal roofing board at the effect lower edge of forming machine discharging thrust delivery chute.
Described method also comprises:
At the middle part of roof panel conveying lifting point or the strong point are set, by hanging device the middle part of roof panel conveying are supported, be used for the middle part downwarp distance of control roof panel conveying.
The beneficial effect that technical scheme provided by the utility model is brought is:
The utility model has omitted the link of ground handling, lifting, need not set up the scaffolding platform that the high-altitude produces, the facility and the equipment that do not adopt crane etc. to promote.Reduced the roofing transport distance, from aspects such as ageing, economical, safety and applicabilities relatively more outstanding advantage has been arranged.
(1) ageing: high-altitude transmission technology, the time is short, but install on production limit, limit.
(2) economical: cost is low, and the facility expense mainly comprises the expense of angle adjustment support and roof panel conveying, and control is about 5000 yuan.
(3) safety: link is few, and workload is little, effectively reduces potential risks such as high-altitude, main equipment use.
Reduced the ground handling link: ground handling, monomer sheet material is very long, and the place takies and requires height, the cross-operation of minimizing and other work posts etc.;
Need not set up the height scaffolding platform: reduce work high above the ground;
Without hanging device: reduce large-scale facility and use, lower potential safety hazard;
Reduce the roofing transport distance: reduce high-altitude, labor intensive.
(4) applicability: be widely used, few restricted, can be applicable to the production of various building roof plates.
Because roofing height, veneer length are unrestricted, and be few to site requirements, so the utility model can be widely used in various types of buildings.
Description of drawings
In order to be illustrated more clearly in the technical scheme among the utility model embodiment, the accompanying drawing of required use is done to introduce simply in will describing embodiment below, apparently, accompanying drawing in describing below only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is on-the-spot roof panel provided by the utility model high-altitude transmission system structure chart;
Fig. 2 is on-the-spot roof panel provided by the utility model high-altitude transmission system structure chart (having lifting point or the strong point);
Fig. 3 is the roof panel conveying assembling schematic diagram among Fig. 1;
Fig. 4 is the A-A cross-sectional view among Fig. 3;
Fig. 5 is the angle adjustment supporting structure schematic diagram among Fig. 1.
Among the figure:
1. forming machine; 2. sheet metal is rolled up; 3. roof panel conveying, 31. support draglines, 32. delivery chutes, 321. support connecting pieces; 4. reserve the upper plate mouth; 5. roofing; 6. angle adjustment support, 61. inclined planes; 7. lifting point or the strong point.
The specific embodiment
For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing the utility model embodiment is described in further detail.
Fig. 1 structure is depicted as a kind roof panel high-altitude transmission system, comprise: sheet metal volume 2, forming machine 1 and transmitting device, sheet metal volume 2 wherein can be coil of strip or aluminium volume etc., and it provides plate for forming machine 1, and the roof panel of required form directly made the metal roll bending by forming machine 1; And transmitting device is used for made roof panel is transferred to the roofing 5 of intending installing metal roofing board, it is a roof panel conveying 3, the one end is connected with reservation upper plate mouth 4 on the roofing 5, its other end is arranged at the plate outlet below of forming machine 1, and forming machine 1 ejecting plate angle is consistent with the angle of inclination of roof panel conveying 3; Roof panel by the output of forming machine 1 plate outlet drops down onto on the roof panel conveying 3, and roof panel drives roof panel along upwards transmission of roof panel conveying 3 by the ejecting plate thrust of forming machine 1, directly roof panel is pushed into roofing 5, realizes the process of making sheet limit, limit transmission.
Roof panel conveying 3 structures wherein as shown in Figure 3 and Figure 4, it comprises support dragline 31 and delivery chute 32, the support dragline 31 here is two wire rope, an end that supports dragline 31 is fixed in roofing 5 reserves 4 connections of upper plate mouth, its other end is arranged at the plate outlet below of forming machine 1, delivery chute 32 is along the whole length direction setting of supporting dragline 31, and wherein the width of delivery chute 32 is greater than made roof panel width, and roof panel is carried towards last realization along the transmission board of delivery chute 32.
In order better to regulate the angled conveyor of forming machine 1, an angle adjustment support 6 is set, as shown in Figure 5 below forming machine 1.Angle adjustment support 6 has an inclined plane 61, and forming machine 1 is arranged on the inclined plane 61, and the angle of inclination on inclined plane 61 is consistent with the angled conveyor of delivery chute 32, and wherein inclined plane 61 and the formed tilt angle alpha in ground are smaller or equal to 60 °.The planeness of upper surface is noted in section bars such as angle adjustment support 6 usefulness channel-section steels welding, has calculated angle, carries out simultaneously with the bottom surface of forming machine 1 container to be connected clasp, prevents forming machine 1 container sideslip or moves.
When roof panel conveying 3 is longer, the downwarp phenomenon can appear, and it is stressed along the transmission of delivery chute to influence roof panel, therefore is provided with lifting point or the strong point 7 at the middle part of roof panel conveying 3, is used for preventing that its middle part from producing downwarp, as Fig. 2.
When concrete the use, its concrete high-altitude transmission method comprises:
Roof panel conveying 3 is obliquely installed between roofing 5 and ground that metal roofing board intend to be installed, makes the lower end of roof panel conveying 3 be arranged at the plate outlet place of forming machine 1;
The scene is carried out roof panel to roll bending and is made, the roof panel of making is exported and is dropped down onto on the roof panel conveying 3 by the plate outlet of forming machine 1, and roof panel upwards is delivered to the roofing 5 of intending installing metal roofing board at the effect lower edge roof panel conveying 3 of forming machine 1 discharging thrust.Roof panel relies on the ejecting plate thrust of forming machine it can be pushed on the roofing 5.
The roof panel conveying 3 that the utility model adopts is formed by supporting dragline 31 and delivery chute 32, can certainly other form of structure, and its concrete assemble method is:
The two ends of supporting dragline 31 are connected with roofing 5 and the ground of intending the installation metal roofing board respectively;
Forming machine 1 scene is carried out roof panel to roll bending and is made, and the roof panel of making is exported and dropped down onto on the delivery chute 32 by the plate outlet of forming machine 1, and roof panel upwards is delivered to the roofing 5 of intending installing metal roofing board at the effect lower edge delivery chute 32 of forming machine 1 discharging thrust.
The utility model is example with 10,000 square metres of roof panel, by using various processes whole roofing is laid, and its subitem time spent and total time spent are compared contrast.
Be example with 10000 square meter roof panel.。。
Be to be example with 12 meters high roofings, 40 meters veneer length, 10,000 square metres of roof panel below, the expense spent to various distinct methods compares.
Be example with 12 meters high roofings, 40 meters veneer length, 10000 square meter roof panel
Can clearly find out by above-mentioned two forms: carry out high-altitude production by setting up shelf, its total time spent and expense are the highest, amount to the time spent above 11 days, and expense is about 14.3 ten thousand yuan; And adopting its total time spent of laying of surface production vertical lifting method realization roof panel to surpass 7 days, expense is about 4.2 ten thousand yuan.
Use its total time spent of system provided by the utility model or method and expense minimum, amount to the time spent less than 5 days, and expense is about 1.85 ten thousand yuan, because its link is few, workload is little, effectively reduce the high-altitude, potential risks such as main equipment use, reduced the ground handling link simultaneously, the cross-operation of minimizing and other work posts etc. are because the utility model need not be set up the height scaffolding platform, reduce work high above the ground, the utility model reduces large-scale facility and uses without hanging device, lowers potential safety hazard, it relies on the power-assisted of forming machine to realize the roofing transmission simultaneously, therefore significantly reduces the roofing transport distance.Therefore service efficiency of the present utility model is higher than above-mentioned two kinds of methods far away, and expense is well below the cost of use of above-mentioned two kinds of methods.
Above-mentioned the utility model embodiment sequence number does not represent the quality of embodiment just to description.
The above only is preferred embodiment of the present utility model, and is in order to limit the utility model, not all within spirit of the present utility model and principle, any modification of doing, is equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.
Claims (7)
1. a roof panel high-altitude transmission system comprises: sheet metal volume (2);
Forming machine (1) is connected with described sheet metal volume (2), is used for the metal roll bending is made the roof panel of required form;
Transmitting device is used for made roof panel is transferred to the roofing (5) of intending installing metal roofing board, it is characterized in that:
Described transmitting device is a roof panel conveying (3), the one end is connected with reservation upper plate mouth (4) on the roofing (5), its other end is arranged at the plate outlet below of described forming machine (1), and described forming machine (1) ejecting plate angle is consistent with the angle of inclination of described roof panel conveying (3); Roof panel by the output of described forming machine (1) plate outlet drops down onto on the described roof panel conveying (3), and roof panel drives roof panel along upwards transmission of described roof panel conveying (3) by the ejecting plate thrust of described forming machine (1).
2. roof panel according to claim 1 high-altitude transmission system is characterized in that:
Described roof panel conveying (3) comprises support dragline (31) and delivery chute (32), one end of described support dragline (31) is fixedlyed connected with described roofing (5) reservation upper plate mouth (4), its other end is arranged at the plate outlet below of described forming machine (1), described delivery chute (32) is along the whole length direction setting of described support dragline (31), the width of described delivery chute (32) is greater than made roof panel width, roof panel along the transmission board of described delivery chute (32) towards last conveying.
3. roof panel according to claim 2 high-altitude transmission system is characterized in that:
The below of described forming machine (1) arranges an angle adjustment support (6), described angle adjustment support (6) has an inclined plane (61), described forming machine (1) is arranged on the described inclined plane (61), and the angle of inclination of described inclined plane (61) is consistent with the angled conveyor of described delivery chute (32).
4. roof panel according to claim 3 high-altitude transmission system is characterized in that:
Described inclined plane (61) and the formed tilt angle alpha in ground are smaller or equal to 60 °.
5. according to the arbitrary described roof panel of claim 2-4 high-altitude transmission system, it is characterized in that:
Described delivery chute (32) is provided with support connecting piece (321), and described support dragline (31) is connected with described delivery chute (32) by described support connecting piece.
6. roof panel according to claim 5 high-altitude transmission system is characterized in that:
Described support connecting piece (321) is arranged on two cell walls of described delivery chute (32), it is a hook, described hook is formed by outside bending by the cell wall free end of described delivery chute (32), and described support dragline (31) is two wire rope, and it is arranged at respectively in the two described hooks.
7. according to the arbitrary described roof panel of claim 6 high-altitude transmission system, it is characterized in that:
The middle part of described roof panel conveying (3) is provided with lifting point or the strong point (7), is used for preventing that its middle part from producing downwarp.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320001586 CN203160573U (en) | 2013-01-04 | 2013-01-04 | Roof board high-altitude conveying system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320001586 CN203160573U (en) | 2013-01-04 | 2013-01-04 | Roof board high-altitude conveying system |
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CN203160573U true CN203160573U (en) | 2013-08-28 |
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CN 201320001586 Withdrawn - After Issue CN203160573U (en) | 2013-01-04 | 2013-01-04 | Roof board high-altitude conveying system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103233559A (en) * | 2013-01-04 | 2013-08-07 | 森特士兴集团股份有限公司 | System and method for transporting roof board in air |
CN107128851A (en) * | 2017-05-27 | 2017-09-05 | 颍上县双盛金属制品有限公司 | A kind of screw color steel tile lifting device |
-
2013
- 2013-01-04 CN CN 201320001586 patent/CN203160573U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103233559A (en) * | 2013-01-04 | 2013-08-07 | 森特士兴集团股份有限公司 | System and method for transporting roof board in air |
CN103233559B (en) * | 2013-01-04 | 2015-11-18 | 森特士兴集团股份有限公司 | A kind of roof panel high-altitude transmission system and method |
CN107128851A (en) * | 2017-05-27 | 2017-09-05 | 颍上县双盛金属制品有限公司 | A kind of screw color steel tile lifting device |
CN107128851B (en) * | 2017-05-27 | 2022-10-25 | 颍上县双盛金属制品有限公司 | Screw type color steel tile lifting device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20130828 Effective date of abandoning: 20151118 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |