CN105397255A

CN105397255A - Plasma water bed cutting platform assembly

Info

Publication number: CN105397255A
Application number: CN201510974041.5A
Authority: CN
Inventors: 唐合成; 张兴国; 杨茨祥; 舒海威; 何志敏; 薛焯名; 张沪生
Original assignee: Guangzhou Shipyard International Co Ltd
Current assignee: Guangzhou Shipyard International Co Ltd
Priority date: 2015-12-21
Filing date: 2015-12-21
Publication date: 2016-03-16
Anticipated expiration: 2035-12-21
Also published as: CN105397255B

Abstract

The invention discloses a plasma water bed cutting platform assembly. The plasma water bed cutting platform assembly comprises a water tank, a supporting platform, a water-stop sheet and a dust hopper, wherein the supporting platform is slantwise arranged above the water tank along the length direction of the supporting platform; the water-stop sheet is arranged between the water tank and the supporting platform; one end of the water-stop sheet communicates with the dust hopper; a gap exists between the dust hopper and the side wall of the water tank; the dust hopper is arranged between the supporting platform and the water tank and is located at the slantwise low end of the supporting platform; the supporting platform comprises a frame; a plurality of installing locations are uniformly arranged on the frame; a grid plate is detachably arranged at each installing location; a plurality of supporting nails are uniformly distributed on each grid plate along the length direction of the supporting platform; and the lengths of the supporting nails increase sequentially from the high end of the supporting platform to the low end of the supporting platform, so that a horizontal supporting surface is formed at one ends, being far away from the grid plates, of the plurality of supporting nails. The plasma water bed cutting platform assembly has the beneficial effects that the plasma water bed cutting platform assembly is simple in structure, can quickly discharge slag, has low pollution and can be used permanently, the slag is less likely to adhere to the surface of a platform, and cutting platform materials do not need to be changed.

Description

Plasma water bed Cutting platform assembly

Technical field

The present invention relates to plasma cutting technique field, particularly relate to a kind of plasma water bed Cutting platform assembly.

Background technology

Plasma cutting technique refers to and uses the high ionized gas sprayed to eject from compression gas port the technology reaching cutting effect, its principle is that high speed, high temperature, high ionization degree, high-octane ionized gas are ejected from compression gas port, make it heating cutting parts and then deposite metal, and utilize the ionized gas stream of high speed and high pressure mechanically to blow molten metal open, along with cutting torch movement thus formed a slot.

CUT and traditional punching press, cut even compared with laser cutting parameter, have that flexibility is strong, cutter trade is little, high accuracy, otch are little, reduce tangent plane angle, adopt the feature such as beveling and cutting, high-quality trimming, therefore CUT uses more and more extensive in every profession and trade.

Plasma water bed Cutting platform conventional is at present landing slab and supports lath welded structure, landing slab is placed on pond, support the surface that lath is welded on landing slab, for supporting steel plate to be cut, without discharge orifice on landing slab, premium on currency in pond and draining can only be undertaken by the gap between landing slab and pond, the Cutting platform of said structure has following shortcoming: (1), the fine powder discharge of Cutting platform is not smooth, cutting quantity is slightly many, cutting slag and dust have just been covered with Cutting platform plate, more long-pending higher, affect cutting accuracy, affect the speed of premium on currency, cause the environmental pollution in workshop, and every day rinse the dust of platform with industry water, in flushing process, mud flies out outside platform, the duplication of labour is brought to workman, (2), cutting time, support above lath and can be stained with cutting slag, iron mud can be piled up in landing slab surface, cannot beat and remove, as support lath need be changed, change to get up quite to waste time and energy, namely the labour intensity of workman is added, if do not changed, then later stage cut quality can be affected, therefore integral replacing Cutting platform can be selected when major part, calculate according to 3m*13m, often change a Cutting platform, steel about 8.6 tons will be consumed, add material cost and manufacturing cost.

Summary of the invention

The object of the present invention is to provide a kind of plasma water bed Cutting platform assembly, its structure is simple, and deslagging is rapid, pollutes little, and platform surface is sticky cutting slag not easily, can permanently use, and does not need to change Cutting platform material.

For reaching above-mentioned purpose, the present invention by the following technical solutions:

A kind of plasma water bed Cutting platform assembly is provided, comprise pond, support platform, water-stop sheet and dust bucket, two inlet duct and double-exhaust device are set in described pond, described support platform is inclined at the top in described pond, described water-stop sheet is arranged between described pond and described support platform, one end of described water-stop sheet is communicated with described dust bucket, described dust bucket to be arranged between described support platform and described pond and to be positioned at the inclined low-end of described support platform, between described dust bucket and described basin side wall, there is gap, described support platform comprises framework, described framework evenly arranges multiple installation position, in each described installation position, place detachably arranges Turbogrid plates, described Turbogrid plates are uniformly distributed multiple support nail along the length direction of described support platform, the length of described support nail increases along the high-end of described support platform successively towards low side, the supporting surface of a level is formed away from one end of described Turbogrid plates to make multiple described support nail.

As a kind of preferred version of plasma water bed Cutting platform assembly, described framework comprises at least two parallel and spaced crossbeams, arrange multiple longeron be parallel to each other along the length direction interval of described crossbeam between adjacent described crossbeam, adjacent two described longerons and described crossbeam surround a described installation position.

As a kind of preferred version of plasma water bed Cutting platform assembly, described crossbeam and described longeron all adopt I-steel to make, and described Turbogrid plates are arranged in described installation position, and it is by mounting clamp and described crossbeam and described longeron clamping.

By adopting I-steel to make on crossbeam and longeron, Turbogrid plates can be made to be connected on crossbeam and longeron by mounting clamp, to decrease the welding job amount of Turbogrid plates, also be convenient to the dismounting of Turbogrid plates simultaneously.

As a kind of preferred version of plasma water bed Cutting platform assembly, described mounting clamp comprises the first limiting plate and the second limiting plate that are parallel to each other, adjusting bolt for regulating spacing is between the two set between described first limiting plate and described second limiting plate, there is clamp at two relative two ends of described second limiting plate towards the side deviating from described first limiting plate is extended, described clamp have the draw-in groove with described crossbeam and described longeron clamping.

As a kind of preferred version of plasma water bed Cutting platform assembly, described framework comprises three parallel and spaced described crossbeams, length direction interval along described crossbeam between adjacent two described crossbeams arranges six described longerons, is formed with ten described installation positions between described crossbeam and described longeron.

As a kind of preferred version of plasma water bed Cutting platform assembly, described Turbogrid plates plated surface is shaped with zinc layers.

As a kind of preferred version of plasma water bed Cutting platform assembly, described Turbogrid plates adopt the mode of galvanizing zinc-plated shaping.

The Turbogrid plates that plated surface is shaped with zinc layers can not occur sticking the situation of cutting slag completely.

As a kind of preferred version of plasma water bed Cutting platform assembly, the inner rim annular of described dust bucket arranges a circle slag trap.

By arranging slag trap, can prevent the floating slag in dust bucket from dropping in pond.

As a kind of preferred version of plasma water bed Cutting platform assembly, one end of described support nail offers the cross clamping groove matched with described Turbogrid plates along its length, and described support nail is connected to the right-angled intersection position of described Turbogrid plates.

As a kind of preferred version of plasma water bed Cutting platform assembly, described support nail comprises base plate and the support bar vertical with described base plate, described base plate welds with described Turbogrid plates, described base plate arranges screwed hole, and described support bar is screwed in described screwed hole near the threaded one end of described base plate.

By support bar and base thread being spun, the height of support bar can be regulated by the mode of turn, to meet the demand of the differing heights of diverse location, and when support nail changed by needs, only need screw in or screw out support bar, simplify exchonge step, reduce dismounting difficulty.

Beneficial effect of the present invention: plasma water bed Cutting platform assembly provided by the invention is by being set to the combining structure of framework and Turbogrid plates by support platform, and the support nail of supporting steel plate is set on Turbogrid plates, can when plasma cut, the water in pond is raised above the grid surface of support platform, cutting slag in such cutting process to drop in water and falls in water-stop sheet and dust bucket rapidly by grid hole, cutting slag is prevented to be deposited in support platform, and most of flue dust in cutting process and dust also can be only absorbed by the water, reduce and pollute; By support platform is obliquely installed, the cutting slag in support platform can be made more easily to come off, and the high-end support nail that towards low side successively increase of multiple height along support platform is set on Turbogrid plates, steel plate can be made when cut to keep level, and steel plate and Turbogrid plates can also separate by support nail, make the water in pond exceed Turbogrid plates, and then avoid the cutting slag of high temperature directly to drop on Turbogrid plates or framework; By arranging two inlet duct and double-exhaust device, make both sides, pond can premium on currency and precipitation simultaneously, the premium on currency efficiency in the pond after improvement exceeds 1 times than the premium on currency efficiency in existing pond.Contrast prior art, plasma water bed Cutting platform modular construction of the present invention is simple, and deslagging is rapid, pollutes little, and platform surface is sticky cutting slag not easily, long service life.

Accompanying drawing explanation

Fig. 1 is the generalized section of the plasma water bed Cutting platform assembly of first embodiment of the invention.

Fig. 2 is the schematic top plan view of the support platform of the plasma water bed Cutting platform assembly of first embodiment of the invention.

Fig. 3 is the schematic top plan view of the framework of the plasma water bed Cutting platform assembly of first embodiment of the invention.

Fig. 4 is the Turbogrid plates of plasma water bed Cutting platform assembly and the assembling schematic diagram of support nail of first embodiment of the invention.

Fig. 5 is the structural representation of the support nail of the plasma water bed Cutting platform assembly of first embodiment of the invention.

Fig. 6 is the generalized section of the plasma water bed Cutting platform assembly of second embodiment of the invention.

Fig. 7 is the Turbogrid plates of plasma water bed Cutting platform assembly and the assembling schematic diagram of support nail of second embodiment of the invention.

Fig. 8 is the structural representation of the support nail of the plasma water bed Cutting platform assembly of second embodiment of the invention.

Fig. 9 is the elevational schematic view of the support nail of the plasma water bed Cutting platform assembly of second embodiment of the invention.

In Fig. 1 to 9:

1, pond; 2, support platform; 21, framework; 211, crossbeam; 212, longeron; 22, installation position; 23, Turbogrid plates; 24, support nail; 241, base plate; 242, support bar; 243, screwed hole; 244, cross clamping groove; 3, water-stop sheet; 4, dust bucket; 5, gap; 6, slag trap.

Detailed description of the invention

Technical scheme of the present invention is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

As shown in Fig. 1 to 5, in the first embodiment of the present invention, plasma water bed Cutting platform assembly comprises pond 1, support platform 2, water-stop sheet 3 and dust bucket 4, two inlet duct and double-exhaust device are set in pond 1, support platform 2 is inclined at the top in pond 1, water-stop sheet 3 is arranged between pond 1 and support platform 2, one end of water-stop sheet 3 is communicated with dust bucket 4, dust bucket 4 to be arranged between support platform 2 and pond 1 and to be positioned at the inclined low-end of support platform 2, between dust bucket 4 and pond 1 sidewall, there is gap 5, support platform 2 comprises framework 21, framework 21 is evenly arranged multiple installation position 22, in each installation position 22, place detachably arranges Turbogrid plates 23, Turbogrid plates 23 are uniformly distributed multiple support nail 24 along the length direction of support platform 2, the length of support nail 24 increases along the high-end of support platform 2 successively towards low side, the supporting surface of a level is formed away from one end of Turbogrid plates 23 to make multiple support nail 24.By support platform 2 being set to the combining structure of framework 21 and Turbogrid plates 23, and the support nail 24 supporting cut steel plate 8 is set on Turbogrid plates 23, can when plasma cut head 7 cutting steel plate 8, the water in pond 1 is raised above Turbogrid plates 23 surface of support platform 2, cutting slag in such cutting process to drop in water and falls in water-stop sheet 3 and dust bucket 4 rapidly by grid hole, cutting slag is prevented to be deposited in support platform 2, and most of flue dust in cutting process and dust also can be only absorbed by the water, reduce and pollute; By support platform 2 is obliquely installed, the cutting slag in support platform 2 can be made more easily to come off, and the high-end support nail 24 that towards low side successively increase of multiple height along support platform 2 is set on Turbogrid plates 23, steel plate 8 can be made when cut to keep level, and steel plate 8 and Turbogrid plates 23 can also separate by support nail 24, make the water in pond 1 can exceed Turbogrid plates 23, and then avoid the cutting slag of high temperature directly to drop on Turbogrid plates 23 or framework 21; By arranging two inlet duct and double-exhaust device, make both sides, pond 1 can premium on currency and precipitation simultaneously, the premium on currency efficiency in the pond 1 after improvement exceeds 1 times than the premium on currency efficiency in existing pond.Contrast prior art, plasma water bed Cutting platform modular construction of the present invention is simple, and deslagging is rapid, pollutes little, and platform surface is sticky cutting slag not easily, long service life.

Framework 21 comprises at least two parallel and spaced crossbeams 211, arranges multiple longeron 212 be parallel to each other between adjacent beams 211 along the length direction interval of crossbeam 211, and adjacent two longerons 212 surround an installation position 22 with crossbeam 211.In the present embodiment, framework 21 comprises three parallel and spaced crossbeams 211, and the length direction interval along crossbeam 211 between adjacent two crossbeams 211 arranges six longerons 212, is formed with ten installation positions 22 between crossbeam 211 and longeron 212.

Crossbeam 211 and longeron 212 all adopt I-steel to make, and Turbogrid plates 23 are arranged in installation position 22, and it is by mounting clamp and crossbeam 211 and longeron 212 clamping.By adopting I-steel to make on crossbeam 211 and longeron 212, Turbogrid plates 23 can be made to be connected on crossbeam 211 and longeron 212 by mounting clamp (not shown), decrease the welding job amount of Turbogrid plates 23, be also convenient to the dismounting of Turbogrid plates 23 simultaneously.Concrete, mounting clamp comprises the first limiting plate and the second limiting plate that are parallel to each other, adjusting bolt for regulating spacing is between the two set between the first limiting plate and the second limiting plate, there is clamp at two relative two ends of the second limiting plate towards the side deviating from the first limiting plate is extended, clamp have the draw-in groove with crossbeam 211 and longeron 212 clamping.

Turbogrid plates 23 plated surface is shaped with zinc layers.Concrete, Turbogrid plates 23 adopt the mode of galvanizing zinc-plated shaping.The Turbogrid plates 23 that plated surface is shaped with zinc layers can not stick cutting slag completely.

The inner rim annular of dust bucket 4 arranges a circle slag trap 6.By arranging slag trap 6, can prevent the floating slag in dust bucket 4 from dropping in pond 1.

Support nail 24 comprises base plate 241 and the support bar 242 vertical with base plate 241, and base plate 241 welds with Turbogrid plates 23, and base plate 241 arranges screwed hole 243, and support bar 242 is screwed in screwed hole 243 near the threaded one end of base plate 241.By support bar 242 and base plate 241 screw thread are spun, the height of support bar 242 can be regulated by the mode of turn, to meet the demand of the differing heights of diverse location, and when support nail 24 changed by needs, only need screw in or screw out support bar 242, simplify exchonge step, reduce dismounting difficulty.

As shown in Fig. 6 to 9, in the second embodiment of the present invention, this embodiment and the difference of the first embodiment are only that the structure of the support nail 24 used is different, concrete, one end of support nail 24 offers the cross clamping groove 244 matched with Turbogrid plates 23 along its length, and support nail 24 is connected to the right-angled intersection position of Turbogrid plates 23.

It is to be understood that; above-mentioned detailed description of the invention is only preferred embodiment of the present invention and institute's application technology principle; in technical scope disclosed in this invention, the change that any those skilled in the art of being familiar with easily expect or replacement, all should be encompassed in protection scope of the present invention.

Claims

1. a plasma water bed Cutting platform assembly, it is characterized in that, comprise pond, support platform, water-stop sheet and dust bucket, two inlet duct and double-exhaust device are set in described pond, described support platform is inclined at the top in described pond, described water-stop sheet is arranged between described pond and described support platform, one end of described water-stop sheet is communicated with described dust bucket, described dust bucket to be arranged between described support platform and described pond and to be positioned at the inclined low-end of described support platform, between described dust bucket and described basin side wall, there is gap, described support platform comprises framework, described framework evenly arranges multiple installation position, in each described installation position, place detachably arranges Turbogrid plates, described Turbogrid plates are uniformly distributed multiple support nail along the length direction of described support platform, the length of described support nail increases along the high-end of described support platform successively towards low side, the supporting surface of a level is formed away from one end of described Turbogrid plates to make multiple described support nail.

2. plasma water bed Cutting platform assembly according to claim 1, it is characterized in that, described framework comprises at least two parallel and spaced crossbeams, arrange multiple longeron be parallel to each other along the length direction interval of described crossbeam between adjacent described crossbeam, adjacent two described longerons and described crossbeam surround a described installation position.

3. plasma water bed Cutting platform assembly according to claim 2, it is characterized in that, described crossbeam and described longeron all adopt I-steel to make, and described Turbogrid plates are arranged in described installation position, and it is by mounting clamp and described crossbeam and described longeron clamping.

4. plasma water bed Cutting platform assembly according to claim 3, it is characterized in that, described mounting clamp comprises the first limiting plate and the second limiting plate that are parallel to each other, adjusting bolt for regulating spacing is between the two set between described first limiting plate and described second limiting plate, there is clamp at two relative two ends of described second limiting plate towards the side deviating from described first limiting plate is extended, described clamp have the draw-in groove with described crossbeam and described longeron clamping.

5. plasma water bed Cutting platform assembly according to claim 2, it is characterized in that, described framework comprises three parallel and spaced described crossbeams, length direction interval along described crossbeam between adjacent two described crossbeams arranges six described longerons, is formed with ten described installation positions between described crossbeam and described longeron.

6. plasma water bed Cutting platform assembly according to claim 1, it is characterized in that, described Turbogrid plates plated surface is shaped with zinc layers.

7. plasma water bed Cutting platform assembly according to claim 6, is characterized in that, described Turbogrid plates adopt the mode of galvanizing zinc-plated shaping.

8. the plasma water bed Cutting platform assembly according to any one of claim 1 to 7, is characterized in that, the inner rim annular of described dust bucket arranges a circle slag trap.

9. the plasma water bed Cutting platform assembly according to any one of claim 1 to 7, it is characterized in that, one end of described support nail offers the cross clamping groove matched with described Turbogrid plates along its length, and described support nail is connected to the right-angled intersection position of described Turbogrid plates.

10. the plasma water bed Cutting platform assembly according to any one of claim 1 to 7, it is characterized in that, described support nail comprises base plate and the support bar vertical with described base plate, described base plate welds with described Turbogrid plates, described base plate arranges screwed hole, and described support bar is screwed in described screwed hole near the threaded one end of described base plate.