CN203831645U - Semi-automatic steel-plastic composite pipe production equipment - Google Patents
Semi-automatic steel-plastic composite pipe production equipment Download PDFInfo
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- CN203831645U CN203831645U CN201420199815.2U CN201420199815U CN203831645U CN 203831645 U CN203831645 U CN 203831645U CN 201420199815 U CN201420199815 U CN 201420199815U CN 203831645 U CN203831645 U CN 203831645U
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- pipe
- gas injection
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Abstract
The utility model relates to semi-automatic steel-plastic composite pipe production equipment, in particular to semi-automatic steel-plastic composite pipe production equipment adopting a steam heating mode. The semi-automatic steel-plastic composite pipe production equipment comprises an equipment support, two steel-plastic composite pipe rotating plates, a rotating plate rolling frame and a cooling groove. The semi-automatic steel-plastic composite pipe production equipment is characterized by further comprising steel-plastic composite pipe gas injection clamping devices and a gas injection pipe. The two sides of the rotating plate rolling frame are fixedly connected with the steel-plastic composite pipe rotating plates respectively. The steel-plastic composite pipe rotating plates are symmetrically arranged. The inner sides, close to the edge, of the steel-plastic composite pipe rotating plates are uniformly provided with the six steel-plastic composite pipe gas injection clamping devices. The equipment is reasonable in structural design, semi-automatic operation of the equipment can be achieved due to the steel-plastic composite pipe rotating plates, the rotating plate rolling frame and the cooling groove, air injecting, heating, cooling and quality testing are carried out at a time, and the production efficiency and the product quality are greatly improved; as the steam heating mode is adopted, the heating efficiency is greatly improved, valuable energy sources are saved, and the service life of the equipment is prolonged.
Description
Technical field
The utility model relates to a kind of semi-automatic steel and moulds pipe production equipment, is a kind of Steam Heating is moulded pipe semiautomatic equipment for the production of steel.
Background technology
At present steel is moulded pipe and is had that the cost of material is low (cheap six times than copper pipe, than stainless steel cheap four times, the novel pipeline that can match in excellence or beauty with copper pipe, stainless steel), long service life, energy-conserving and environment-protective, power saving, the advantage such as pollution-free, be widely used, can say as long as carrying on flowable material and can using.As: urban construction feedwater, piped direct-drinking water, return pipe, extinguishing pipe, natural gas, fuel gas transportation pipeline, corrosivity (gas, liquid and pressed powder), ore pulp, mine tailing and engineering are wear-resisting with pipe; Seawater conveying, submerged pipeline and optical cable (cable) conduit of seawater desalting plant, seashore power plant, Portcity etc.
But traditional steel is moulded the production that pipe manufacturer equipment still carries out steel and moulds pipe in the mode that uses the heating of electrical heating or stove, there are a lot of weak points in the above-mentioned mode of production, first be the temperature that the heating of electrical heating or stove all needs to expend a large amount of energy and steel could be moulded to pipe and be heated to needs, energy consumes huge, firing rate is slow, production efficiency is low, the heat radiation that production equipment itself bears simultaneously and heat conduction, also may cause the damage of production equipment itself, there is certain potential safety hazard, in addition, how cooling traditional production equipment except also there is no a good solution for after Plastic Steel Pipe heating, generally undertaken cooling by the mode of external refrigeration, cooling velocity is slow, cooling device volume is large.
Utility model content
The purpose of this utility model is to overcome existing the problems referred to above in prior art, and a kind of reasonable in design is provided, and can mould pipe gas injection heating or cooling semi-automatic steel is moulded pipe production equipment to steel.
The utility model solves the problems of the technologies described above adopted technical scheme: this semi-automatic steel is moulded pipe production equipment, comprise equipment supporter, two groups of steel are moulded pipe rotating disk, rotating disk rolls frame and cooling bath, it is characterized in that, also include steel and mould pipe gas injection clamping device and air injection pipe, the both sides that described rotating disk rolls frame are fixedly connected with respectively steel and mould pipe rotating disk, steel is moulded pipe rotating disk and is symmetrical arranged, the inner side that steel is moulded pipe rotating disk is provided with uniformly six groups of steel near edge and moulds pipe gas injection clamping device, and the steel that two groups of steel are moulded pipe rotating disk is moulded pipe gas injection clamping device and is oppositely arranged, steel is moulded pipe rotating disk and is rotatably connected on equipment supporter by rolling frame rotating shaft, bottom on equipment supporter is provided with cooling bath, the described frame rotating shaft of rolling is hollow tube, described steel is moulded pipe gas injection clamping device and is rolled frame rotating shaft and is connected by air injection pipe, described steel is moulded pipe rotating disk part and is positioned at cooling bath inner side, can realize the gas injection of steel plastic pipe by said structure, heating, cooling, quality inspection once-forming, greatly enhance productivity, and product quality.
As preferably, described steel is moulded pipe gas injection clamping device and is comprised that a steel moulds pipe clamp gripping member, gas injection top-pressure part and thrust screw mandrel, described steel is moulded pipe clamp gripping member and gas injection top-pressure part and is fixed on steel and moulds on pipe rotating disk, in described gas injection top-pressure part, be provided with gas injection cavity, the top of gas injection top-pressure part is conically shaped body, on top, have venthole, gas injection top-pressure part middle part is provided with two suction nozzles, venthole and suction nozzle are all connected with gas injection cavity, gas injection top-pressure part bottom is rotatably connected to thrust screw mandrel, described thrust screw mandrel is rotatably connected on steel and moulds on pipe rotating disk, described steel is moulded pipe clamp gripping member, gas injection top-pressure part and top venthole thereof, thrust screw mandrel is on same axis, this product adopts steam-heated mode, the mode of the inner heating of pipe due to what adopt, there is homogeneous heating, firing rate is fast, the advantages such as heat-energy losses is little, greatly improve the efficiency of heating surface, save the valuable energy, extended the service life of equipment simultaneously.
As preferably, the described frame rotating shaft of rolling is provided with travelling gear, can drive whole steel to mould pipe dial rotation by gear-driven mode.
As preferably, in described gas injection top-pressure part, be provided with bearing, thrust screw mandrel is rotationally connected by bearing and thrust screw mandrel.
As preferably, described gas injection top-pressure part bottom is provided with capping, in inner original paper can being encapsulated in, prevents that dust from entering inside.
As preferably, described two suction nozzles are respectively cold air suction nozzle and steam inlet mouth, and two suction nozzles are mutually an angle of 90 degrees.Can effectively prevent, in gas injection process, form blowing.
As preferably, on described cold air suction nozzle and steam inlet mouth, be respectively equipped with air valve, can manually control the switch of air valve, thereby control the opportunity of gas injection.
As preferably, described thrust screw mandrel one end is fixedly connected with hand rotating disk, can the hand rotating disk of hand rotation, and by thrust screw mandrel, gas injection top-pressure part is held out against at steel and moulds the mouth of pipe.
As preferably, described steel is moulded pipe clamp gripping member and is provided with front end plastic tube clamping portion and rear end steel pipe clamping portion, and the bore of plastic tube clamping portion is less than the bore of steel pipe clamping portion, and steel is moulded pipe clamp gripping member and fixed by latch.
As preferably, also include steel and mould pipe die core, described steel is moulded pipe die core and steel and is moulded pipe clamp gripping member and match.
The beneficial effects of the utility model are: this product is energy-conserving and environment-protective compared with similar products, power saving, pollution-free, product structure design is reasonable, steel is moulded pipe rotating disk, rotating disk rolls frame and cooling bath use can realize the semi-automatic running of equipment, gas injection, heating, cooling, quality inspection once-forming, greatly enhance productivity, and product quality, coordinate steel to mould pipe gas injection clamping device uses simultaneously, steel can be moulded to pipe fixing, can carry out while gas injection to its both sides again, adopt steam-heated mode, the mode of the inner heating of pipe due to what adopt, there is homogeneous heating, firing rate is fast, the advantages such as heat loss is little, greatly improve the efficiency of heating surface, save the valuable energy, extended the service life of equipment simultaneously.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the structural representation that the utility model steel is moulded pipe gas injection clamping device part.
Fig. 3 is the structural representation of another angle of Fig. 2.
Fig. 4 is the structural representation of duty of the present utility model.
Fig. 5 is the cutaway view of the utility model gas injection top-pressure part.
Fig. 6 is the structural representation that the utility model steel is moulded pipe die core.
Label declaration: equipment supporter 1, steel is moulded pipe rotating disk 2, rotating disk rolls frame 3, roll frame rotating shaft 31, cooling bath 4, steel is moulded pipe gas injection clamping device 5, gas injection top-pressure part 51, gas injection cavity 511, top 512, venthole 513, bearing 514, capping 515, steel is moulded pipe clamp gripping member 52, plastic tube clamping portion 521, steel pipe clamping portion 522, latch 523, suction nozzle 6, cold air suction nozzle 61, steam inlet mouth 62, air injection pipe 7, thrust screw mandrel 8, hand rotating disk 9, steel plastic pipe 10, air valve 11, travelling gear 12, steel is moulded pipe die core 13, screw 14.
Detailed description of the invention
Below in conjunction with drawings and Examples, the utility model is described in further detail.
Embodiment mono-: referring to Fig. 1-6, this product comprises equipment supporter 1, two groups of steel are moulded pipe rotating disk 2, rotating disk rolls frame 3, cooling bath 4, steel is moulded pipe gas injection clamping device 5 and air injection pipe 7, the both sides that rotating disk rolls frame 3 are fixedly connected with respectively steel and mould pipe rotating disk 2, steel is moulded pipe rotating disk 2 and is symmetrical arranged, the inner side that steel is moulded pipe rotating disk 2 is provided with uniformly six groups of steel near edge and moulds pipe gas injection clamping device 5, and the steel that two groups of steel are moulded pipe rotating disk 2 is moulded pipe gas injection clamping device 5 and is oppositely arranged, steel is moulded pipe rotating disk 2 and is rotatably connected on equipment supporter 1 by rolling frame rotating shaft 31, bottom on equipment supporter 1 is provided with cooling bath 4, roll frame rotating shaft 31 for hollow tube, steel is moulded pipe gas injection clamping device 5 and is rolled frame rotating shaft 31 and is connected by air injection pipe 7, steel is moulded pipe rotating disk 2 parts and is positioned at cooling bath 4 inner sides, roll frame rotating shaft 31 and be provided with travelling gear 12, can drive whole steel to mould pipe rotating disk 2 by gear-driven mode rotates.
Steel in the present embodiment is moulded pipe gas injection clamping device 5 and is comprised that a steel moulds pipe clamp gripping member 52, gas injection top-pressure part 51 and thrust screw mandrel 8, steel is moulded pipe clamp gripping member 52 and gas injection top-pressure part 51 and is fixed on steel and moulds on pipe rotating disk 2, in gas injection top-pressure part 51, be provided with gas injection cavity 511, the top 512 of gas injection top-pressure part 51 is conically shaped body, on top 512, have venthole 513, gas injection top-pressure part 51 middle parts are provided with two suction nozzles 6, venthole 513 and suction nozzle 6 are all connected with gas injection cavity 511, gas injection top-pressure part 51 bottoms are rotatably connected to thrust screw mandrel 8, thrust screw mandrel 8 is rotatably connected on steel and moulds on pipe rotating disk 2, steel is moulded pipe clamp gripping member 52, gas injection top-pressure part 51 and top 512 ventholes 513 thereof, thrust screw mandrel 8 is on same axis.In gas injection top-pressure part 51 in the present embodiment, be provided with bearing 514, thrust screw mandrel 8 is rotationally connected by bearing 514 and thrust screw mandrel 8, and gas injection top-pressure part 51 bottoms are provided with capping 515 simultaneously, and capping 515 is fixed by screw 14, in inner original paper can being encapsulated in, prevent that dust from entering inside.
Two suction nozzles 6 in the present embodiment are respectively cold air suction nozzle 61 and steam inlet mouth 62, two suction nozzles 6 are mutually an angle of 90 degrees.Can effectively prevent, in gas injection process, form blowing, meanwhile, on cold air suction nozzle 61 and steam inlet mouth 62, be respectively equipped with air valve 11, can manually control the switch of air valve 11, thereby control the opportunity of gas injection.For convenient manual operation is fixedly connected with hand rotating disk 9 in thrust screw mandrel 8 one end, can the hand rotating disk 9 of hand rotation, by thrust screw mandrel 8, gas injection top-pressure part 51 is held out against at steel and moulds the mouth of pipe.
Steel in the present embodiment is moulded pipe clamp gripping member 52 and is provided with front end plastic tube clamping portion 521 and rear end steel pipe clamping portion 522, and the bore of plastic tube clamping portion 521 is less than the bore of steel pipe clamping portion 522, and it is fixing by latch 523 that steel is moulded pipe clamp gripping member 52; The needs of moulding pipe in order to adapt to different bore steel, this product can be equipped with steel and mould pipe die core 13, and steel is moulded the steel of replaceable different size on pipe die core 13 and is moulded pipe, and steel is moulded pipe die core 13 and is moulded pipe clamp gripping member 52 with steel and match.
In actual mechanical process, steel is moulded pipe rotating disk 2 has six positions according to rotational angle difference, six positions are fixed with steel plastic pipe 10 respectively, elaborate below: in position one, first staff moulds pipe clamp gripping member 52 by the fixing steel plastic pipe 10 of latch 522 by above-mentioned steel, then rotating hand rotating disk 9 promotes two groups of gas injection top-pressure parts 51 by thrust screw mandrel 8 and pushes up respectively the both ends open that is pressed in steel plastic pipe 10 from two ends, then the air valve 11 of closing cool air suction nozzle 61, open steam inlet mouth 62, can be to the inner gas injection heating of steel plastic pipe 10, rotate by rolling frame rotating shaft 31 that steel is moulded pipe rotating disk 2 and rotating disk rolls frame 3 during this time, to position two, three, in the time turning to position four, can steam off suction nozzle 62, open cold air suction nozzle 61, steel is moulded to pipe and inject cold air, carry out internal cooling, in the time turning to position five, six, steel plastic pipe 10 is immersed in cooling bath 4, in cooling bath 4, fill cooling fluid, carry out external refrigeration, the sealing that can observe steel plastic pipe 10 simultaneously, emerge and illustrate that steel plastic pipe 10 is defective if any bubble, finally again turn to position one, close all air valves 11, by rotating hand rotating disk 9, gas injection top-pressure part 51 is unclamped, extract latch 522, take out steel plastic pipe 10 finished products.
Above content described in this description is only to the explanation of the utility model structure example.The utility model person of ordinary skill in the field can make various amendments or supplements or adopt similar mode to substitute described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, all should belong to protection domain of the present utility model.
Claims (10)
1. a semi-automatic steel is moulded pipe production equipment, comprise equipment supporter, two groups of steel are moulded pipe rotating disk, rotating disk rolls frame and cooling bath, it is characterized in that: also include steel and mould pipe gas injection clamping device and air injection pipe, the both sides that described rotating disk rolls frame are fixedly connected with respectively steel and mould pipe rotating disk, steel is moulded pipe rotating disk and is symmetrical arranged, the inner side that steel is moulded pipe rotating disk is provided with uniformly six groups of steel near edge and moulds pipe gas injection clamping device, and the steel that two groups of steel are moulded pipe rotating disk is moulded pipe gas injection clamping device and is oppositely arranged, steel is moulded pipe rotating disk and is rotatably connected on equipment supporter by rolling frame rotating shaft, bottom on equipment supporter is provided with cooling bath, the described frame rotating shaft of rolling is hollow tube, described steel is moulded pipe gas injection clamping device and is rolled frame rotating shaft and is connected by air injection pipe, described steel is moulded pipe rotating disk part and is positioned at cooling bath inner side.
2. semi-automatic steel according to claim 1 is moulded pipe production equipment, it is characterized in that: described steel is moulded pipe gas injection clamping device and comprised that a steel moulds pipe clamp gripping member, gas injection top-pressure part and thrust screw mandrel, described steel is moulded pipe clamp gripping member and gas injection top-pressure part and is fixed on steel and moulds on pipe rotating disk, in described gas injection top-pressure part, be provided with gas injection cavity, the top of gas injection top-pressure part is conically shaped body, on top, have venthole, gas injection top-pressure part middle part is provided with two suction nozzles, venthole and suction nozzle are all connected with gas injection cavity, gas injection top-pressure part bottom is rotatably connected to thrust screw mandrel, described thrust screw mandrel is rotatably connected on steel and moulds on pipe rotating disk, described steel is moulded pipe clamp gripping member, gas injection top-pressure part and top venthole thereof, thrust screw mandrel is on same axis.
3. semi-automatic steel according to claim 1 is moulded pipe production equipment, it is characterized in that: the described frame rotating shaft of rolling is provided with travelling gear.
4. semi-automatic steel according to claim 2 is moulded pipe production equipment, it is characterized in that: in described gas injection top-pressure part, be provided with bearing, thrust screw mandrel is rotationally connected by bearing and thrust screw mandrel.
5. semi-automatic steel according to claim 2 is moulded pipe production equipment, it is characterized in that: described gas injection top-pressure part bottom is provided with capping.
6. semi-automatic steel according to claim 2 is moulded pipe production equipment, it is characterized in that: described two suction nozzles are respectively cold air suction nozzle and steam inlet mouth, and two suction nozzles are mutually an angle of 90 degrees.
7. semi-automatic steel according to claim 6 is moulded pipe production equipment, it is characterized in that: on described cold air suction nozzle and steam inlet mouth, be respectively equipped with air valve.
8. semi-automatic steel according to claim 2 is moulded pipe production equipment, it is characterized in that: described thrust screw mandrel one end is fixedly connected with hand rotating disk.
9. semi-automatic steel according to claim 2 is moulded pipe production equipment, it is characterized in that: described steel is moulded pipe clamp gripping member and is provided with front end plastic tube clamping portion and rear end steel pipe clamping portion, the bore of plastic tube clamping portion is less than the bore of steel pipe clamping portion, and steel is moulded pipe clamp gripping member and fixed by latch.
10. mould pipe production equipment according to the semi-automatic steel described in claim 2 or 9, it is characterized in that: also include steel and mould pipe die core, described steel is moulded pipe die core and steel and moulded pipe clamp gripping member and match.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420199815.2U CN203831645U (en) | 2014-04-23 | 2014-04-23 | Semi-automatic steel-plastic composite pipe production equipment |
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CN201420199815.2U CN203831645U (en) | 2014-04-23 | 2014-04-23 | Semi-automatic steel-plastic composite pipe production equipment |
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CN203831645U true CN203831645U (en) | 2014-09-17 |
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CN201420199815.2U Expired - Fee Related CN203831645U (en) | 2014-04-23 | 2014-04-23 | Semi-automatic steel-plastic composite pipe production equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107512007A (en) * | 2016-06-15 | 2017-12-26 | 上海乔治费歇尔亚大塑料管件制品有限公司 | Thermal shrinkable sleeve compressive shrinkage machines |
CN113701513A (en) * | 2021-08-31 | 2021-11-26 | 新疆八一钢铁股份有限公司 | Energy-saving steel waste heat utilization device |
CN114670377A (en) * | 2022-04-09 | 2022-06-28 | 河北圣耐普特矿山设备有限公司 | Rubber casting pipeline vulcanization process |
-
2014
- 2014-04-23 CN CN201420199815.2U patent/CN203831645U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107512007A (en) * | 2016-06-15 | 2017-12-26 | 上海乔治费歇尔亚大塑料管件制品有限公司 | Thermal shrinkable sleeve compressive shrinkage machines |
CN113701513A (en) * | 2021-08-31 | 2021-11-26 | 新疆八一钢铁股份有限公司 | Energy-saving steel waste heat utilization device |
CN114670377A (en) * | 2022-04-09 | 2022-06-28 | 河北圣耐普特矿山设备有限公司 | Rubber casting pipeline vulcanization process |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140917 Termination date: 20160423 |
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CF01 | Termination of patent right due to non-payment of annual fee |