CN202830414U - Fiber processing device - Google Patents
Fiber processing device Download PDFInfo
- Publication number
- CN202830414U CN202830414U CN 201220418496 CN201220418496U CN202830414U CN 202830414 U CN202830414 U CN 202830414U CN 201220418496 CN201220418496 CN 201220418496 CN 201220418496 U CN201220418496 U CN 201220418496U CN 202830414 U CN202830414 U CN 202830414U
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- heating
- fiber
- process device
- jet
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Abstract
The utility model discloses a fiber processing device which comprises a discharging module, a cooling module, a heating module, an injecting module and a transmission module. The cooling module is arranged below the discharging module and comprises two cooling channels which are oppositely arranged. A funnel is arranged between the cooling module and the discharging module. An outlet of the funnel is arranged between the two cooling channels. The heating module is arranged on the lower side of the cooling module. The injecting module is arranged below the heating module. A control valve is arranged at the position of an outlet of the injecting module. The transmission module is arranged below the injection module. The fiber processing device is small in volume, small in floor area, simple in structure, convenient to maintain, and capable of saving cost in quantity and improving production efficiency.
Description
Technical field
The utility model relates to the product processing device field, is specifically related to a kind of fiber process device for the manufacture of nonwoven fabric.
Background technology
Nonwoven fabric is being made under the condition as suspension media with water or air by the raw material that comprises chemical fibre and string etc., though name is called cloth, but can not weave, nonwoven fabric is the environment-friendly materials of a new generation, have powerful good, air permeable waterproof, environmental protection, pliable and tough, nonpoisonous and tasteless, and the advantages such as low price have the characteristics such as the water of refusing, ventilative, pliable and tough, not combustion-supporting, nontoxic nonirritant, rich color.If this material places outdoor through natural decomposition, its MaLS only has 90 days, places indoor decomposition in 8 years, and is nontoxic during burning, tasteless, and without any material of leaving over, thereby free from environmental pollution, therefore environment protecting is splendid, because these advantage and disadvantages, nonwoven fabric has obtained using widely, can be applicable to agricultural film, shoemaking, process hides, mattress, child-mother-covering, decorate, chemical industry, printing, automobile, building materials, the every profession and trades such as furniture can be used as PADDING CLOTH, health care disposable surgical clothing, mouth mask, cap, sheet, the disposable tablecloth in hotel, beauty treatment, the gift bag of Saunas and even current fashion, the elaboration bag, shopping bag, advertising bag etc.
And the main material of making nonwoven fabric is fiber, and in the prior art, the fiber that this class is made nonwoven fabric needs a plurality of operations to process, and needs accordingly a plurality of devices to realize, thus, the equipment of production is larger, and cost is higher, is not easy to large-scale popularization.
The utility model content
The utility model has overcome the deficiencies in the prior art, provides a kind of volume of solution little, and it is convenient to make, and energy consumption is low, the fiber process device that the properties of product of making are good.
For solving above-mentioned technical problem, the utility model by the following technical solutions:
A kind of fiber process device comprises material discharging module, refrigerating module, heating module, jet module and transport module; It is characterized in that: described material discharging module comprises that at least one is provided with the ejecting head of at least two spouts, and described spout is arrayed in the end of shower nozzle; Described refrigerating module is arranged on the material discharging module below, described refrigerating module comprises two cooling ducts that are oppositely arranged, be provided with funnel between described refrigerating module and the described material discharging module, between hopper outlet setting and described two cooling ducts, the opposite end of described two cooling ducts is by the material sealing of good permeability; Described heating module is arranged at the refrigerating module downside, and heating module comprises cylindric body and intermediate throughholes, and the top of this cylindric body is provided with the guiding annulus, and a pair of heating plate with area of heating surface is arranged at the inside of this cylindric body; Described jet module is positioned at the below of described heating module, and described jet module exit is provided with control valve; Described jet module below is provided with transport module.
Further technical scheme is that described spout is six, and described shower nozzle has four.
Further technical scheme is that described heating plate is V-shaped, is arranged at the intermediate throughholes both sides of described cylindric body.
Further technical scheme is that described funnel is connected with material discharging module with bolt by connecting rod.
Further technical scheme is that described transport module comprises the fiber absorption module, and described fiber absorption module comprises the absorption fan and absorbs the space.
Further technical scheme is also to be provided with the electrode compression module between described jet module and the refrigerating module, and this electrode compression module comprises two electrodes that are oppositely arranged.
Compared with prior art, the beneficial effects of the utility model are: volume is little, and floor space is few, and simple in structure, and is easy to maintenance, can save in a large number cost, enhances productivity.
Description of drawings
Fig. 1 is the utility model overall structure schematic diagram.
The specific embodiment
Below in conjunction with accompanying drawing the utility model is further elaborated.
As shown in Figure 1, the utility model provides a kind of chemical fibre processing unit (plant), a kind of fiber process device of an embodiment of the present utility model, and this fiber process device 1 comprises material discharging module 3, refrigerating module 10, heating module 11, jet module 16 and transport module.
Wherein, above-mentioned material discharging module 3 is for having the ejecting head of a plurality of ejiction openings 4, and it is a plurality of that described spout is provided with, and as preferred embodiment, the spout of the present embodiment is six, and simultaneously as preferred embodiment, the described shower nozzle of this enforcement is four; Six spouts are arrayed in the end of shower nozzle, this shower nozzle is supplied with thermoplasticity synthetic thermoplastic synthetic resin raw material by the feeder (not shown), and the inside spinning by shower nozzle pressurizes ejection with ejection from ejiction opening 4, at this moment, this thermoplastic synthetic resin raw material is called fiber filament bundle 2; Below ejiction opening 4, be provided with above-mentioned refrigerating module 10, be keeping warmth space 7 between this ejiction opening 4 and the refrigerating module 10, as preferred embodiment, be connected with a funnel (not shown) by connecting rod and bolt at material discharging module between material discharging module and the refrigerating module in the present embodiment, between the hopper outlet setting of described funnel and described two cooling ducts, and described funnel is arranged within the keeping warmth space 7; The temperature of fiber filament bundle in keeping warmth space do not change substantially, this refrigerating module 10 comprises two cooling ducts that are oppositely arranged, there is air pressurized source (not shown) the rear end of these two cooling ducts, this air pressurized source can be air blast, fan etc., the opposite end of these two cooling ducts is sealed by the good permeability material, thus, this air stream cools off the fiber filament bundle 2 that the cooling space 8 from the cooling duct passes through.
This heating module 11 is arranged at the refrigerating module downside, this heating module comprises cylindric body 12, fiber filament bundle 2 falls from the intermediate throughholes of this cylindric body, the top of this cylindric body 12 is provided with guiding annulus 20, the bootable fiber filament bundle 2 of this guiding annulus falls from the center of the intermediate throughholes of cylindric body 12 accurately, and a pair of heating plate 13 with area of heating surface 15 is arranged at the inside of this cylindric body 12, preferably, this is to the V-shaped intermediate throughholes both sides that are arranged at this cylindric body 12 of heating plate, this to heating plate to fiber filament Shu Jinhang warming temperature, its heating heat and intensification temperature depend on the character of fiber filament, this temperature is to be higher than the softening temperature of fiber filament but the melt temperature that is lower than fiber filament, can control this to the heating-up temperature of heating plate 13 by control system.
This jet module 16 is positioned at the below of this heating module 10, the middle part of this jet module 16 has through hole, this through hole upper end is horn-like and falls into jet module 16 with better permission fiber filament bundle, have a plurality of pressurized jet passages in the annulus body of this jet module 16, these a plurality of pressurized jet passages come together in the playpipe 17 of these jet module 16 bottoms, and this playpipe 17 is provided with jet 18, thus, after the fiber filament bundle enters jet module 16, pressurized injection channel stretches, fiber filament is called staple fibre broken (also can be described as spray disconnected) in playpipe after, and the expulsion pressure of the length of this staple fibre and jet module 16 is relevant with the length of playpipe 17, expulsion pressure is larger, the length of playpipe is longer, and the staple fibre that forms after then spraying is also shorter, otherwise too.As preferred embodiment, the utility model fiber process device in the present embodiment, described jet module exit is provided with control valve 111, control valve is controlled its self-timing by timing control circuit and is opened and closed, control valve also can its opening and closing of Artificial Control, can obtain thus the fiber of fixed length, obtain according to actual needs corresponding segment of fiber.
Preferably, between this jet module 16 and refrigerating module 10, also be provided with electrode compression module 19, this electrode compression module 19 comprises two electrodes that are oppositely arranged, should carry out preliminary treatment to the electrode pair fiber filament bundle 2 that is oppositely arranged, improve its density, increase the ejection efficiency of jet module 16 and spray the rear staple fibre uniformity that forms.
Below this jet module 16, be provided with transport module, this transport module comprises at least one driving wheel and at least one driven pulley, and around the transport tape 5 of above-mentioned driving wheel and driven pulley, staple fibre drops down onto transport tape 5 formation resin short fiber layers after jet module 16 ejections, both formed the nonwoven fabric raw material after the transmission cooling.
Preferably, also be provided with absorption of air module 21 in transport module, this absorption of air module is arranged at transport tape 5 inboards so that the staple fibre that falls is cooled off, and it comprises the absorption fan and absorbs the space.
Preferably, be provided with at least one pair of format roll at the transport module rear side, this at least one pair of format roll can continue extrusion forming with the nonwoven fabric raw material to be processed, with the last nonwoven fabric finished product of direct formation.
" embodiment " who speaks of in this manual, " another embodiment ", " embodiment ", etc., refer to specific features, structure or the characteristics described in conjunction with this embodiment and be included among at least one embodiment that the application's generality describes.A plurality of local appearance statement of the same race is not necessarily to refer to same embodiment in specification.Furthermore, when describing a specific features, structure or characteristics in conjunction with arbitrary embodiment, what advocate is to realize that in conjunction with other embodiment this feature, structure or characteristics also drop in the scope of the present utility model.
Although a plurality of explanatory embodiment with reference to utility model is described the utility model here, but, should be appreciated that, those skilled in the art can design a lot of other modification and embodiments, and these are revised and embodiment will drop within the disclosed principle scope and spirit of the application.More particularly, in the scope of, accompanying drawing open in the application and claim, can carry out multiple modification and improvement to building block and/or the layout of subject combination layout.Except modification that building block and/or layout are carried out with improving, to those skilled in the art, other purposes also will be obvious.
Claims (6)
1. a fiber process device comprises material discharging module, refrigerating module, heating module, jet module and transport module; It is characterized in that: described material discharging module comprises that at least one is provided with the ejecting head of at least two spouts, and described spout is arrayed in the end of shower nozzle; Described refrigerating module is arranged on the material discharging module below, described refrigerating module comprises two cooling ducts that are oppositely arranged, be provided with funnel between described refrigerating module and the described material discharging module, between hopper outlet setting and described two cooling ducts, the opposite end of described two cooling ducts is by the material sealing of good permeability; Described heating module is arranged at the refrigerating module downside, and heating module comprises cylindric body and intermediate throughholes, and the top of this cylindric body is provided with the guiding annulus, and a pair of heating plate with area of heating surface is arranged at the inside of this cylindric body; Described jet module is positioned at the below of described heating module, and described jet module exit is provided with control valve; Described jet module below is provided with transport module.
2. a kind of fiber process device according to claim 1 is characterized in that described spout is six, and described shower nozzle has four.
3. a kind of fiber process device according to claim 1 is characterized in that described heating plate is V-shaped, is arranged at the intermediate throughholes both sides of described cylindric body.
4. a kind of fiber process device according to claim 1 is characterized in that described funnel is connected with material discharging module with bolt by connecting rod.
5. a kind of fiber process device according to claim 1 is characterized in that described transport module comprises the fiber absorptive unit, and described fiber absorptive unit comprises the absorption fan and absorbs the space.
6. a kind of fiber process device according to claim 1 is characterized in that also being provided with between described jet module and the refrigerating module electrode presser unit, and this electrode presser unit comprises two electrodes that are oppositely arranged.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220418496 CN202830414U (en) | 2012-08-22 | 2012-08-22 | Fiber processing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201220418496 CN202830414U (en) | 2012-08-22 | 2012-08-22 | Fiber processing device |
Publications (1)
Publication Number | Publication Date |
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CN202830414U true CN202830414U (en) | 2013-03-27 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201220418496 Expired - Fee Related CN202830414U (en) | 2012-08-22 | 2012-08-22 | Fiber processing device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102776708A (en) * | 2012-08-22 | 2012-11-14 | 成都彩虹环保科技有限公司 | Fiber processing device |
-
2012
- 2012-08-22 CN CN 201220418496 patent/CN202830414U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102776708A (en) * | 2012-08-22 | 2012-11-14 | 成都彩虹环保科技有限公司 | Fiber processing device |
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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: 20130327 Termination date: 20140822 |
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EXPY | Termination of patent right or utility model |