CN204112009U - Collagenous fibres new type of airflow lapping machine and base cloth production line - Google Patents
Collagenous fibres new type of airflow lapping machine and base cloth production line Download PDFInfo
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- CN204112009U CN204112009U CN201420446160.4U CN201420446160U CN204112009U CN 204112009 U CN204112009 U CN 204112009U CN 201420446160 U CN201420446160 U CN 201420446160U CN 204112009 U CN204112009 U CN 204112009U
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Abstract
The utility model discloses a kind of collagenous fibres new type of airflow lapping machine, comprise for carry the Song Xian mechanism of collagenous fibres, for the formation of fibroreticulate lapper, for detach web surface protrude collagenous fibres flattening mechanism and for fibroreticulate net feeding mechanism after carrying leveling, flattening mechanism is the brush roll near lapper, web surface can be detached and protrude collagenous fibres, make fiber web leveling.In casing, blow collagenous fibres by feeding airduct, improve the distributing homogeneity of collagenous fibres on fiber web; Be provided with baffle plate, optimize the position of casing import, avoid collagenous fibres from brush roll or the gap landing between lapper and cabinet wall in net feeding mechanism; Be provided with special fiber dispersion mechanism, improve the uniformity before collagenous fibres feeding casing.The utility model also comprises the base cloth production line containing said flow lapping machine.
Description
Technical field
The utility model relates to field of textiles, is specifically related to a kind of the air-laid machine and the base cloth production line that can be used for collagenous fibres or contain collagenous fibres.
Background technology
The recycling of leather castoff, has become domestic and international process hides and one of environmentalist's concern and the important topic endeavouring research.From leather castoff, extracting collagenous fibres, to be reprocessed into regeneration base cloth be exactly one of effective approach, meets " sustainable development " strategy; And the regeneration base cloth obtained has the advantages such as antistatic, fire-retardant, ventilative, soft, moisture absorption, and artificial base cloth can not be compared, be again that animal raw hide institute is unmatchable in its advantage on cost.
Although people know that a large amount of compositions in the Animal Skin of pigskin, ox-hide and so on are collagenous fibres, the method extracting collagenous fibres from it needs special device.Such as, more straight for cotton, fiber crops, bamboo or hair etc. and lapping device that the is collagenous fibres of length is just not suitable for for the lapping process in curling and short collagenous fibres.Original collagenous fibres lapping device, if publication number is lapping device disclosed in the patent of CN203295690 U, for the mixing lapping process of short, long collagenous fibres, as the collagenous fibres of 0.1 ~ 3 centimeter of length range, paved collagenous fiber network performance is uneven, and then the problems such as local is partially hard, local strength is low easily appear in the base cloth manufactured; Therefore require that the collagenous fibres length range being used for lapping is narrower.Entangle its reason to be, first, when existing collagenous fibres lapping device is used for the mixing lapping of length collagenous fibres, short collagenous fibres easily first fall within gauze surface, and long collagenous fibres just fall within gauze surface after again or repeatedly separating fibre, cause the easy skewness of length collagenous fibres; Secondly, even if distribution is comparatively even, because length collagenous fibres length is different, the collagenous fiber network obtained also uneven thickness, and this uneven thickness increases along with other increase of length difference of length collagenous fibres; Due to the skewness of length collagenous fibres and the length difference of length collagenous fibres, just there is hardness, intensity difference in the base cloth two dimension aspect that water thorn obtains after reinforcing.
Therefore, be necessary that design is a kind of and be applicable to the process equipment of length collagenous fibres mixing lapping and corresponding base cloth production line.
Summary of the invention
One of the purpose of this utility model is to overcome above-mentioned defect, provides a kind of process equipment being applicable to length collagenous fibres mixing lapping.This lapping device is applicable to be as short as 0.1 centimeter, grows to the collagenous fibres mixing lapping of 3 ~ 5 centimeters.
Second object of the present utility model is to provide a kind of base cloth production line.
For realizing above-mentioned first object, technical solution adopted in the utility model is a kind of collagenous fibres new type of airflow lapping machine, comprise for carry the Song Xian mechanism of collagenous fibres, for the formation of fibroreticulate lapper, for detach web surface protrude collagenous fibres flattening mechanism and for fibroreticulate net feeding mechanism after carrying leveling; Described flattening mechanism is the brush roll near described lapper.For realizing the second object of the present utility model, technical solution adopted in the utility model is that a kind of base cloth production line comprises above-mentioned collagenous fibres new type of airflow lapping machine.
Due to length collagenous fibres skewness or length collagenous fibres length difference, cause web surface out-of-flatness.Compared with existing air-laid machine, the utility model is provided with flattening mechanism, flattening mechanism can detach web surface and protrude collagenous fibres, makes fiber web leveling, thus water thorn reinforce after the Ji Bu that obtains in two-dimentional on the performance such as hardness, intensity more homogeneous.
For simplifying structure, realize detaching the collagenous fibres that fiber web protrudes equably simultaneously, preferred technical scheme is, described lapper comprises inner core in inside and outside nested structure and urceolus, and inner core is fixed in frame, the top of inner core barrel is provided with open region, the two ends of inner core are provided with sealing plate, and sealing plate is provided with the vacuum exhaust pipe be connected with vavuum pump, and the barrel of urceolus is cage body structure, the outer wall of cage body is surrounded with gauze, is provided with in one end of described cage body wheel of passing on Gong; Described brush roll is located at side, urceolus top, and brush roll is fixed in frame, be arranged in parallel with urceolus.
In order to improve equipment flexibility, can prepare the fiber web of different-thickness, preferred technical scheme is that the gap of described brush roll and described urceolus is adjustable further.
In order to make the service life of raising brush roll, and not easily scratch fiber web, preferred technical scheme is that described brush roll is the carbon brush roller be connected with driving mechanism further.
In order to improve the collagenous fibres uniformity in course of conveying, and then improve uniformity into the net, preferred technical scheme is, this collagenous fibres new type of airflow lapping machine also comprises casing; Described casing top is provided with import, described lapper and the described middle part of leveling organization establishes in casing, described net feeding mechanism is through the middle and lower part of casing, and the part of net feeding mechanism in casing is positioned at the below of lapper, the import of the outlet connect box of described Song Xian mechanism; Wherein, described Song Xian mechanism is feeding airduct, and the import of feeding airduct is connected with the outlet of feeding fan.By blowing the method for length collagenous fibres in casing, making length collagenous fibres fall within urceolus simultaneously, avoiding length collagenous fibres skewness on fiber web.The below that the part of net feeding mechanism in casing is positioned at lapper is set, makes it possible to multilayer lapping.
Pile up dead angle in order to avoid producing, preferred technical scheme is, corner, the top inwall of described casing is provided with rounding off structure.
In order to better control fibroreticulate thickness evenness, avoid collagenous fibres from the gap between casing and brush roll or the gap landing between urceolus and casing to net feeding mechanism, preferred technical scheme is, the cabinet wall near described brush roll extends and is provided with for stoping collagenous fibres to fall within baffle plate net feeding mechanism from the gap between brush roll and cabinet wall; Cabinet wall away from described brush roll extends and is provided with for stoping collagenous fibres to fall within baffle plate net feeding mechanism from the gap between described lapper and cabinet wall.Preferred described baffle plate is curved baffle.
In order to avoid collagenous fibres directly blow towards lapper, avoid collagenous fibres from the gap of above-mentioned indication landing on net feeding mechanism, make simultaneously not the collagenous fibres that adsorb by the open region of urceolus again can circulate, be adsorbed by open region, preferred technical scheme is, the side on casing top is located in the import of described casing.
In order to make the fiber web after leveling send into smoothly net feeding mechanism from the urceolus of lapper, preferred technical scheme is, is provided with the arc-shaped guide plate adapted with the outer tube wall of described urceolus between described net feeding mechanism and described brush roll; Spacing between arc-shaped guide plate and urceolus is at least the spacing between described hairbrush and described urceolus.
In order to improve dispersing uniformity before collagenous fibres are sent in casing, mixing uniformity and then improve fibroreticulate uniformity; Preferred technical scheme is, this collagenous fibres new type of airflow lapping machine also comprises fiber dispersion mechanism; Described fiber dispersion mechanism is dispersion tube, and the import of dispersion tube is connected with the outlet of described feeding fan, and the outlet of dispersion tube is connected with the import of described feeding airduct; Be provided with shaft in described dispersion tube, shaft is provided with stirring vane; The root of shaft is connected with power set.The benefit that fiber dispersion mechanism is arranged between feeding fan and feeding airduct is also, improves the aeration quantity between collagenous fibres inside, improves the warm and sunny softness of collagenous fibres.
In order to avoid the deflection of shaft, make all collagenous fibres sent into by feeding fan can be stirred blade disperseed, preferred technical scheme is that described dispersion tube and described shaft are vertically arranged, and the root of shaft is located at the bottom of dispersion tube further; The outlet of described feeding fan connects the bottom of dispersion tube; The import of described feeding airduct connects the top of dispersion tube.
In order to the collagenous fibres in recycled fiber net course of conveying, and collagenous fibres can be utilized in time, preferred technical scheme is, the below of described net feeding mechanism is provided with uncovered collagenous fibres collecting box, and described collagenous fibres collecting box connects fiber dispersion mechanism through material return mechanism; Described material return mechanism comprises feed back airduct and is located at the feed back blower fan on feed back airduct.
In order to save manpower consumption, make production line integration, this collagenous fibres new type of airflow lapping machine also comprises collagenous fibres metering device; The import of described feeding fan is connected with the outlet of collagenous fibres metering device.
The utility model advantage and beneficial effect are: the utility model is provided with flattening mechanism, flattening mechanism can detach web surface and protrude collagenous fibres, makes fiber web leveling, wherein optimizes the structure of flattening mechanism, flattening mechanism is service life not only, and not easily scratch fiber web; By blowing collagenous fibres in casing, improve the distributing homogeneity of collagenous fibres on fiber web; Be provided with baffle plate, optimize the position of casing import, avoid collagenous fibres from brush roll or the gap landing between lapper and cabinet wall in net feeding mechanism, ensure that fibroreticulate thickness evenness; Be provided with special fiber dispersion mechanism, the aeration quantity of collagenous fibres and warm and sunny soft can be improved, improve the dispersion before collagenous fibres are sent in casing and mixing uniformity; Be provided with material return mechanism, can collagenous fibres in recycled fiber net course of conveying, and the collagenous fibres of recovery can be utilized in time.
This equipment also have flexibility good, can multilayer lapping, save the advantage of manpower consumption.
This air-laid equipment is applicable to collagenous fibres, and the spendable collagenous fibres length range of lapping is large, and can prepare the fiber web of different-thickness, performance is homogeneous in the two-dimensional direction for the fiber web obtained and base cloth.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model collagenous fibres new type of airflow lapping machine;
Fig. 2 is the structural representation of lapper;
Fig. 3 is the top view of casing inner upper in Fig. 1;
Fig. 4 is the collagenous fibres circulation schematic diagram in Fig. 1 in casing;
Fig. 5 is the collagenous fibres circulation schematic diagram in Fig. 3 in casing.
In figure: 1, Song Xian mechanism; 2, lapper; 3, brush roll; 4, net feeding mechanism; 5, casing; 6, arc-shaped guide plate; 7, fiber dispersion mechanism; 8, material return mechanism; 9, fiber web; 11, feeding airduct; 12, feeding fan; 13, collagenous fibres metering device; 21, inner core; 22, urceolus; 23, vacuum exhaust pipe; 24, vavuum pump; 25, to pass on Gong wheel; 41, collagenous fibres collecting box; 52, the first plate washer; 53, the second plate washer; 71, dispersion tube; 72, shaft; 73, stirring vane; 81, feed back airduct; 82, feed back blower fan; 210, open region; 211, sealing plate; 220, gauze.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is further described.Following examples only for clearly the technical solution of the utility model being described, and can not limit protection domain of the present utility model with this.
The utility model is a kind of collagenous fibres new type of airflow lapping machine and a kind of base cloth production line containing this air-laid machine.This air-laid machine, as shown in Figure 1, comprises Song Xian mechanism 1, lapper 2, flattening mechanism and net feeding mechanism 4.Wherein, Song Xian mechanism 1 is for carrying collagenous fibres; Lapper 2 is for the formation of fiber web 9; Flattening mechanism is the brush roll 3 near lapper 2, protrudes collagenous fibres for detaching fiber web 9 surface; Net feeding mechanism 4 is for carrying the fiber web after leveling 9.
By arranging flattening mechanism, for detaching the collagenous fibres that fiber web 9 surface is protruded, make fiber web more 9 smooth, thus the Ji Bu that obtains after reinforcing of water thorn in two-dimentional on the performance such as hardness, intensity more homogeneous.
Specifically, the structural design of lapper 2 can have a lot, can use for reference the lapper of cotton wool spinning.Preferred lapper 2 is, as shown in Figure 2, comprise the inner core 21 in inside and outside nested structure and urceolus 22, inner core 21 is fixed in frame, and the top of inner core 21 barrel is provided with open region 210, and the two ends of inner core 21 are provided with sealing plate 211, sealing plate 211 is provided with the vacuum exhaust pipe 23 be connected with vavuum pump 24, the barrel of urceolus 22 is cage body structure, the outer wall of cage body is surrounded with gauze 220, is provided with in one end of cage body wheel 25 of passing on Gong.Wheel 25 of passing on Gong can be arranged on the gear be in transmission connection with driving mechanism on urceolus 22 outer wall or sprocket wheel or belt pulley.
Brush roll 3 is located at side, urceolus 22 top, and brush roll 3 is fixed in frame, be arranged in parallel with urceolus 22.Brush roll 3 is connected with driving mechanism, rotates relative to urceolus 22.The driving mechanism that brush roll 3 connects can be the same driving mechanism driving wheel 25 of passing on Gong, and also can be different driving mechanisms.During for same driving mechanism, brush roll 3 is connected by transmission mechanism with drive 25.
Brush roll 3 can control the thickness of fiber web 9 with the gap of urceolus 22, controls to detach collagenous fibres amount.In order to improve the flexibility of equipment, preparing the fiber web 9 of different-thickness, brush roll 3 can be designed adjustable with the gap of urceolus 22.Brush roll 3 can select common plastics brush roll or steel brush roller.But short for service life from common plastics brush roll 3; Steel brush roller intensity is too high, easy damaged fiber web 9 intensity.In order to make the service life of raising brush roll 3, and ensure the intensity of fiber web 9, select carbon brush roller as brush roll 3, it has good intensity and toughness, and deformability is strong, not easily scratches fiber web 9, has again good service life simultaneously.
The structure of Song Xian mechanism 1 can have multiple choices, and can be roll surface conveying, also can be the cylinder being furnished with some working rolls, the latter not only plays conveying effect but also play further decomposes collagen fiber, the fibriilar effect of dispersion agent.But, the Song Xian mechanism of existing lapping machine, for the blending transportation of length collagenous fibres on a large scale, easily makes short collagenous fibres first be input to lapper 2, and is transported to lapper 2 after long collagenous fibres.
Thus, in order to improve the collagenous fibres uniformity in course of conveying, and then improve uniformity into the net, this collagenous fibres new type of airflow lapping machine have also been devised casing 5: casing 5 top is provided with casing import; Lapper 2 and hairbrush 3 are arranged at the middle part in casing 5, and net feeding mechanism 4 is through the middle and lower part of casing 5, and the part of net feeding mechanism 4 in casing 5 is positioned at the below of lapper 2.In addition, select Song Xian mechanism 1 for feeding airduct 11, the import of the outlet connect box 5 of feeding airduct 11; The import of feeding airduct 11 is connected with the outlet of feeding fan 12.
By blowing the method for length collagenous fibres in casing 5, avoiding length collagenous fibres different time and falling on urceolus 22, improve uniformity into the net.But blow in process, common casing 5 structure can cause collagenous fibres to be deposited in the periphery closed angle of casing 5.For this reason, avoid producing collagenous fibres and pile up dead angle, corner, the top inwall of casing 5 is provided with rounding off structure, as shown in figures 1 and 3.
In addition, owing to being blow collagenous fibres, gap between casing 5 and brush roll 3, gap between urceolus 22 and casing 5 all can make collagenous fibres therefrom landing is to net feeding mechanism 4, although the collagenous fibres thickness causing lapper to obtain is even, the fiber web on net feeding mechanism 4 surface is uneven.In order to avoid collagenous fibres from landing between the gap of above-mentioned indication to net feeding mechanism 3, can extend at casing 5 inwall near brush roll 3 and be provided with for stoping collagenous fibres to fall within the first baffle plate 52 net feeding mechanism 4 from the gap between brush roll 3 and casing 5 inwall; Extend at casing 5 inwall away from brush roll 3 and be provided with for stoping collagenous fibres to fall within second baffle 53 net feeding mechanism 4 from the gap between lapper 2 and casing 5 inwall.First, second plate washer 52,53 can also play avoids collagenous fibres to be deposited between the gap of above-mentioned indication.First, second baffle plate 52,53 is preferably selected to be curved baffle.
In the structure of casing 5, the import that can arrange casing 5 is the top with casing, even if but arrange first, second baffle plate 52,53 like this, collagenous fibres are also easy to be blown into net feeding mechanism 4 from the gap between first, second baffle plate 52,53 and brush roll 3, urceolus 22.Therefore collagenous fibres are preferably avoided directly to blow towards lapper 3.On this basis, the side on casing 5 top is located in the import of design casing 5, but not the top of casing 5, the import of such casing 5 is not directly blow towards urceolus 22, effectively can avoid collagenous fibres landing from the gap of above-mentioned indication; And by the rounding off structure of first, second baffle plate 52,53 and casing 5 surrounding, not the collagenous fibres that adsorb by the open region 210 of urceolus 22 can form closed circuit, again adsorb by the open region of urceolus 22, as shown in Figure 4 and Figure 5.
The dispersing uniformity of collagenous fibres before sending in casing 5, mixing uniformity also should affect the uniformity of fiber web 9.For this reason, this collagenous fibres new type of airflow lapping machine also can design a fiber dispersion mechanism 7.Fiber dispersion mechanism 7 is chosen as the dispersion tube 71 with barrel mechanism, the import of dispersion tube 71 is connected with the outlet of feeding fan 12, the outlet of dispersion tube 71 is connected with the import of feeding airduct 11, and feeding fan 12 is connected by dispersion tube 71 with feeding airduct 12.Be provided with shaft 72 in dispersion tube 71, shaft 72 is provided with stirring vane 73; The root of shaft 72 is connected with power set.Stirring vane 73 can be many groups; Many groups stirring vane 73, each group stirring vane 73 can arrange the certain angle that staggers and arrange.The more important thing is, fiber dispersion mechanism 7 is arranged between feeding fan 12 and feeding airduct 11, the aeration quantity between collagenous fibres inside can be improved, improve the warm and sunny softness of collagenous fibres.
Preferably dispersion tube 71 and shaft 72 are vertically arranged, the root of shaft 72 is located at the bottom of dispersion tube 71; The outlet of feeding fan 12 connects the bottom of dispersion tube 71, and the import of feeding airduct 12 connects the top of dispersion tube 71.The deflection of shaft 72 can be avoided like this, make all collagenous fibres sent into by feeding fan 12 can be stirred blade 73 and disperseed.
In order to the collagenous fibres in recycled fiber net course of conveying, and collagenous fibres can be utilized in time, can be provided with uncovered collagenous fibres collecting box 41 in the below of net feeding mechanism 4, collagenous fibres collecting box 41 connects dispersion tube 71 through material return mechanism 8; Material return mechanism 8 comprises feed back airduct 81 and is located at the feed back blower fan 82 on feed back airduct 81.For avoiding with feeding airduct 11 to blowing, feed back airduct 81 can be connected to middle part or the top of dispersion tube 71, therefore the collagenous fibres of feed back airduct 81 conveying are more more even, and the collagenous fibres that feeding airduct 12 is carried need the dispersed with stirring of longer time.
In order to save manpower consumption, make production line integration, this collagenous fibres new type of airflow lapping machine also comprises collagenous fibres metering device 13; The import of described feeding fan 12 is connected with the outlet of collagenous fibres metering device 13.
The structure of net feeding mechanism 4 can be the net feeding mechanism 4 in common air-laid machine.
But in order to make the fiber web after leveling 9 send into net feeding mechanism 4 smoothly from the urceolus 22 of lapper 2, can be provided with arc-shaped guide plate 6 between net feeding mechanism 4 and brush roll 3, arc-shaped guide plate 6 adapts with the outer tube wall of urceolus 22.For making fiber web 9 by the gap between arc-shaped guide plate 6 and urceolus 22, the spacing controlled between arc-shaped guide plate 6 and urceolus 22 is at least the spacing between hairbrush 3 and urceolus 22.
The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.
Claims (10)
1. a collagenous fibres new type of airflow lapping machine, it is characterized in that, comprise for carry the Song Xian mechanism of collagenous fibres, for the formation of fibroreticulate lapper, for detach web surface protrude collagenous fibres flattening mechanism and for fibroreticulate net feeding mechanism after carrying leveling; Described flattening mechanism is the brush roll near described lapper.
2. collagenous fibres new type of airflow lapping machine as claimed in claim 1, it is characterized in that, described lapper comprises inner core in inside and outside nested structure and urceolus, inner core is fixed in frame, and the top of inner core barrel is provided with open region, and the two ends of inner core are provided with sealing plate, sealing plate is provided with the vacuum exhaust pipe be connected with vavuum pump, the barrel of urceolus is cage body structure, and the outer wall of cage body is surrounded with gauze, is provided with in one end of described cage body wheel of passing on Gong; Described brush roll is located at side, urceolus top, and brush roll is fixed in frame, be arranged in parallel with urceolus.
3. collagenous fibres new type of airflow lapping machine as claimed in claim 2, it is characterized in that, the gap of described brush roll and described urceolus is adjustable; Described brush roll is the carbon brush roller be connected with driving mechanism.
4. the collagenous fibres new type of airflow lapping machine as described in claims 1 to 3 any one, is characterized in that, also comprise casing; Described casing top is provided with import, described lapper and the described middle part of leveling organization establishes in casing, described net feeding mechanism is through the middle and lower part of casing, and the part of net feeding mechanism in casing is positioned at the below of lapper, the import of the outlet connect box of described Song Xian mechanism; Wherein, described Song Xian mechanism is feeding airduct, and the import of feeding airduct is connected with the outlet of feeding fan.
5. collagenous fibres new type of airflow lapping machine as claimed in claim 4, it is characterized in that, corner, the top inwall of described casing is provided with rounding off structure; Cabinet wall near described brush roll extends and is provided with for stoping collagenous fibres to fall within baffle plate net feeding mechanism from the gap between brush roll and cabinet wall; Cabinet wall away from described brush roll extends and is provided with for stoping collagenous fibres to fall within baffle plate net feeding mechanism from the gap between described lapper and cabinet wall; Described baffle plate is curved baffle.
6. collagenous fibres new type of airflow lapping machine as claimed in claim 4, is characterized in that, be provided with the arc-shaped guide plate adapted with the outer tube wall of described urceolus between described net feeding mechanism and described brush roll; Spacing between arc-shaped guide plate and urceolus is at least the spacing between described hairbrush and described urceolus.
7. collagenous fibres new type of airflow lapping machine as claimed in claim 4, is characterized in that, also comprise fiber dispersion mechanism; Described fiber dispersion mechanism is dispersion tube, and the import of dispersion tube is connected with the outlet of described feeding fan, and the outlet of dispersion tube is connected with the import of described feeding airduct; Be provided with shaft in described dispersion tube, shaft is provided with stirring vane; The root of shaft is connected with power set.
8. collagenous fibres new type of airflow lapping machine as claimed in claim 7, it is characterized in that, the below of described net feeding mechanism is provided with uncovered collagenous fibres collecting box, and described collagenous fibres collecting box connects fiber dispersion mechanism through material return mechanism; Described material return mechanism comprises feed back airduct and is located at the feed back blower fan on feed back airduct.
9. collagenous fibres new type of airflow lapping machine as claimed in claim 4, is characterized in that, also comprise collagenous fibres metering device; The import of described feeding fan is connected with the outlet of collagenous fibres metering device.
10. a base cloth production line, is characterized in that the collagenous fibres new type of airflow lapping machine comprised described in claim 1-9 any one.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420446160.4U CN204112009U (en) | 2014-08-08 | 2014-08-08 | Collagenous fibres new type of airflow lapping machine and base cloth production line |
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| CN201420446160.4U CN204112009U (en) | 2014-08-08 | 2014-08-08 | Collagenous fibres new type of airflow lapping machine and base cloth production line |
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| US11001679B2 (en) | 2016-02-15 | 2021-05-11 | Modern Meadow, Inc. | Biofabricated material containing collagen fibrils |
| US11214844B2 (en) | 2017-11-13 | 2022-01-04 | Modern Meadow, Inc. | Biofabricated leather articles having zonal properties |
| US11352497B2 (en) | 2019-01-17 | 2022-06-07 | Modern Meadow, Inc. | Layered collagen materials and methods of making the same |
| US11913166B2 (en) | 2015-09-21 | 2024-02-27 | Modern Meadow, Inc. | Fiber reinforced tissue composites |
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2014
- 2014-08-08 CN CN201420446160.4U patent/CN204112009U/en not_active Expired - Lifetime
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| US11913166B2 (en) | 2015-09-21 | 2024-02-27 | Modern Meadow, Inc. | Fiber reinforced tissue composites |
| US11001679B2 (en) | 2016-02-15 | 2021-05-11 | Modern Meadow, Inc. | Biofabricated material containing collagen fibrils |
| US11286354B2 (en) | 2016-02-15 | 2022-03-29 | Modern Meadow, Inc. | Method for making a biofabricated material containing collagen fibrils |
| US11525042B2 (en) | 2016-02-15 | 2022-12-13 | Modern Meadow, Inc. | Composite biofabricated material |
| US11530304B2 (en) | 2016-02-15 | 2022-12-20 | Modern Meadow, Inc. | Biofabricated material containing collagen fibrils |
| US11542374B2 (en) | 2016-02-15 | 2023-01-03 | Modern Meadow, Inc. | Composite biofabricated material |
| CN107217389A (en) * | 2017-07-26 | 2017-09-29 | 安庆华欣产业用布有限公司 | Lapping curtain roller removes viscous embossing device |
| US11214844B2 (en) | 2017-11-13 | 2022-01-04 | Modern Meadow, Inc. | Biofabricated leather articles having zonal properties |
| US11352497B2 (en) | 2019-01-17 | 2022-06-07 | Modern Meadow, Inc. | Layered collagen materials and methods of making the same |
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