CN117630306A - Collagen fiber uniformity detection device and method - Google Patents

Collagen fiber uniformity detection device and method Download PDF

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Publication number
CN117630306A
CN117630306A CN202410102249.7A CN202410102249A CN117630306A CN 117630306 A CN117630306 A CN 117630306A CN 202410102249 A CN202410102249 A CN 202410102249A CN 117630306 A CN117630306 A CN 117630306A
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China
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plate
rod
collagen fiber
threaded
scraping
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CN202410102249.7A
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CN117630306B (en
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马龙
宋立国
王春雷
赵换英
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Shandong Haios Biotechnology Co ltd
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Shandong Haios Biotechnology Co ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/02Food

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  • Food Science & Technology (AREA)
  • Health & Medical Sciences (AREA)
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  • Chemical & Material Sciences (AREA)
  • Medicinal Chemistry (AREA)
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Abstract

The invention discloses a collagen fiber uniformity detection device and method, and belongs to the technical field of collagen casing production. The scraper comprises a bottom plate, wherein the top of the bottom plate is connected with a scraper, the scraper comprises a plurality of vertical plates, the same protection box is connected between the two corresponding vertical plates, bearings are embedded on opposite sides of the two corresponding vertical plates, and a rotating shaft is rotationally connected to the bearings; according to the invention, the second driving wheel on one side is driven to rotate by the rotation of the servo motor, the first driving wheel is driven to rotate by the second driving wheel through the synchronous belt, so that the second threaded rod drives the threaded seat to move, the threaded seat moves to drive the scraping long plate on one side to move, the scraping long plate moves to drive the hinged scraping short plate on one side to move, and the surface of the pore plate is scraped, so that collagen fibers adhered to the surface of the pore plate due to extrusion are scraped, and the influence on the result is avoided during the detection of the next batch.

Description

Collagen fiber uniformity detection device and method
Technical Field
The invention belongs to the technical field of collagen casing production, and particularly relates to a collagen fiber uniformity detection device and method.
Background
In the production process of collagen casings, the quality of the prepared collagen fiber mass plays a vital role in the quality of the finally blown casings. The collagen casing film is a net structure woven by collagen fibers through a machine head and is filled with auxiliary materials to finish production. If the collagen fibers are uneven, the uneven thickness problem can appear in the braiding process, and some phenomena such as leakage holes, weak points and the like are even generated, so that the casing is difficult to blow, the produced casing is easy to burst when being irrigated, in addition, uneven collagen fiber clusters can cause unstable pressure in the collagen extrusion process, the uneven collagen fiber clusters are easy to cause discontinuous production, even the machine head is not discharged, or the extrusion pressure is too large, so that the potential safety hazard is brought to production, and the uniformity detection of the collagen fibers is needed before the production.
When in actual use, because the collagen fibers in the extrusion charging basket are extruded out from the holes formed in the pore plate, the collagen fibers are adhered to the upper surface of the pore plate, so that the detection result is affected when the next batch of detection is carried out. In addition, different collagen fiber clusters need pore plates with different diameters to detect, and the replacement operation of the existing pore plates is troublesome.
Disclosure of Invention
The invention aims at: in order to solve the problem that collagen fibers adhered to the upper surface of an orifice plate are inconvenient to clean, a collagen fiber uniformity detection device and a collagen fiber uniformity detection method are provided.
In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a collagen fiber homogeneity detection device and method, includes the bottom plate, the bottom plate top is connected with scrapes and sweeps the device, scrape and sweep the device and include a plurality of risers, and be connected with same protection box between two corresponding risers, and two corresponding riser opposite sides all inlay and be equipped with the bearing, and the bearing rotation is connected with the pivot, and be connected with same second threaded rod between two pivots, wherein two pivot one sides are connected with first drive wheel and second drive wheel respectively, and one of them riser one side is connected with the mounting panel, mounting panel top fixed mounting has servo motor, the servo motor output is connected with the second drive wheel, the transmission is connected with the hold-in range between first drive wheel and the second drive wheel.
As a further description of the above technical solution:
the second threaded rod outer wall threaded connection has the screw thread seat, screw thread seat one side is connected with scrapes sweeps the long board, it articulates to scrape and sweeps the short board to scrape and sweep long board one side, it all is connected with the fixed plate to scrape and sweep long board both sides and scrape and sweep the short board both sides, scrape and sweep the fixed plate of long board one side and scrape and sweep and be connected with first spring between the fixed plate of short board same one side, and two scrape and sweep the opposite one side of short board and laminate mutually.
As a further description of the above technical solution:
the bottom of the vertical plate is connected with the top of the bottom plate, the protection box is sleeved outside the second threaded rod, and the outer wall of the thread seat slides in the protection box.
As a further description of the above technical solution:
one side of the top of the bottom plate is connected with a fixing frame, both sides of the inner wall of the fixing frame are provided with sliding grooves, sliding blocks are connected in the sliding grooves in a sliding way, the same moving plate is connected between the two sliding blocks, one side of the top of the moving plate is connected with a plurality of connecting rods, and a plurality of connecting rods top is connected with same force value sensor, force value sensor bottom is connected with the extrusion pole, movable plate one side inlays and is equipped with the uide bushing, and in the uide bushing with extrusion pole outer wall sliding connection, extrusion pole bottom is connected with embedded device.
As a further description of the above technical solution:
the embedded device comprises an inserting rod, an embedded groove is formed in the top of the inserting rod, a fixed block is connected to the bottom of the embedded groove, pin holes are formed in two sides of the embedded groove, and the inserting device is inserted into the embedded groove.
As a further description of the above technical solution:
the plug-in device comprises a connecting rod, a fixing groove is formed in the bottom of the connecting rod, placing grooves are formed in two sides of the connecting rod, a second spring is connected to one side in each placing groove, a pin rod is connected to one side of each second spring, and the pin rods are plugged in the pin holes.
As a further description of the above technical solution:
the top of the connecting rod is connected with the bottom of the extrusion rod, and the bottom of the plug rod is connected with a pore plate.
As a further description of the above technical solution:
the utility model discloses a movable plate, including fixed frame, slide bar, nut, bearing, driving motor, nut threaded connection, fixed frame top one side inlays and is equipped with two sliding sleeves, and sliding sleeve sliding connection has the slide bar, the slide bar both ends are connected in the mount both sides respectively, the movable plate top inlays and is equipped with the nut, and nut threaded connection has first threaded rod, the fixed frame inner wall bottom inlays and is equipped with the bearing, and the bearing internal rotation is connected with the pivot, and pivot one end is connected with first threaded rod bottom, fixed frame top fixed mounting has driving motor, driving motor's output shaft stretches into in the fixed frame, driving motor's output shaft is connected with first threaded rod top.
As a further description of the above technical solution:
the bottom plate top is connected with the storage bucket, storage bucket one side intercommunication has the valve, the storage bucket is located the orifice plate downside, and storage bucket opening size is the same with the orifice plate diameter.
The collagen fiber homogeneity detection method specifically comprises the following steps:
through driving motor rotation for driving motor drives first threaded rod and rotates, and first threaded rod rotates and drives the movable plate that inlays and be equipped with the nut and reciprocate, and the movable plate drives the power value sensor at top and removes, and the power value sensor drives the extrusion pole of bottom and removes, and then makes the extrusion pole drive the orifice plate of bottom remove the collagen fiber in the extrusion storage bucket, after the extrusion is accomplished, drives the second drive wheel through servo motor and rotates, drives first drive wheel through the hold-in range and rotates, and then makes the second threaded rod rotate, and the second threaded rod rotates and drives the screw thread seat and remove, and then makes to scrape and sweep the longboard and remove and scrape the orifice plate surface, and then clear up the orifice plate surface, makes the round pin pole break away from the pinhole through pressing the round pin pole, and then can change the orifice plate of different apertures.
In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:
1. according to the invention, the scraping device is arranged, the second driving wheel on one side is driven to rotate through the rotation of the servo motor, the second driving wheel drives the first driving wheel to rotate through the synchronous belt, so that the first driving wheel and the second driving wheel drive the two second threaded rods to synchronously rotate, the second threaded rods rotate to drive the threaded seat on the outer wall to move, the threaded seat moves to drive the scraping long plate on one side to move, the scraping long plate moves to drive the hinged scraping short plate on one side to move, and then the surface of the pore plate is scraped, so that collagen fibers adhered on the surface of the pore plate due to extrusion are scraped, and the influence on the result is avoided during the next batch of detection.
2. According to the invention, the embedded device and the plugging device are arranged, the embedded device is plugged into the embedded groove through the connecting rod, the fixing block in the embedded groove is plugged into the fixing groove at the bottom of the connecting rod, when the connecting rod is plugged into the embedded groove, the top of the embedded groove can extrude the pin rod, so that the pin rod is retracted, the pin rod is retracted and simultaneously extrudes the second spring, the second spring is stressed to generate resilience force, after the connecting rod is plugged into the embedded groove, and rotates, the pin rod is aligned with the pin holes formed in the two sides of the embedded groove, after the pin rod is aligned with the pin holes, the pin rod is extruded through the resilience force of the second spring, and then the pin rod is plugged into the pin holes, so that the device is connected, the installation efficiency of the device is improved, and the hole plates at the bottom of the embedded device can be replaced through replacing the embedded device, and the device can be replaced with hole plates with different apertures.
3. According to the invention, the driving motor rotates to drive the first threaded rod to rotate, the first threaded rod rotates to drive the moving plate embedded with the nut to move up and down, the sliding blocks on two sides slide in the sliding groove to enable the moving plate to stably run in the moving process, the sliding sleeve on the top of the moving plate slides on the outer wall of the sliding rod to enable the moving plate to move more stably during moving, stability of the device is improved, influence of shaking of the moving plate on detection of the force value sensor during moving is avoided, and accuracy of data is reduced.
Drawings
Fig. 1 is a schematic perspective view of a collagen fiber uniformity detecting device according to the present invention;
fig. 2 is an enlarged schematic view of a portion a in fig. 1 of a collagen fiber uniformity detecting device according to the present invention;
fig. 3 is a schematic structural diagram of a fixing frame of a collagen fiber uniformity detecting device according to the present invention;
fig. 4 is a schematic structural diagram of the cooperation of an embedding device and an inserting device of the collagen fiber uniformity detecting device according to the present invention;
fig. 5 is a schematic structural diagram of a scraping device of the collagen fiber uniformity detecting device according to the present invention;
fig. 6 is an enlarged schematic view of a portion B of fig. 5 of a collagen fiber uniformity detecting device according to the present invention.
Legend description: 1. a driving motor; 2. a fixing frame; 3. a first threaded rod; 4. a slide bar; 5. a scraping device; 501. a vertical plate; 502. a protection box; 503. a second threaded rod; 504. a screw seat; 505. scraping the long plate; 506. scraping and sweeping the short plate; 507. a first driving wheel; 508. a synchronous belt; 509. a servo motor; 510. a mounting plate; 511. a second driving wheel; 512. a first spring; 513. a fixing plate; 6. a bottom plate; 7. an extrusion rod; 8. an embedding device; 801. an embedding groove; 802. a fixed block; 803. inserting a connecting rod; 9. a plug-in device; 901. a connecting rod; 902. a fixing groove; 903. a pin rod; 904. a second spring; 10. a charging barrel; 11. a valve; 12. an orifice plate; 13. a connecting rod; 14. a force value sensor; 15. a moving plate; 16. a slide block; 17. and a sliding groove.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a collagen fiber homogeneity detection device, including bottom plate 6, bottom plate 6 top is connected with scrapes sweeps device 5, scrape and sweep device 5 and include a plurality of risers 501, and be connected with same protection box 502 between two corresponding risers 501, and two corresponding riser 501 opposite sides all inlay and be equipped with the bearing, and the bearing rotation is connected with the pivot, be connected with same second threaded rod 503 between two pivots, wherein two pivot one sides are connected with first drive wheel 507 and second drive wheel 511 respectively, and one of them riser 501 side is connected with mounting panel 510, mounting panel 510 top fixed mounting has servo motor 509, servo motor 509's output shaft is connected with second drive wheel 511, be provided with hold-in range 508 between first drive wheel 507 and the second drive wheel 511, second threaded rod 503 outer wall threaded connection has screw thread seat 504, screw thread seat 504 one side is connected with scrapes and sweeps long board 505, it articulates to sweep long board 505 one side, it is connected with fixed plate 513 to scrape long board 505 both sides and scrape and sweep short board 506 both sides, it is connected with fixed plate 513 to scrape long board 505 one side and sweep between the same side of board 506 and the fixed plate 502 of short board 502, and two side is connected with first drive wheel 502 at the opposite screw thread seat 502, and the protection box is provided with two opposite screw thread seat 502 to the top.
Further, opposite sides of the two wiper blades 506 may be configured to have a convex arc shape at the middle portion, so as to avoid interference between the two during rotation.
The implementation mode specifically comprises the following steps: the servo motor 509 rotates to drive the second driving wheel 511 on one side to rotate, the second driving wheel 511 rotates to drive the synchronous belt 508 to rotate, the synchronous belt 508 drives the first driving wheel 507 to rotate, further, the first driving wheel 507 and the second driving wheel 511 drive the two second threaded rods 503 to rotate synchronously, the second threaded rods 503 rotate to drive the threaded seat 504 to move, the threaded seat 504 moves to drive the scraping long plate 505 on one side to move, the scraping long plate 505 moves to drive the scraping short plate 506 hinged on one side to move, when the scraping short plate 506 contacts the plugging rod 803, the scraping short plate 506 rotates due to compression of the first spring 512 on one side and the first spring 512 on the other side stretches, then the scraping short plate 506 returns to the scraping short plate 506 due to resilience of the first spring 512 after passing through the plugging rod 803, and then the scraping and sweeping of the surface of the orifice plate 12 are carried out, collagen fibers adhered to the surface of the orifice plate 12 due to extrusion are thoroughly scraped, further, the effect of the second threaded rods 503 is prevented from being influenced when the next batch is detected, and the second threaded rods 503 are protected through the protection boxes 502.
The embedding device 8 comprises a plugging rod 803, an embedding groove 801 is formed in the top of the plugging rod 803, fixing blocks 802 are connected to the bottom of the embedding groove 801, pin holes are formed in both sides of the embedding groove 801, a plugging device 9 is inserted into the embedding groove 801, the plugging device 9 comprises a connecting rod 901, a fixing groove 902 is formed in the bottom of the connecting rod 901, placing grooves are formed in both sides of the connecting rod 901, a second spring 904 is connected to one side of the placing groove, a pin 903 is connected to one side of the second spring 904, the pin 903 is plugged into the pin holes, the top of the connecting rod 901 is connected to the bottom of the extrusion rod 7, and an orifice plate 12 is connected to the bottom of the plugging rod 803.
The implementation mode specifically comprises the following steps: the connecting rod 901 is inserted into the embedded groove 801, the fixing block 802 in the embedded groove 801 is inserted into the fixing groove 902 at the bottom of the connecting rod 901, when the connecting rod 901 is inserted into the embedded groove 801, the top of the embedded groove 801 can squeeze the pin 903, the pin 903 is retracted, the second spring 904 can be squeezed while the pin 903 is retracted, the connecting rod 901 is rotated after the connecting rod 901 is inserted into the embedded groove 801, the pin 903 is aligned with the pin holes formed in two sides of the embedded groove 801, after the pin 903 is aligned with the pin holes, the pin 903 is squeezed out through the resilience force of the second spring 904, the pin 903 is inserted into the pin holes, the device is connected, when the hole plate 12 at the bottom needs to be replaced, the pin 903 is separated from the pin holes through pressing the pin 903, then the embedded device 8 is pulled out of the device with the hole plate 12, the hole plates 12 with different apertures can be replaced, and the application range of the device is enlarged.
In order to prevent the pin 903 from being separated from the placement groove, the diameter of one end of the pin 903 in the placement groove is larger than that of the other end, a limiting part is formed at the large end of the pin 903, the limiting part is slidably connected with the inner wall of the placement groove, the threaded connection of the open end of the placement groove is provided with a limiting ring, the pin 903 slidably penetrates through the limiting ring and extends out, and the limiting part is matched with the limiting ring to limit the pin 903. The small end of the pin 903 is provided with an introduction portion whose diameter gradually decreases in a direction away from the connecting rod 901.
The fixed frame 2 is connected to one side of the top of the bottom plate 6, the sliding grooves 17 are formed in two sides of the inner wall of the fixed frame 2, the sliding blocks 16 are connected in the sliding grooves 17 in a sliding mode, the same movable plate 15 is connected between the two sliding blocks 16, a plurality of connecting rods 13 are connected to one side of the top of the movable plate 15, the same force value sensor 14 is connected to the top of the plurality of connecting rods 13, the extruding rod 7 is connected to the bottom of the force value sensor 14, the guide sleeve is embedded on one side of the movable plate 15, the guide sleeve is connected with the outer wall of the extruding rod 7 in a sliding mode, the embedding device 8 is connected to the bottom of the extruding rod 7, two sliding sleeves are embedded on one side of the top of the movable plate 15, the sliding sleeves are connected with the sliding rods 4 in a sliding mode, two ends of the sliding rods 4 are connected to two sides of the fixed frame 2 respectively, nuts are embedded in the movable plate 15, the nuts are connected with the first threaded rods 3 in a threaded mode, bearings are embedded on the bottom of the inner wall of the fixed frame 2, one end of each rotating shaft is connected with the bottom of the first threaded rods 3, the driving motor 1 is fixedly arranged on the top of the fixed frame 2, an output shaft of the driving motor 1 stretches into the fixed frame 2 and is connected with the top of the first threaded rods 3, the top of the first threaded rods 10, the top of the fixed frame 10 is connected with the first threaded rods 10, the valve 11 and the valve 10 is located on one side of the large hole plate 10 and the large hole plate 12 is located below the large hole plate 12, and the large hole plate 12 is located on the large hole plate 12.
The implementation mode specifically comprises the following steps: through driving motor 1 rotation for driving motor 1 drives first threaded rod 3 and rotates, and first threaded rod 3 rotates and drives movable plate 15 reciprocates, slides in spout 17 through slider 16 of both sides, makes movable plate 15 can not rotate because of first threaded rod 3 rotates in the in-process of motion, and through slide bar 4, makes movable plate 15 can be more steady when removing, and then improves the stationarity of device, avoids movable plate 15 to rock when removing and influences the detection of force value sensor 14, and then makes the accuracy of data reduce.
Working principle: when in use, the driving motor 1 rotates, the driving motor 1 drives the first threaded rod 3 to rotate, the first threaded rod 3 rotates to drive the moving plate 15 to move up and down, the moving plate 15 drives the top force value sensor 14 to move, the force value sensor 14 drives the bottom extrusion rod 7 to move, the extrusion rod 7 drives the bottom pore plate 12 to move and extrude collagen fibers in the charging basket 10, after extrusion detection is completed, the servo motor 509 rotates to drive the second driving wheel 511 on one side to rotate, the second driving wheel 511 drives the first rotating wheel to rotate through the synchronous belt 508, the first driving wheel 507 and the second driving wheel 511 drive the two second threaded rods 503 to synchronously rotate, the second threaded rod 503 rotates to drive the thread seat 504 on the outer wall to move, the thread seat 504 moves to drive the scraping long plate 505 on one side to move, the scraping long plate 505 moves to drive the scraping short plate 506 hinged on one side, when collagen fibers of different materials are detected, the collagen fibers are inserted into the embedded groove 801 through the connecting rod 901, the fixing block 802 in the embedded groove 801 is inserted into the fixing groove 902 at the bottom of the connecting rod 901, when the connecting rod 901 is inserted into the embedded groove 801, the top of the embedded groove 801 presses the pin 903, the pin 903 is retracted, after the connecting rod 901 is inserted into the embedded groove 801 and rotates, the pin 903 is aligned with pin holes formed in two sides of the embedded groove 801, after the pin 903 is aligned with the pin holes, the pin 903 is extruded through the resilience force of the second spring 904 and inserted into the pin holes, the device is connected, the embedded device 8 can be replaced through replacing the orifice plate 12 at the bottom of the embedded device 8, and the device can replace the orifice plate 12 with different apertures.
The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a collagen fiber homogeneity detection device, includes bottom plate (6), its characterized in that, bottom plate (6) top is connected with scrapes sweeps device (5), scrape and sweep device (5) including a plurality of risers (501), and be connected with same protection box (502) between two corresponding risers (501), and two opposite sides of corresponding riser (501) all inlay and be equipped with the bearing, and the bearing rotation is connected with the pivot, and be connected with same second threaded rod (503) between two pivots, wherein two pivot one sides are connected with first drive wheel (507) and second drive wheel (511) respectively, and one of them riser (501) one side is connected with mounting panel (510), mounting panel (510) top fixed mounting has servo motor (509), servo motor (509) output is connected with second drive wheel (511), the transmission is connected with synchronous belt (508) between first drive wheel (507) and second drive wheel (511).
2. The collagen fiber uniformity detecting device according to claim 1, wherein the outer wall of the second threaded rod (503) is in threaded connection with a threaded seat (504), one side of the threaded seat (504) is connected with a scraping long plate (505), one side of the scraping long plate (505) is hinged with a scraping short plate (506), two sides of the scraping long plate (505) and two sides of the scraping short plate (506) are both connected with fixing plates (513), a first spring (512) is connected between the fixing plates (513) on one side of the scraping long plate (505) and the fixing plates (513) on the same side of the scraping short plate (506), and two opposite sides of the scraping short plates (506) are attached.
3. The collagen fiber uniformity detecting device according to claim 1, wherein the bottom of the vertical plate (501) is connected with the top of the bottom plate (6), the protecting box (502) is sleeved outside the second threaded rod (503), and the outer wall of the thread seat (504) slides in the protecting box (502).
4. The collagen fiber uniformity detection device according to claim 1, wherein a fixing frame (2) is connected to one side of the top of the bottom plate (6), sliding grooves (17) are formed in two sides of the inner wall of the fixing frame (2), sliding blocks (16) are connected in the sliding grooves (17) in a sliding manner, a same moving plate (15) is connected between the two sliding blocks (16), a plurality of connecting rods (13) are connected to one side of the top of the moving plate (15), a same force value sensor (14) is connected to the top of the plurality of connecting rods (13), an extrusion rod (7) is connected to the bottom of the force value sensor (14), a guide sleeve is embedded in one side of the moving plate (15), the guide sleeve is connected with the outer wall of the extrusion rod (7) in a sliding manner, and an embedding device (8) is connected to the bottom of the extrusion rod (7).
5. The collagen fiber uniformity detecting device according to claim 4, wherein the embedding device (8) comprises an inserting rod (803), an inserting groove (801) is formed in the top of the inserting rod (803), a fixing block (802) is connected to the bottom of the inserting groove (801), pin holes are formed in two sides of the inserting groove (801), and an inserting device (9) is inserted into the inserting groove (801).
6. The collagen fiber uniformity detecting device according to claim 5, wherein the plugging device (9) comprises a connecting rod (901), a fixing groove (902) is formed in the bottom of the connecting rod (901), placing grooves are formed in two sides of the connecting rod (901), a second spring (904) is connected to one side in the placing grooves, a pin (903) is connected to one side of the second spring (904), and the pin (903) is plugged into the pin hole.
7. The collagen fiber uniformity detecting device according to claim 6, wherein the top of the connecting rod (901) is connected to the bottom of the extrusion rod (7), and the bottom of the plugging rod (803) is connected to the orifice plate (12).
8. The collagen fiber uniformity detecting device according to claim 4, wherein two sliding sleeves are embedded on one side of the top of the moving plate (15), the sliding sleeves are connected with sliding rods (4) in a sliding manner, two ends of each sliding rod (4) are respectively connected to two sides of the fixing frame (2), nuts are embedded on the top of the moving plate (15), the first threaded rods (3) are connected with the tops of the nuts in a threaded manner, bearings are embedded on the bottom of the inner wall of the fixing frame (2), a rotating shaft is connected with one end of each rotating shaft in a rotating manner, the bottoms of the first threaded rods (3) are connected, a driving motor (1) is fixedly installed on the top of the fixing frame (2), and an output shaft of the driving motor (1) extends into the fixing frame (2), and the output shaft of the driving motor (1) is connected with the tops of the first threaded rods (3).
9. The collagen fiber uniformity detecting device according to claim 1, wherein the top of the bottom plate (6) is connected with a charging basket (10), one side of the charging basket (10) is communicated with a valve (11), the charging basket (10) is located at the lower side of the orifice plate (12), and the opening size of the charging basket (10) is the same as the diameter of the orifice plate (12).
10. A collagen fiber uniformity detection method, characterized in that the collagen fiber uniformity detection device according to any one of claims 1 to 9 is applied, comprising the steps of:
through driving motor (1) rotation for driving motor (1) drives first threaded rod (3) and rotates, first threaded rod (3) rotates and drives movable plate (15) reciprocates, movable plate (15) drives the power value sensor (14) at top and removes, power value sensor (14) drive extrusion rod (7) of bottom remove, and then make extrusion rod (7) drive orifice plate (12) of bottom remove the collagen fiber in extrusion storage bucket (10), after the extrusion is accomplished, drive second drive wheel (511) through servo motor (509) and rotate, drive first drive wheel (507) through hold-in range (508) and rotate, and then make second threaded rod (503) rotate, second threaded rod (503) rotate and drive screw thread seat (504) and remove, and then make and scrape sweep long board (505) and scrape orifice plate (12) surface, and then clear up orifice plate (12) surface, make round pin rod (903) break away from the pinhole through pressing round pin rod (903), and then can change orifice plate (12) of different apertures.
CN202410102249.7A 2024-01-25 2024-01-25 Collagen fiber uniformity detection device and method Active CN117630306B (en)

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