CN114910376B - Oxford fabric wear resistance testing device - Google Patents

Oxford fabric wear resistance testing device Download PDF

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Publication number
CN114910376B
CN114910376B CN202210823551.2A CN202210823551A CN114910376B CN 114910376 B CN114910376 B CN 114910376B CN 202210823551 A CN202210823551 A CN 202210823551A CN 114910376 B CN114910376 B CN 114910376B
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oxford
motor
wear resistance
ring
testing
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CN114910376A (en
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袁伟
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Liyang Chengyi Cloth Industry Co ltd
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Liyang Chengyi Cloth Industry Co ltd
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N3/00Investigating strength properties of solid materials by application of mechanical stress
    • G01N3/56Investigating resistance to wear or abrasion
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N3/00Investigating strength properties of solid materials by application of mechanical stress
    • G01N3/02Details

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • General Physics & Mathematics (AREA)
  • Immunology (AREA)
  • Pathology (AREA)
  • Testing Of Devices, Machine Parts, Or Other Structures Thereof (AREA)

Abstract

The invention relates to the technical field of oxford wear resistance testing, in particular to an oxford wear resistance testing device which comprises a testing platform, wherein the testing platform is provided with a conveying module, a testing module and a direction adjusting module, and the conveying module comprises a discharging chamber and a notch which are arranged at the top of the testing platform and an installation cavity which is arranged on the testing platform. According to the invention, under the meshing of the gear ring and the gear, the third motor is started, then the belt pulley and the belt are matched, the two gears are indirectly and simultaneously rotated, then the gear ring drives the ring-lacking body to rotate, until the gap of the ring-lacking body passes through the insert block, the insert block enters the inside of the ring-lacking body under the extrusion of the inner rod of the spring, then the ring-lacking body is fixed with the grinding roller indirectly connected with the insert block, at the moment, the grinding roller is flush with the edge of the Oxford fabric, then the second motor is started, so that the wear resistance test of a certain position of the Oxford fabric is completed, the grinding roller is parallel to the edge of the Oxford fabric, and the accuracy of the test effect is improved.

Description

Oxford fabric wear resistance testing device
Technical Field
The invention relates to the technical field of oxford fabric wear resistance testing, in particular to an oxford fabric wear resistance testing device.
Background
The oxford fabric is also called oxford fabric, is a fabric with various functions and wide application, and mainly comprises a cover lattice, a full-elastic fabric, nylon, a lifting lattice and the like on the market. Traditional combed cotton fabrics originated in the uk under the name oxford university.
The oxford cloth edge is comparatively fragile, the position of easy damage, and consequently this position also is one of the important positions of detecting the oxford cloth quality, and testing arrangement commonly used can not regard the self condition of grinding roller when testing this position, and the grinding roller just carries out test operation under the condition parallel with the oxford cloth edge not, leads to test effect not accurate enough.
Disclosure of Invention
The present invention has been made to solve one of the technical problems occurring in the prior art or the related art.
Therefore, the technical scheme adopted by the invention is as follows:
the Oxford fabric wear resistance testing device comprises a test board, wherein a conveying module, a testing module and a direction adjusting module are arranged on the test board, the conveying module comprises a discharging chamber and a notch which are arranged at the top of the test board, a mounting cavity which is arranged on the test board, light holes which are movably arranged in the discharging chamber, a first motor which is arranged at the bottom of the test board, a winding roller which is connected with an output shaft of the first motor, and a plurality of light lamps which are arranged in the mounting cavity, a plurality of light holes which are communicated with the inside of the mounting cavity are arranged at the bottom of an inner cavity of the notch, the testing module comprises a frame which is connected with the top of the test board, two electric push rods which run through one side of the frame, a sliding plate which is connected between the two electric push rods, a sliding block which is sleeved outside the sliding plate in a sliding mode, a motor which is arranged on one side of the sliding plate, The turning module comprises rectangular columns arranged on the front side and the rear side of the frame, rotating shafts movably arranged in the rectangular columns, belt pulleys sleeved on the top ends of the rotating shafts, belts connected between the two belt pulleys, a third motor connected with the belt pulleys near the front side of the frame, gears sleeved on the bottom ends of the rotating shafts, gear rings sleeved on the bottom ends of the I-shaped disc bodies, and a ring lacking body connected with the top of the gear rings, The outer barrel is spliced with the rectangular column, the spring is embedded in the outer barrel, the inner rod is spliced with the outer barrel and connected with the inner end of the spring, and the insert block is connected with the inner rod and is matched with the ring-lacking body.
Through adopting above-mentioned technical scheme, gear ring and gear engagement are down, start the third motor, then belt pulley and belt cooperation are down, indirectly make two gears rotate simultaneously, then gear ring area has the ring body of scarce to rotate, until having the ring body breach department of scarce when the inserted block, the inserted block is under the extrusion of the interior pole of spring, enter into to having the ring body of scarce inside, then it is fixed with the grinding roller of indirect connection with it to have the ring body of scarce to take, at this moment grinding roller and oxford cloth edge parallel and level, then start the second motor, accomplish the wear-resisting test to oxford cloth certain position from this, the grinding roller is parallel with oxford cloth edge, improve the accuracy of test effect.
The present invention in a preferred example may be further configured to: the light trap is equidistant matrix arrangement, and is a plurality of the light is a row of equidistant arrangement.
Through adopting above-mentioned technical scheme, adopt this overall arrangement design, improved the aesthetic property of this device to a certain extent.
The present invention in a preferred example may be further configured to: the top of the sliding plate is provided with a groove, the motor is positioned at the top of the sliding plate, and the outer wall of the cylinder rubs against the inner wall of the groove.
Through adopting above-mentioned technical scheme, set up the recess, for the drum provides installation space on the one hand, on the other hand guarantees that the drum can normally rotate.
The present invention in a preferred example may be further configured to: the gear is equal to the gear ring in thickness, and the gear top and the gear ring top are located on the same horizontal plane.
Through adopting above-mentioned technical scheme, adopt this size and overall arrangement design, guarantee that gear and ring gear contact just can form the meshing.
The invention in a preferred example may be further configured to: the frame internally mounted has two pneumatic cylinders, two the pneumatic cylinder is located the slide both sides respectively, the clamp plate is installed to the pneumatic cylinder expansion end, the clamp plate width equals with the notch width.
Through adopting above-mentioned technical scheme, the cooperation of pneumatic cylinder and clamp plate can compress tightly oxford, avoids oxford activity in the test operation, guarantees measuring result's accuracy.
The present invention in a preferred example may be further configured to: the top of the test board is inserted with a sealing plate, the sealing plate is positioned at the top of the oxford fabric, and the inner end of the sealing plate extends into the discharging chamber.
Through adopting above-mentioned technical scheme, the shrouding plays the effect of sealed blowing room.
The present invention in a preferred example may be further configured to: the test board is provided with a baffle which is arranged in an inclined manner.
Through adopting above-mentioned technical scheme, the baffle can lead to oxford, to a certain extent, supplementary oxford's winding operation.
The present invention in a preferred example may be further configured to: two shading cloths are installed on the front side and the rear side of the test board and are located on the front side and the rear side of the light holes.
By adopting the technical scheme, the shading cloth can prevent light emitted by the light lamp from leaking, and meanwhile, the shading cloth plays a role in shading and protecting the light lamp.
By adopting the technical scheme, the invention has the beneficial effects that:
1. according to the invention, under the meshing of the gear ring and the gear, the third motor is started, then the belt pulley and the belt are matched, the two gears are indirectly and simultaneously rotated, then the gear ring drives the ring-lacking body to rotate, until the gap of the ring-lacking body passes through the insert block, the insert block enters the inside of the ring-lacking body under the extrusion of the inner rod of the spring, then the ring-lacking body is fixed with the grinding roller indirectly connected with the insert block, at the moment, the grinding roller is flush with the edge of the Oxford fabric, then the second motor is started, so that the wear resistance test of a certain position of the Oxford fabric is completed, the grinding roller is parallel to the edge of the Oxford fabric, and the accuracy of the test effect is improved.
2. According to the oxford fabric testing device, the movable end of the oxford fabric is connected with the winding roller, then the first motor is started, the winding roller winds the oxford fabric, during the process, when a certain position needs to be detected, the movable end of the hydraulic cylinder is controlled to descend, after the oxford fabric is pressed tightly by the pressing plate, any position on the oxford fabric can be tested quickly, and the testing efficiency is improved.
3. According to the invention, the electric push rod is started, and the movable end of the electric push rod drives the sliding plate to translate in the left-right direction, so that the translatable area of the grinding roller is increased, and the use comfort is improved.
Drawings
FIG. 1 is a top view of the overall structure of the present invention;
FIG. 2 is a perspective view of the overall structure of the present invention;
FIG. 3 is a schematic view of a transport module of the present invention;
FIG. 4 is a schematic view showing the connection between the first motor and the winding roller according to the present invention;
FIG. 5 is a schematic view of the location of the lamp mounting of the present invention;
FIG. 6 is a schematic diagram of a test module according to the present invention;
FIG. 7 is a partial structural diagram of a test module according to the present invention;
FIG. 8 is a schematic view of a direction module of the present invention;
FIG. 9 is a schematic view of a partial structure of a direction-adjusting module according to the present invention;
FIG. 10 is a schematic view showing the connection relationship of the insert, the inner rod, the spring and the outer cylinder according to the present invention.
Reference numerals:
100. a test bench;
200. a delivery module; 210. a discharge chamber; 220. a notch; 230. a mounting cavity; 240. a light-transmitting hole; 250. oxford; 260. a first motor; 270. a winding roller; 280. a light lamp;
300. a test module; 310. a frame; 320. an electric push rod; 330. a slide plate; 340. a slider; 350. a motor; 360. a cylinder; 370. an I-shaped tray body; 380. a cylinder; 390. a U-shaped plate; 391. grinding the roller; 392. a second motor;
400. a direction adjusting module; 410. a rectangular column; 420. a rotating shaft; 430. a belt pulley; 440. a belt; 450. a third motor; 460. a gear; 470. a gear ring; 480. a ring body is omitted; 490. inserting a block; 491. an inner rod; 492. a spring; 493. an outer cylinder;
510. a hydraulic cylinder; 520. pressing a plate;
600. closing the plate;
700. a baffle plate;
800. a shading cloth.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.
It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.
The following describes an oxford wearability testing device provided by some embodiments of the present invention with reference to the accompanying drawings.
The first embodiment is as follows:
referring to fig. 1 to 8, the oxford abrasion resistance testing apparatus provided by the present invention includes a testing table 100, wherein the testing table 100 is provided with a conveying module 200, a testing module 300, and a direction-adjusting module 400, the conveying module 200 includes a material placing chamber 210 and a notch 220 which are arranged at the top of the testing table 100, a mounting cavity 230 which is arranged on the testing table 100, a light hole 240 which is movably mounted inside the material placing chamber 210, a first motor 260 which is mounted at the bottom of the testing table 100, a winding roller 270 which is connected to an output shaft of the first motor 260, and a plurality of light lamps 280 which are mounted inside the mounting cavity 230, and the bottom of an inner cavity of the notch 220 is provided with a plurality of light holes 240 which are communicated with the inside of the mounting cavity 230;
the test module 300 comprises a frame 310 connected with the top of the test bench 100, two electric push rods 320 penetrating one side of the frame 310, a sliding plate 330 connected between the two electric push rods 320, a sliding block 340 slidably sleeved outside the sliding plate 330, a motor 350 mounted on one side of the sliding block 340, two cylinders 360 movably mounted inside the sliding block 340, an i-shaped disc 370 movably penetrating the bottom end of the sliding block 340, an air cylinder 380 connected with the bottom end of the i-shaped disc 370, a U-shaped plate 390 connected with the movable end of the air cylinder 380, a grinding roller 391 movably mounted inside the U-shaped plate 390, and a second motor 392 connected with the grinding roller 391, wherein the sliding plate 330 and the frame 310 form a sliding connection relationship, and the motor 350 is connected with the cylinder 360 near the front side of the frame 310;
the direction adjusting module 400 comprises rectangular columns 410 arranged at the front side and the rear side of the frame 310, a rotating shaft 420 movably penetrating through the rectangular columns 410, belt pulleys 430 sleeved at the top ends of the rotating shaft 420, belts 440 connected between the two belt pulleys 430, a third motor 450 connected with the belt pulley 430 close to the front side of the frame 310, a gear 460 sleeved at the bottom end of the rotating shaft 420, a gear ring 470 sleeved at the bottom end of the I-shaped disc body 370, a ring-lacking body 480 connected with the top of the gear ring 470, an outer cylinder 493 inserted with the rectangular columns 410, a spring 492 embedded inside the outer cylinder 493, an inner rod 491 inserted with the outer cylinder 493 and connected with the inner end of the spring 492, and an insert block 490 connected with the inner rod 491, wherein the insert block 490 is matched with the ring-lacking body 480.
Further, a plurality of light holes 240 are arranged in an equidistant matrix, and a plurality of lamps 280 are arranged in a row at equal intervals.
Further, the top of the sliding plate 330 is provided with a groove, the motor 350 is located at the top of the sliding plate 330, the outer wall of the cylinder 360 rubs against the inner wall of the groove, and the groove is formed, so that on one hand, an installation space is provided for the cylinder 360, and on the other hand, the cylinder 360 can normally rotate.
Further, the gear 460 and the gear ring 470 have the same thickness, and the top of the gear 460 and the top of the gear ring 470 are located on the same horizontal plane, so that the gear 460 and the gear ring 470 can be engaged with each other by adopting the size and the layout design.
Further, a sealing plate 600 is inserted into the top of the test platform 100, the sealing plate 600 is located on the top of the oxford fabric 250, the inner end of the sealing plate 600 extends into the baiting chamber 210, and the sealing plate 600 functions to seal the baiting chamber 210.
Further, install baffle 700 on the testboard 100, baffle 700 is the slope setting, and baffle 700 can lead oxford, to a certain extent, supplementary oxford 250's winding operation.
Example two:
combine fig. 1, fig. 2 and fig. 5 to show, on the basis of embodiment one, frame 310 internally mounted has two pneumatic cylinders 510, two pneumatic cylinders 510 are located slide 330 both sides respectively, clamp plate 520 is installed to pneumatic cylinder 510 expansion end, clamp plate 520 width equals with notch 220 width, and pneumatic cylinder 510 and clamp plate 520 cooperation can compress tightly oxford 250, avoid oxford 250 activity among the test operation, guarantee measuring result's accuracy.
Example three:
referring to fig. 1 and 2, in the above embodiment, two light shielding cloths 800 are installed on the front and rear sides of the testing table 100, the light shielding cloths 800 are located on the front and rear sides of the light hole 240, and the light shielding cloths 800 can prevent light emitted by the light lamp 280 from leaking and can shield and protect the light lamp 280.
The working principle and the using process of the invention are as follows: when the invention is put into practical use, the movable end of the oxford 250 is connected with the winding roller 270, then the first motor 260 is started, the winding roller 270 winds the oxford 250, during the period, when a certain position needs to be detected, the movable end of the hydraulic cylinder 510 is controlled to descend, the press plate 520 presses the oxford 250 tightly, the motor 350 is started, the motor 350 drives the cylinder 360 connected with the motor to rotate, then the sliding block 340 moves along the sliding plate 330, here, the I-shaped disc body 370, the cylinder 380, the U-shaped plates 390, 391 grinding rollers and the second motor 392 move along with the I-shaped disc body 370, after the oxford 250 slides to the edge, the gear ring 470 is meshed with the gear 460, then the third motor 450 is started, then under the action of the belt pulley 430 and the belt 440, the two rotating shafts 420 drive the gear 460 at the bottom ends of the two rotating shafts to rotate simultaneously, then the gear ring 470 drives the ring body 480 to rotate until the gap 480 of the ring body 480 passes through the insert block 490, the insert 490 enters the inside of the ring-lacking body 480 under the extrusion of the inner rod 491 of the spring 492, then the ring-lacking body 480 is fixed with the grinding roller 391 indirectly connected with the ring-lacking body 480, here, the grinding roller 391 is flush with the edge of the oxford cloth 250, then the second motor 392 is started, thereby the grinding of a certain position of the oxford cloth 250 is completed, after the grinding, the astigmatic condition of the oxford cloth 250 is seen through the light transmission holes, thereby the wear resistance of the oxford cloth is judged, here, the electric push rod 320 can also be started, the movable end of the electric push rod 320 drives the sliding plate 330 to translate in the left-right direction, thereby the translatable area of the grinding roller 391 is increased, and it is ensured that each position on the oxford cloth 250 can be tested.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The Oxford fabric wear resistance testing device comprises a testing platform (100), wherein a conveying module (200), a testing module (300) and a direction-adjusting module (400) are arranged on the testing platform (100), and the Oxford fabric wear resistance testing device is characterized in that the conveying module (200) comprises a material placing chamber (210) and a notch (220) which are arranged at the top of the testing platform (100), a mounting cavity (230) which is arranged on the testing platform (100), a light hole (240) which is movably arranged in the material placing chamber (210), a first motor (260) which is arranged at the bottom of the testing platform (100), a winding roller (270) which is connected with an output shaft of the first motor (260) and a plurality of light lamps (280) which are arranged in the mounting cavity (230), and a plurality of light holes (240) which are communicated with the inside of the mounting cavity (230) are formed at the bottom of an inner cavity of the notch (220);
the testing module (300) comprises a frame (310) connected with the top of the testing platform (100), two electric push rods (320) penetrating through one side of the frame (310), a sliding plate (330) connected between the two electric push rods (320), a sliding block (340) sleeved on the outer side of the sliding plate (330) in a sliding way, a motor (350) installed on one side of the sliding block (340), two cylinders (360) movably installed in the sliding block (340), an I-shaped disc body (370) movably penetrating through the bottom end of the sliding block (340), an air cylinder (380) connected with the bottom end of the I-shaped disc body (370), a U-shaped plate (390) connected with the movable end of the air cylinder (380), a grinding roller (391) movably installed in the U-shaped plate (390) and a second motor (392) connected with the grinding roller (391), wherein the sliding plate (330) and the frame (310) form a sliding connection relationship, the motor (350) is connected to a cylinder (360) near the front side of the frame (310);
the direction adjusting module (400) comprises rectangular columns (410) arranged at the front side and the rear side of the frame (310), a rotating shaft (420) movably penetrating through the rectangular columns (410), belt pulleys (430) sleeved at the top end of the rotating shaft (420), a belt (440) connected between the two belt pulleys (430), a third motor (450) connected with the belt pulley (430) close to the front side of the frame (310), and a gear (460) sleeved at the bottom end of the rotating shaft (420), the gear ring (470) is sleeved at the bottom end of the I-shaped disc body (370), the ring-lacking body (480) is connected with the top of the gear ring (470), the outer cylinder (493) is spliced with the rectangular column (410), the spring (492) is embedded in the outer cylinder (493), the inner rod (491) is spliced with the outer cylinder (493) and connected with the inner end of the spring (492), and the insert block (490) is connected with the inner rod (491);
the side of lacking the ring body (480) is seted up jaggedly, breach and inserted block (490) looks adaptation and lie in same water flat line, inserted block (490) are used for following the breach inserts in lacking the ring (480).
2. The oxford abrasion resistance testing device according to claim 1, wherein said plurality of light holes (240) are arranged in an equally spaced matrix, and said plurality of lights (280) are arranged in an equally spaced row.
3. The oxford wear resistance testing device according to claim 1, wherein a groove is formed at the top of the sliding plate (330), the motor (350) is located at the top of the sliding plate (330), and the outer wall of the cylinder (360) rubs against the inner wall of the groove.
4. The oxford wearability testing device of claim 1, wherein the gear (460) and the gear ring (470) are equal in thickness, and a top of the gear (460) and a top of the gear ring (470) are located on a same horizontal plane.
5. The oxford wear resistance testing device according to claim 1, wherein two hydraulic cylinders (510) are installed inside the frame (310), the two hydraulic cylinders (510) are respectively located at two sides of the sliding plate (330), a pressing plate (520) is installed at the movable end of each hydraulic cylinder (510), and the width of each pressing plate (520) is equal to that of the corresponding notch (220).
6. The oxford wear resistance testing device according to claim 1, wherein a sealing plate (600) is inserted into the top of the testing platform (100), the sealing plate (600) is located on the top of the oxford (250), and the inner end of the sealing plate (600) extends into the discharging chamber (210).
7. The oxford wear resistance testing device according to claim 1, wherein a baffle (700) is installed on the testing table (100), and the baffle (700) is disposed in an inclined manner.
8. The oxford wear resistance testing device according to claim 1, wherein two light shielding cloths (800) are mounted on both the front and back sides of the testing platform (100), and the light shielding cloths (800) are located on both the front and back sides of the light hole (240).
CN202210823551.2A 2022-07-14 2022-07-14 Oxford fabric wear resistance testing device Active CN114910376B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202210823551.2A CN114910376B (en) 2022-07-14 2022-07-14 Oxford fabric wear resistance testing device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202210823551.2A CN114910376B (en) 2022-07-14 2022-07-14 Oxford fabric wear resistance testing device

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CN114910376A CN114910376A (en) 2022-08-16
CN114910376B true CN114910376B (en) 2022-09-23

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116380699B (en) * 2023-04-11 2023-12-15 青岛羽翎珊家纺织品集团有限公司 Scratch-proof testing device

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