CN117147301B

CN117147301B - Tension testing device for cloth production detection

Info

Publication number: CN117147301B
Application number: CN202311417623.4A
Authority: CN
Inventors: 吴小琴; 黄一洲
Original assignee: Jiangsu Jieruiya Textile Co ltd
Current assignee: Jiangsu Jieruiya Textile Co ltd
Priority date: 2023-10-30
Filing date: 2023-10-30
Publication date: 2023-12-29
Anticipated expiration: 2043-10-30
Also published as: CN117147301A

Abstract

The invention provides a tension testing device for cloth production detection, which relates to the technical field of cloth production and comprises the following components: a test rack; the left group of test frames are fixedly arranged on the frame body, the right group of test frames are slidably clamped on the frame body, the two groups of test frames are of U-shaped structures, a group of fixed shafts are rotatably arranged on the two groups of test frames, a rear transmission gear is fixedly arranged at the rear end of each fixed shaft, a front limit gear is fixedly arranged at the front end of each fixed shaft, a cross-shaped clamping block is fixedly connected to the bottom end of each right group of test frames, the lower ends of the cross-shaped clamping blocks are arranged in the hollow structure of the frame body, and the lower ends of the cross-shaped clamping blocks are meshed and inserted on a driving screw rod through threaded holes; the two ends of the test cloth are fast wound and fixed, the test cloth is tensioned, whether the tensile test of different cloth meets the requirements or not can be fast detected, the problem that whether the tensile test of different cloth is qualified or not can not be fast detected after the cloth is tensioned again is solved.

Description

Tension testing device for cloth production detection

Technical Field

The invention relates to the technical field of cloth production, in particular to a tension testing device for cloth production detection.

Background

The non-woven fabric is also called non-woven fabric, needled cotton, needled non-woven fabric and the like, is produced by adopting polyester fiber and polyester fiber materials and is manufactured by needling technology, and the tensile force of the cloth needs to be tested during production and processing.

The application number is as follows: in the patent of CN201711143752.3, an electric tension testing device for non-woven fabric detection is disclosed, the electric tension testing device comprises a supporting table, a motor and a sliding sleeve, supporting legs are arranged at four corners below the supporting table, the motor is arranged on the supporting table, a threaded rod is arranged on the motor, a force application rod is arranged in front of the threaded rod, the force application rod is externally provided with the sliding sleeve, a force bearing rod is arranged outside the sliding sleeve, a connecting rod is arranged on the force bearing rod, a connecting plate is arranged in front of the force bearing rod, a fixing plate is arranged in front of the connecting plate, and fixing frames are respectively arranged on the connecting rod and the fixing rods. The beneficial effects are that: according to the invention, the non-woven fabric tension test limit is set by utilizing the metal friction slip principle, after slip occurs, the non-woven fabric is qualified if no damage occurs, the detection is rapid and reliable, the manual labor intensity is reduced, the non-woven fabric tension detection speed is accelerated, and the non-woven fabric tension test efficiency is improved.

However, with regard to the traditional cloth tensile test at present, the structure is simpler, and the both ends of test cloth are fixed when being more troublesome, still need again with cloth taut after carry out tensile test again, can't be quick detect out whether the tensile test of different cloth is qualified moreover.

Disclosure of Invention

In view of the above, the invention provides a tension testing device for cloth production detection, which can rapidly wind and fix two ends of a tested cloth, tension the cloth, and rapidly detect whether tension tests of different cloth meet requirements.

The invention provides a tension testing device for cloth production detection, which specifically comprises: the device comprises a frame body, a driving motor and a driving screw;

the bottom of the frame body is connected with supporting legs, the inside of the frame body is of a hollow structure, notches are formed in the front end of the frame body, test frames are respectively mounted on two sides of the notches, a left group of test frames are fixedly mounted on the frame body, a right group of test frames are slidably clamped on the frame body, two groups of test frames are of U-shaped structures, a group of fixed shafts are rotatably mounted on the two groups of test frames, notches are formed in the fixed shafts, side sockets are respectively formed in the front end and the rear end of each notch, a rear transmission gear is fixedly mounted at the rear end of each fixed shaft, a front limit gear is fixedly mounted at the front end of each fixed shaft, an operation hand wheel is fixedly connected to the front end of each fixed shaft on the left group of test frames, a cross-shaped clamping block is fixedly connected to the rear end of each fixed shaft on the right group of test frames, the cross-shaped clamping blocks are slidably clamped in the front sliding grooves on the frame body, the lower ends of the cross-shaped clamping blocks are arranged in the hollow structure of the frame body and are inserted on the driving screw rods through meshing, the driving screw rods are rotatably mounted in the hollow structure of the motor shaft of the frame body, the front end of the motor is electrically connected with the driving box, and the front end of the motor is electrically connected with the driving box.

Optionally, the breach of fixed axle is gone up the cartridge and is equipped with the clamp plate, is equipped with 5mm clearance between the inboard bottom of clamp plate's bottom and breach, and both ends are equipped with the outer plug respectively around the clamp plate, and the outer plug inserts respectively in the side socket.

Optionally, two sets of front side ends of test frame still are equipped with spacing mouthful, and the lower extreme inboard of spacing mouthful is equipped with two sets of relative inner sockets respectively, and preceding spacing gear is arranged in spacing mouthful.

Optionally, the U-shaped block is inserted into the limiting opening, limiting teeth are arranged in the middle of an inner arc of the U-shaped block, lower inserting blocks are respectively arranged at the bottom ends of two sides of the U-shaped block, and when the U-shaped block is inserted into the limiting opening, the limiting teeth are meshed with the front limiting gear, and the lower inserting blocks are inserted into the inner inserting opening.

Optionally, the left side of right side group the test jig is equipped with two sets of left limiting plates, and two sets of left limiting plates fixed connection is in the notch right side upper end of support body, and inlays on the left limiting plate of front side group and have little touch switch A, and little touch switch A and control box electric connection.

Optionally, the right side of right side group the right side of test jig is equipped with two sets of right limiting plates, and the right side of two sets of right limiting plates is fixedly connected with adjusting screw respectively, inlays on the right limiting plate of front side group and has little touch switch B, and little touch switch B and control box electric connection.

Optionally, the rear side of the frame body is further provided with a transmission groove, two groups of lower transmission gears and one group of transition gears are respectively installed in the transmission groove through rotation of a rotating shaft, the lower transmission gears of the left group are meshed with the transition gears and meshed with the rear transmission gears of the rear ends of the test frames of the left group, the transition gears are in transmission connection with the lower transmission gears of the right group, and when the test frames of the right group are attached to the left limiting plate, the lower transmission gears of the right group are meshed with the rear transmission gears of the rear ends of the test frames of the right group.

Optionally, the right side end of support body still fixedly connected with two sets of risers, and rotate respectively on two sets of risers and install two sets of screw thread section of thick bamboo, and two sets of adjusting screw mesh respectively and pass screw thread section of thick bamboo, the transmission is connected between two sets of screw thread section of thick bamboo, and its both ends still are equipped with the cardboard respectively about, and still be connected with the operation claw on the right side cardboard of the screw thread section of thick bamboo of front side group.

Optionally, a graduated scale is further installed at the front end of the right side of the frame body, and the graduated scale is arranged between the left limiting plate and the vertical plate.

Advantageous effects

Compared with the traditional test, the cloth tension test device provided by the embodiment of the invention can be used for rapidly winding and fixing the two ends of the tested cloth and tensioning the tested cloth, and can be used for rapidly detecting whether the tension test of different cloth meets the requirements.

In addition, through setting up two sets of test frames to set up breach and cartridge clamp plate on the fixed axle, be convenient for insert respectively the both ends of test cloth article, and through rotating operating the hand wheel, and then drive the fixed axle on two sets of test frames and rotate, can also cloth article tensioning when twining the both ends of test cloth article respectively fixed on the fixed axle.

In addition, through setting up the U type piece, insert the U type piece back into spacing mouthful respectively, make the spacing tooth of U type piece inner arc side and the preceding spacing gear engagement of fixed axle front side end, and then carry out the screens respectively to the fixed axle, prevent that the fixed axle from rotating, through setting up right limiting plate, utilize driving motor to drive the drive screw rotation, make the test frame of cross fixture block and right side group synchronous right motion, and then test the pulling force of cloth article, and through rotating the operating claw, drive two sets of screw barrels and rotate, the position of two sets of right limiting plates of synchronous regulation, and carry out accurate regulation through the scale, and then the testing of the pulling force of the different cloth articles of detection test that can be quick accords with the requirement.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic diagram of the overall structure according to an embodiment of the present invention;

FIG. 2 is a schematic view showing a structure of the rear end of the transmission groove of FIG. 1 in vertical section according to an embodiment of the present invention;

FIG. 3 is a schematic view showing the structure of the platen of FIG. 1 removed from the stationary shaft in accordance with an embodiment of the present invention;

FIG. 4 is a schematic view showing the structure of the lower end of the frame body of FIG. 1, in which the lower end is cut away, according to an embodiment of the present invention;

FIG. 5 is a schematic view showing the structure of the front U-shaped block of the test rack of FIG. 1 after being taken up according to the embodiment of the present invention;

FIG. 6 shows an enlarged schematic view of the structure of FIG. 5 at A according to an embodiment of the present invention;

FIG. 7 is a schematic diagram showing the right side set of tests in FIG. 1 moving to the right limiting plate in accordance with an embodiment of the present invention;

FIG. 8 is a schematic view showing the rear end of the transmission groove of FIG. 7 in vertical section, according to an embodiment of the present invention;

fig. 9 shows a schematic structural diagram of a U-shaped block in an embodiment according to the present invention.

List of reference numerals

1. A frame body; 101. a notch; 102. a transmission groove; 1021. a lower transmission gear; 1022. a transition gear; 103. a rear chute; 104. a front chute; 105. a vertical plate; 106. a graduated scale; 107. a control box; 2. a test rack; 201. a fixed shaft; 2011. a notch; 2012. a side socket; 2013. a rear drive gear; 2014. a front limit gear; 2015. operating a hand wheel; 202. a pressing plate; 2021. an extrapolation block; 203. a limit opening; 2031. an inner socket; 204. a U-shaped block; 2041. limit teeth; 2042. a lower insert block; 205. a cross-shaped clamping block; 3. a driving motor; 301. driving a screw; 4. a left limiting plate; 401. a micro-touch switch A; 5. a right limiting plate; 501. a micro-touch switch B; 502. adjusting a screw; 6. a thread cylinder; 601. a clamping plate; 602. and an operating claw.

Description of the embodiments

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 9:

the invention provides a tension testing device for cloth production detection, which comprises: a frame 1, a driving motor 3 and a driving screw 301;

the bottom of the frame body 1 is connected with supporting legs, the inside of the frame body 1 is of a hollow structure, a notch 101 is arranged at the front end of the frame body 1, test frames 2 are respectively arranged at two sides of the notch 101, the left-side group of test frames 2 are fixedly arranged on the frame body 1, the right-side group of test frames 2 are slidably clamped on the frame body 1, the two groups of test frames 2 are of U-shaped structures, a group of fixed shafts 201 are rotatably arranged on the two groups of test frames 2, a notch 2011 is arranged on the fixed shafts 201, side sockets 2012 are respectively arranged at the front end and the rear end of the notch 2011, a rear transmission gear 2013 is fixedly arranged at the rear end of the fixed shafts 201, a front limit gear 2014 is fixedly arranged at the front end of the fixed shafts 201, an operation hand wheel 2015 is fixedly connected to the front end of the left-side group of the test frames 2, the rear ends of the fixed shafts 201 are further arranged in rear sliding grooves 103 on the frame body 1, the bottom ends of the right-side group of the test frames 2 are fixedly connected with cross-shaped clamping blocks 205, the cross-shaped clamping blocks 205 are slidably clamped in the front sliding grooves 104 on the frame body 1, the lower ends of the cross-shaped clamping blocks 205 are fixedly arranged in the driving screw rods 301, and are electrically connected to the driving screw rod 301 of the driving frame body 1 through the hollow structure, and the driving screw rod 301 is electrically connected to the front end of the driving frame body 1, and the driving frame body is electrically connected to the driving frame body 301.

In addition, according to the embodiment of the present invention, as shown in fig. 2, 3 and 8, a pressing plate 202 is inserted into a gap 2011 of a fixed shaft 201, a gap of 5mm is provided between the bottom end of the pressing plate 202 and the inside bottom end of the gap 2011, outer inserting blocks 2021 are respectively provided at the front and rear ends of the pressing plate 202, and the outer inserting blocks 2021 are respectively inserted into side inserting holes 2012, a transmission groove 102 is further provided at the rear side of the frame body 1, and two sets of lower transmission gears 1021 are respectively rotatably mounted in the transmission groove 102 through a rotation shaft and are engaged with a set of transition gears 1022, the lower transmission gears 1021 of a left set are engaged with the transition gears 1022 and are engaged with rear transmission gears 2013 at the rear end of a test rack 2 of a left set, the transition gears 1022 are in transmission connection with the lower transmission gears 1021 of a right set, and when the test rack 2 of the right set is attached to a left limiting plate 4, the pressing plates 202 on the left group of test frames 2 and the right group of test frames 2 are pulled down, then two ends of a test cloth are respectively placed in the notches 2011 of the fixed shaft 201, the pressing plates 202 are inserted back into the notches 2011 of the fixed shaft 201 through the external inserting blocks 2021 again, two ends of the test cloth are clamped, the fixed shaft 201 on the left group of test frames 2 is driven to rotate through rotating the operating hand wheel 2015, the lower transmission gear 1021 on the lower side of the left group of test frames 2 is driven to rotate by utilizing the rear transmission gear 2013 on the rear end of the fixed shaft 201, the lower transmission gear 1021 drives the transition gear 1022 to reversely rotate, the other group of lower transmission gears 1021 is driven to reversely rotate by the other group of lower transmission gears 1021, two ends of the test cloth are respectively wound on the fixed shaft 201, and tensioning the test cloth.

In addition, according to the embodiment of the present invention, as shown in fig. 5, 6 and 9, the front ends of the two sets of test frames 2 are further provided with a limiting opening 203, the inner sides of the lower ends of the limiting opening 203 are respectively provided with two sets of opposite inner sockets 2031, and a front limiting gear 2014 is disposed in the limiting opening 203, a U-shaped block 204 is further inserted into the limiting opening 203, limiting teeth 2041 are disposed in the middle of the inner arc of the U-shaped block 204, lower inserting blocks 2042 are respectively disposed at the bottom ends of two sides of the U-shaped block 204, and when the U-shaped block 204 is inserted into the limiting opening 203, the limiting teeth 2041 are engaged with the front limiting gear 2014, the lower inserting blocks 2042 are inserted into the inner inserting grooves 2031, and when a cloth is tensioned between the two sets of fixing shafts 201, the two sets of U-shaped blocks 204 are respectively inserted back into the limiting opening 203, so that the limiting teeth 2041 on the inner arc sides of the U-shaped block 204 are engaged with the front limiting gears 2014 on the front ends of the fixing shafts 201, and thus the fixing shafts 201 are respectively blocked, and rotation of the fixing shafts 201 is prevented.

In addition, according to the embodiment of the present invention, as shown in fig. 6 and 7, two sets of left limiting plates 4 are disposed on the left side of the right set of test frame 2, and the two sets of left limiting plates 4 are fixedly connected to the upper right end of the notch 101 of the frame body 1, and the micro-touch switch a401 is inlaid on the left limiting plate 4 of the front set, and the micro-touch switch a401 is electrically connected to the control box 107, two sets of right limiting plates 5 are disposed on the right side of the right set of test frame 2, and the right sides of the two sets of right limiting plates 5 are respectively and fixedly connected to the adjusting screw 502, and the micro-touch switch B501 is electrically connected to the control box 107, so that when the right set of test frame 2 contacts the left limiting plate 4 or the right limiting plate 5, the micro-touch switch a401 or the micro-touch switch B501 is touched, a signal is fed back to the control box 107, and the control box 107 further controls the driving motor 3 to stop operating.

In addition, according to the embodiment of the present invention, as shown in fig. 1, two sets of vertical plates 105 are fixedly connected to the right end of the frame body 1, two sets of threaded cylinders 6 are rotatably mounted on the two sets of vertical plates 105, two sets of adjusting screws 502 are meshed with and pass through the threaded cylinders 6, two sets of threaded cylinders 6 are in transmission connection, two left and right ends of the two sets of threaded cylinders 6 are respectively provided with a clamping plate 601, the right clamping plate 601 of the threaded cylinder 6 of the front side set is also connected with an operating claw 602, and according to different cloth products, the two sets of threaded cylinders 6 are driven to rotate by rotating the operating claw 602, so as to synchronously adjust the positions of the two sets of right limiting plates 5.

In addition, according to the embodiment of the present invention, as shown in fig. 1 and 7, a scale 106 is further installed at the front end of the right side of the frame body 1, and the scale 106 is disposed between the left limiting plate 4 and the vertical plate 105, so that when the position of the right limiting plate 5 is adjusted, accurate adjustment is facilitated through the scale 106.

Specific use and action of the embodiment: according to different cloth products, the two groups of thread drums 6 are driven to rotate through the rotating operation claw 602, the positions of the two groups of right limiting plates 5 are synchronously and accurately adjusted through the graduated scale 106, the left group of test frames 2 and the right group of pressing plates 202 on the test frames 2 are pulled down, then two ends of the test cloth products are respectively placed in the gaps 2011 of the fixed shafts 201, the pressing plates 202 are inserted back into the gaps 2011 of the fixed shafts 201 through the outer inserting blocks 2021 again, the U-shaped blocks 204 at the front ends of the two groups of test frames 2 are pulled out, the fixed shafts 201 on the left group of test frames 2 are driven to rotate through the rotating operation hand wheel 2015, the lower transmission gears 1021 at the rear ends of the fixed shafts 201 are driven to rotate through the rear transmission gears 2013 of the fixed shafts 201, the lower transmission gears 1021 drive the transition gears 1022 to rotate reversely, the other group of lower transmission gears 1021 drive the fixed shafts 201 on the right group of test frames 2 and the fixed shafts 201 on the left group of test frames 2 to rotate reversely through the other group of lower transmission gears 1021, and the test cloth products are wound on the two ends of the fixed shafts 201 respectively;

then two groups of U-shaped blocks 204 are respectively inserted back into the limiting openings 203, so that limiting teeth 2041 on the inner arc side of the U-shaped blocks 204 are meshed with a front limiting gear 2014 on the front side end of the fixed shaft 201, and further the fixed shaft 201 is respectively clamped to prevent the fixed shaft 201 from rotating;

the driving motor 3 is started to drive the driving screw 301 to rotate, so that the cross-shaped clamping block 205 and the right-side group of test frames 2 synchronously move rightward, tension of cloth is tested, when the right-side group of test frames 2 contact the right limiting plate 5, the micro-touch switch B501 is touched, signals are fed back to the control box 107, the control box 107 further controls the driving motor 3 to stop acting, when the right-side group of test frames 2 contact the right limiting plate 5, the cloth is tested to be perfect, the cloth tension test meets the requirement, and accordingly whether the tension test of different cloth can be tested quickly meets the requirement.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims

1. A tensile testing device for cloth production detects, its characterized in that includes: a frame body (1), a driving motor (3) and a driving screw rod (301);

the bottom of the frame body (1) is connected with supporting legs, the inside of the frame body is of a hollow structure, the front side end of the frame body (1) is provided with notches (101), the two sides of each notch (101) are respectively provided with a test frame (2), the left side group of test frames (2) are fixedly arranged on the frame body (1), the right side group of test frames (2) are slidably clamped on the frame body (1), the two groups of test frames (2) are of U-shaped structures, a group of fixing shafts (201) are rotatably arranged on the two groups of test frames, a notch (2011) is arranged on the fixing shafts (201), the front end and the rear end of each notch (2011) are respectively provided with a side socket (2012), the rear end of each fixing shaft (201) is fixedly provided with a rear transmission gear (2013), the front end of each front limit gear (2014) is fixedly arranged on the rear end of each fixing shaft (201), the front end of each test frame (2) of the left side group of each fixing shaft is fixedly connected with an operation hand wheel (2015), the rear ends of the fixing shafts (201) of the right side groups of test frames (2) are fixedly arranged in a rear chute (103) on the frame body (1) in a penetrating mode, the right side groups of the fixing shafts (205) are rotatably arranged in the rear chute (103) of the frame body (1), the right side groups of the fixing frames (205) are fixedly connected with the cross frames (205) are meshed with the front end of the cross frames (205) in the front end of the cross frames (205) through the screw frames (205) and the screw frames (1), the driving screw (301) is rotatably arranged in the hollow structure of the frame body (1), the outer end of the driving screw is connected with a motor shaft of the driving motor (3), and the driving motor (3) is electrically connected with a control box (107) at the front end of the right side of the frame body (1);

two sets of vertical plates (105) are fixedly connected to the right side end of the frame body (1), two sets of threaded cylinders (6) are respectively and rotatably arranged on the two sets of vertical plates (105), two sets of adjusting screws (502) respectively meshed with the threaded cylinders (6) are connected with each other in a transmission manner, clamping plates (601) are respectively arranged at the left end and the right end of the frame body, and an operating claw (602) is further connected to the right clamping plate (601) of the threaded cylinder (6) of the front side;

the rear side of the frame body (1) is also provided with a transmission groove (102), two groups of lower transmission gears (1021) are respectively arranged in the transmission groove (102) in a rotating way through a rotating shaft and are meshed with one group of transition gears (1022), the lower transmission gears (1021) of the left group are meshed with the transition gears (1022) and are meshed with the rear transmission gears (2013) at the rear end of the test frames (2) of the left group, the transition gears (1022) are in transmission connection with the lower transmission gears (1021) of the right group, and when the test frames (2) of the right group are attached to the left limiting plate (4), the lower transmission gears (1021) of the right group are meshed with the rear transmission gears (2013) at the rear end of the test frames (2) of the right group;

a pressing plate (202) is inserted into a notch (2011) of the fixed shaft (201), a 5mm gap is formed between the bottom end of the pressing plate (202) and the inner side bottom end of the notch (2011), outer inserting blocks (2021) are respectively arranged at the front end and the rear end of the pressing plate (202), and the outer inserting blocks (2021) are respectively inserted into the side inserting holes (2012); the front side ends of the two groups of test frames (2) are also provided with limiting ports (203), the inner sides of the lower ends of the limiting ports (203) are respectively provided with two groups of opposite inner jacks (2031), and a front limiting gear (2014) is arranged in the limiting ports (203); a U-shaped block (204) is further inserted into the limiting port (203), limiting teeth (2041) are arranged in the middle of the inner arc of the U-shaped block (204), lower inserting blocks (2042) are respectively arranged at the bottom ends of two sides of the U-shaped block (204), and when the U-shaped block (204) is inserted into the limiting port (203), the limiting teeth (2041) are meshed with the front limiting gear (2014), and the lower inserting blocks (2042) are inserted into the inner inserting blocks (2031);

the left side of the right side group of the test rack (2) is provided with two groups of left limiting plates (4), the two groups of left limiting plates (4) are fixedly connected to the upper end of the right side of the notch (101) of the rack body (1), the left limiting plates (4) of the front side group are embedded with micro-touch switches A (401), and the micro-touch switches A (401) are electrically connected with the control box (107); the right side of the right side group of the test frame (2) is provided with two groups of right limiting plates (5), the right sides of the two groups of right limiting plates (5) are respectively and fixedly connected with adjusting screws (502), the right limiting plates (5) of the front side group are embedded with micro-touch switches B (501), and the micro-touch switches B (501) are electrically connected with a control box (107).

2. The tension testing device for cloth production detection as claimed in claim 1, wherein: the front end of the right side of the frame body (1) is also provided with a graduated scale (106), and the graduated scale (106) is arranged between the left limiting plate (4) and the vertical plate (105).