CN115615829A - Strength testing equipment based on optical fiber steel wire - Google Patents

Abstract

The invention discloses a strength testing device based on an optical fiber steel wire, which comprises a workbench, a clamp holder, a protector and an accommodating disc, wherein a frame is installed at the top of the workbench, a connecting plate is installed on the outer wall of the frame, a first motor is installed on the outer wall of the clamp holder, and two groups of threaded sleeves are installed on the inner wall of the clamp holder. According to the invention, the firmness of clamping the optical fiber steel wire can be improved when the coiling plate and the clamping device are arranged to test the strength of the optical fiber steel wire, after one end of the optical fiber steel wire is moved to the position above the anti-slip plate, the first telescopic rod is operated to limit the optical fiber steel wire, the output end of the first motor is rotated to drive the coiling plate to rotate to coil the optical fiber steel wire, after the optical fiber steel wire is coiled for a certain length, the two groups of bolts are simultaneously rotated to push the positioning blocks to move, and after the two groups of positioning blocks and the outer wall of the optical fiber steel wire, the optical fiber steel wire to be detected is subjected to limit clamping, so that the purpose of quickly clamping the optical fiber steel wire to be detected is achieved.

Description

Strength test equipment based on optical fiber steel wire

Technical Field

The invention relates to the technical field of strength testing equipment, in particular to strength testing equipment based on an optical fiber steel wire.

Background

The optical cable mainly comprises optic fibre and steel wire, because the intensity of optic fibre is low, optic fibre steel wire can improve optical cable bulk strength, in hanging or the work progress, can guarantee that the optical cable can not break the phenomenon, after producing optic fibre steel wire, need use equipment to test to the intensity of optic fibre steel wire after producing, steel wire tensile strength tester is the equipment to the intensity test of optic fibre steel wire promptly, can test the intensity of optic fibre steel wire, and then can make the staff know the intensity limit of the optic fibre steel wire of production where, be convenient for detect whether qualified optic fibre steel wire after producing, the intensity test equipment of current optic fibre steel wire is when testing the optic fibre steel wire, mostly be inconvenient for preventing that the optic fibre steel wire from breaking away from in the test procedure by accident, consequently, need the structure can improve the fastness of the intensity test equipment of optic fibre steel wire to the optic fibre steel wire centre gripping that awaits measuring of optic fibre steel wire, can prevent that the optic fibre steel wire breaks away from by accident when testing the optic fibre steel wire intensity, influence detection effect.

The existing strength testing equipment has the following defects:

1. patent document CN211904886U discloses a wire rope strength testing device, "including the frame, the left part of frame is provided with the motor box, be provided with wire rope on the motor box and compress tightly the subassembly, install a driving motor in the motor box, a driving motor's output shaft has first lead screw, wear to be equipped with tensile seat on the first lead screw, be provided with wire rope chucking subassembly on the tensile seat, be connected with force transducer between wire rope chucking subassembly and the tensile seat. Meanwhile, the steel wire rope clamping assembly and the steel wire rope pressing assembly are adopted, so that the steel wire rope can be conveniently fixed in the process of tensile detection of the steel wire rope, the problem that the steel wire rope slides due to stress is solved, and the firmness of the steel wire rope in the fixing process is improved. The whole detection device is simple in structure and convenient to operate, personnel intervention is not needed in the whole test process, and the steel wire rope breakage possibly occurring in the test and the injury outside the tester are avoided, however, the steel wire rope strength test device of the above publication mainly considers the problem of avoiding the steel wire rope breakage possibly occurring in the test and does not consider the problem of preventing the clamped test optical fiber steel wire from being accidentally separated, so that a structure capable of improving the clamping and fixing of the optical fiber steel wire is necessary to be researched, and the optical fiber steel wire can be prevented from being accidentally separated and falling when the optical fiber steel wire is tested;

2. patent document CN213091360U discloses a steel wire strength testing device with a limiting structure for 5G optical fiber production apparatus, and this steel wire strength testing device with a limiting structure for 5G optical fiber production apparatus comprises a base, base top fixedly connected with top cap, both ends all are equipped with positioning mechanism, two about on the base positioning mechanism bilateral symmetry sets up. The steel wire strength testing device with the limiting structure for the 5G optical fiber production tool is characterized in that a steel wire is wound around a central rotating shaft for a circle, then a handle is rotated by people, then the central rotating shaft is driven to rotate, then the central rotating shaft is rotated to drive two moving blocks to move inwards, and then the steel wire is clamped, the structure increases the contact area on the fixed steel wire, so that the fixed strength is increased, then the central rotating shaft can be used for driving a ratchet wheel to rotate, so that the ratchet wheel can be prevented from rotating reversely, so that the central rotating shaft is prevented from rotating reversely, and the clamping state cannot be loosened;

3. patent document CN216350106U discloses a fatigue strength testing arrangement for steel wire production, "it includes the bottom plate, recess one has been seted up at the middle part of bottom plate, be provided with threaded rod one in the recess one, the upper surface left and right sides of bottom plate all is provided with the grip block, two a plurality of centre gripping grooves have all been seted up on the opposite face of grip block. Through the mutual matching of the first rotating shaft, the first gear, the second rotating shaft, the second gear, the half gears and the motor, the second rotating shaft on the right side can be driven by the motor to rotate, the second gear on the right side drives the second gear engaged on the left side to reversely rotate, so that the half gears on the two sides reversely rotate simultaneously, when the half gear on one side is engaged with the first gear, the transverse plate is driven to overturn towards one side, the steel wire is bent, then the steel wire is driven to bend towards the other side when the half gear on the other side is engaged with the first gear, the operation is repeated in such a way until the steel wire is broken, and the test effect of the steel wire is improved, however, the fatigue strength testing device for steel wire production of the above-mentioned publication mainly considers the improvement of the test effect of the steel wire, does not consider the problem of clearing and collecting the scraps generated by testing the optical fiber steel wire, therefore, a structure capable of clearing and collecting the scraps generated by testing the optical fiber steel wire can be researched, and further the scraps can be prevented from being accumulated and not easy to clean;

4. patent document CN215179174U discloses a wire rope strength testing device, "including mounting panel and wire rope, the equal fixed mounting in the left and right sides at mounting panel top has the supporting seat, the top fixed mounting of mounting panel has the servo motor that is located right side supporting seat right side, two rotate between the supporting seat and be connected with first screw rod, first screw rod run through right side supporting seat and with servo motor's output shaft fixed connection, the outside threaded connection of first screw rod has one end and mounting panel top sliding connection's screw thread piece, the top fixed mounting of screw thread piece has the fixed block, the right side fixed mounting of fixed block has the pulling force display, sliding connection has the movable block between the interior roof of fixed block and the interior diapire, the interior diapire of movable block rotates and is connected with the second screw rod that one end extends to the fixed block top. This wire rope strength test device has made things convenient for the user to fix according to the diameter of wire rope ", however, the problem of accomodating the optic fibre steel wire after the test is not considered in the wire rope strength test device of above-mentioned publication, and it is convenient to mainly consider to fix according to the diameter of wire rope, consequently, it is necessary to study out a structure that can accomodate the optic fibre steel wire after the test, and then can be when handling the optic fibre steel wire of multiunit, can accomodate the optic fibre steel wire after the test in order, the condition that can not appear scattering takes place.

Disclosure of Invention

The invention aims to provide a strength testing device based on an optical fiber steel wire, which aims to solve the problems of improving the fixing effect of the tested optical fiber steel wire, preventing the optical fiber steel wire from breaking and splashing, removing debris and accommodating the tested optical fiber steel wire in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a strength testing device based on an optical fiber steel wire comprises a workbench, a clamp holder, a protector and an accommodating disc, wherein a frame is installed at the top of the workbench, and a connecting plate is installed on the outer wall of the frame;

the outer wall of the clamp holder is provided with a first motor, the output end of the first motor is provided with a rolling plate, the bottom of the rolling plate is provided with a first mounting groove, the inner wall of the first mounting groove is provided with a plurality of groups of first telescopic rods, the top ends of the first telescopic rods are provided with short rods, and the top ends of the short rods are fixedly provided with positioning plates;

two groups of threaded sleeves are mounted on the inner wall of the clamp holder.

Preferably, the cushion is installed to the bottom of workstation, and the control box is installed to the top of connecting plate, and two sets of No. two motors are installed at the top of frame, and the output fixed mounting of No. two motors has a screw lead screw, and the outer wall of a screw lead screw encircles and installs the slider, and the bearing plate is installed to the outer wall of slider, and detecting element is installed to the inner wall of bearing plate, and detecting element and control box electric connection, and the holder is installed at detecting element's top.

Preferably, the inner wall of the threaded sleeve is provided with a bolt, one end of the bolt acts on the positioning block, and the top of the rolling plate is provided with an anti-skidding plate.

Preferably, the protector is all installed at the front and the back of frame, no. three motors are installed to the inner wall of protector, the output fixed mounting of No. three motors has No. two screw lead screws, the inner wall of protector is installed and is accomodate the groove, the inner wall of accomodating the groove runs through and installs the guard plate, the inner wall of guard plate is equipped with the multiunit cell body, and the one end of No. two screw lead screws extends to the inside of cell body, accomodate the inner wall in groove and install the multiunit guide bar, and the one end of guide bar extends to the inside of cell body, the outer wall fixed mounting of guard plate has the screw ring, and the one end of No. two screw lead screws extends to the inside of screw ring, the inner wall of accomodating the groove is equipped with two sets of No. two mounting grooves, the guide arm is installed to the inner wall of No. two mounting grooves, the top and the bottom of guard plate all install the guide arm, and the one end of guide arm runs through the inside of sliding block, the sealing strip is installed to the outer wall of guard plate.

Preferably, the rolling plate is rectangular in shape, one end of the rolling plate is fixedly connected with the output end of the first motor, the short rod penetrates through the rolling plate, the cushion block is cylindrical in shape, four sets of the rolling plates are fixedly mounted at the bottom of the workbench, the antiskid plate is mounted at the top of the rolling plate in an embedded mode, and four sets of the protectors are fixedly connected with the frame.

Preferably, the containing disc is installed at the top of workstation, and the containing disc is located one side of frame, two sets of row material grooves are installed to the bottom of containing disc, the protection frame is all installed to the both sides outer wall of containing disc, the multiunit gear is installed to the inner wall of protection frame, the outer wall of gear encircles and installs the chain, no. two motors are installed to the bottom of protection frame, and the output of No. two motors and the outer wall fixed connection of a set of gear wherein, two sets of bracing pieces are installed to the inner wall of protection frame, the sliding plate is installed to the outer wall of chain, and the inside of sliding plate is run through to the one end of bracing piece, the scraper blade is installed to the outer wall of sliding plate, square groove is installed to the inner wall of workstation, and the one end of arranging the material groove extends to the inside in square groove, the containing box is installed to the inner wall in square groove.

Preferably, the outer wall of workstation is installed and is accomodate the ware, and the top of accomodating the ware is equipped with multiunit hole.

Preferably, the inner wall of accomodating the ware is installed the multiunit and is accomodate the frame, accomodate the inner wall bottom of frame and install two sets of telescopic links No. two, the top fixed mounting of No. two telescopic links has the mounting bracket, two-way lead screw is installed to the inner wall of mounting bracket, the outer wall of two-way lead screw is encircleed and is installed the limiting plate, no. three motors are installed to the bottom of mounting bracket, and No. three motors pass through belt transmission with two-way lead screw and be connected, concave groove is installed to the inner wall of mounting bracket, the back shaft is installed to the inner wall of concave groove, the stopper is installed to the bottom of limiting plate, and the inside of stopper is run through to the one end of back shaft.

Preferably, the working steps of the strength testing device are as follows:

s1, when testing the strength of an optical fiber steel wire, moving one end of the optical fiber steel wire to be tested into a clamp holder, moving one end of the optical fiber steel wire to the upper side of an antiskid plate, enabling a first telescopic rod to work to drive a short rod to move, driving a positioning plate to move when the short rod moves, carrying out limiting clamping on one end of the optical fiber steel wire at the top of the antiskid plate after the positioning plate moves, enabling an output end of a motor to rotate to drive a rolling plate to rotate after the optical fiber steel wire is limited, rolling the optical fiber steel wire after the rolling plate rotates, simultaneously rotating two groups of bolts after the optical fiber steel wire is rolled for a certain length, enabling the bolts to move through a threaded sleeve, pushing a positioning block to move when the bolts move, carrying out limiting clamping on the optical fiber steel wire to be tested after the two groups of positioning blocks and the outer wall of the optical fiber steel wire, carrying out rapid positioning clamping on the optical fiber steel wire to be tested through the two groups of clamp holders, preventing the optical fiber steel wire from accidentally falling when the optical fiber steel wire is tested, and achieving the purpose of rapidly testing the optical fiber steel wire to be tested, and simultaneously preventing the optical fiber steel wire from falling off and dropping;

s2, when the strength of the optical fiber steel wire is tested, after the position of the optical fiber steel wire is fixed, the output end of a third motor is rotated to drive a second threaded screw rod to rotate, a threaded ring is slid when the second threaded screw rod rotates, the protection plates are pushed to slide out of the accommodating groove when the threaded ring is moved, after two protection plates on the same side are moved to preset positions, the two protection plates are connected and contacted through two groups of sealing strips, the two groups of protection plates can block the space for detecting the strength of the optical fiber steel wire, when the strength of the optical fiber steel wire is tested, the optical fiber steel wire which is accidentally broken can be prevented from splashing to injure the body of a tester, and the purpose of reducing accidents is achieved;

s3, when the strength of the optical fiber steel wire is tested, fragments generated in the test can fall into the storage disc to be stored, the fragments can be prevented from falling randomly, when the fragments stored in the storage disc are cleared and collected, the output end of the second motor is rotated to drive the gear to rotate, the gear rotates to move the chain, the chain drives the sliding plate to slide on the outer wall of the supporting rod when moving, the sliding plate can drive the scraper to horizontally slide, the bottom of the scraper is attached to the bottom of the inner wall of the storage disc, the fragments stored in the storage disc can be scraped and pushed when the scraper moves, after the scraper moves to push the fragments into the discharging groove, the fragments can slide into the storage box to be collected, the purpose of clearing and storing the fragments generated in the strength test of the optical fiber steel wire can be achieved, the fragments are prevented from being scattered and accumulated, the fragments are not easy to clean, and the labor intensity is reduced;

s4, when the intensity of multiunit optic fibre steel wire is tested, the one end of optic fibre steel wire after will testing is passed through the hole and is removed to between two sets of limiting plates, make the output of No. three motors rotate and drive two-way lead screw and rotate, make two sets of limiting plate approach motion when two-way lead screw rotates, after two sets of limiting plates removed the outer wall of optic fibre steel wire, carry out spacing centre gripping to the one end of optic fibre steel wire, make No. two telescopic link work drive mounting bracket shift position, the removal of driving the optic fibre steel wire through the limiting plate during mounting bracket shift position, make the optic fibre steel wire remove the inside that enters into the storage rack, reach and accomodate the optic fibre steel wire after the intensity test, when carrying out intensity test to multiunit optic fibre steel wire, can prevent the too much condition in disorder that appears in the optic fibre steel wire, be convenient for accomodate the unified processing to the optic fibre steel wire after the test.

Preferably, the step S1 further includes the steps of:

s11, after the position of an optical fiber steel wire to be detected is limited by two groups of clamps, the output end of a second motor is rotated to drive a first threaded screw rod to rotate, a sliding block is moved when the first threaded screw rod rotates, a bearing plate is moved when the sliding block moves, the bearing plate drives one group of clamps to move through a detection element when moving, the optical fiber steel wire is pulled after the clamps move, the pulling force applied to the optical fiber steel wire can be detected through the detection element, and the detected data parameters are displayed through a control box, so that the strength of the optical fiber steel wire can be tested;

in step S2, the method further includes the steps of:

s21, when the protection plate moves, the guide rod slides in the groove body, and meanwhile the sliding block horizontally moves on the outer wall of the guide rod, so that the protection plate can be guided to horizontally move;

in step S4, the method further includes the steps of:

s41, when the limiting plate moves, the limiting block is driven to horizontally slide on the outer wall of the supporting shaft, and the supporting shaft guides the limiting plate through the limiting block to enable the limiting plate to horizontally slide.

Compared with the prior art, the invention has the beneficial effects that:

1. the device can improve the firmness of clamping the optical fiber steel wire when the optical fiber steel wire strength is tested by installing the coiling plate and the clamping device, after one end of the optical fiber steel wire to be tested is moved to the inside of the clamping device, one end of the optical fiber steel wire is moved to the position above the antiskid plate, the first telescopic rod is operated to drive the short rod to move, the short rod drives the positioning plate to move when moving, after the positioning plate moves, one end of the optical fiber steel wire at the top of the antiskid plate is clamped in a limiting mode, after the optical fiber steel wire is limited, the output end of the first motor is rotated to drive the coiling plate to rotate, after the coiling plate rotates, the optical fiber steel wire is coiled, after the optical fiber steel wire is coiled for a certain length, the two groups of bolts are rotated at the same time, the bolts are moved through the threaded sleeves, the positioning blocks are pushed to move when the bolts move, after the two groups of positioning blocks and the outer wall of the optical fiber steel wire, the optical fiber steel wire to be tested is clamped in a limiting mode, the optical fiber steel wire to be tested can be rapidly positioned and clamped through the two groups of the clamping device, when the optical fiber steel wire is tested, the optical fiber steel wire can be prevented from falling off accidentally, the optical fiber steel wire, the firmness of the optical fiber steel wire can be clamped, and the optical fiber steel wire to be prevented from falling off when the optical fiber steel wire to be tested;

2. when the protector and the protection plates are installed to test the strength of the optical fiber steel wires, the broken optical fiber steel wires can be prevented from splashing to cause injury to testers, after the positions of the optical fiber steel wires are fixed, the output end of a third motor is rotated to drive a second threaded screw rod to rotate, a threaded ring is slid when the second threaded screw rod rotates, the protection plates are pushed to slide out of the accommodating groove when the threaded ring is moved, after two protection plates on the same side are moved to preset positions, the two protection plates are connected and contacted through two sealing strips, the two protection plates can block the space for detecting the strength of the optical fiber steel wires, when the strength of the optical fiber steel wires is tested, the accidentally broken optical fiber steel wires can be prevented from splashing to cause injury to the bodies of the testers, and the purpose of reducing accidents is achieved;

3. according to the invention, the containing disc and the scraper are arranged, so that scraps generated in the process of testing the strength of the optical fiber steel wire can be collected, when the strength of the optical fiber steel wire is tested, the scraps generated in the process of testing can fall into the containing disc to be contained, the scraps can be prevented from scattering and falling, when the scraps contained in the containing disc are removed and collected, the output end of the second motor is rotated to drive the gear to rotate, the gear is rotated to move the chain, the chain drives the sliding plate to slide on the outer wall of the supporting rod to drive the scraper to horizontally slide, the bottom of the scraper is attached to the bottom of the inner wall of the containing disc, when the scraper moves, the scraps contained in the containing disc can be scraped and pushed, after the scrapes move to push the scraps into the discharging groove, the scraps can slide into the containing box to be collected, the purpose of removing and containing the scraps generated in the strength test of the optical fiber steel wire can be achieved, the scraps can be prevented from scattering and accumulation, the scraps are not easy to be swept, and the labor strength is reduced;

4. the storage device and the limiting plates are arranged, the tested optical fiber steel wires can be orderly stored, when the strength of a plurality of groups of optical fiber steel wires needs to be tested, one end of the tested optical fiber steel wire is moved between the two groups of limiting plates through the hole, the output end of the third motor is rotated to drive the bidirectional screw rod to rotate, the two groups of limiting plates approach to move when the bidirectional screw rod rotates, one end of the optical fiber steel wire is limited and clamped after the two groups of limiting plates move to the outer wall of the optical fiber steel wire, the second telescopic rod works to drive the mounting frame to move, the optical fiber steel wires are driven to move through the limiting plates when the mounting frame moves, the optical fiber steel wires move to enter the storage frame, the optical fiber steel wires after the strength test are stored, the condition that the optical fiber steel wires are scattered too many can be prevented when the strength test is performed on the plurality of groups of optical fiber steel wires, and the uniform storage processing of the optical fiber steel wires after the test is facilitated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of the gripper configuration of the present invention;

FIG. 4 is a schematic view of a winding plate structure according to the present invention;

FIG. 5 is a schematic diagram of the structure of the protector of the present invention;

FIG. 6 is a schematic view of a protective frame according to the present invention;

FIG. 7 is a schematic view of the structure of the container of the present invention;

FIG. 8 is a schematic view of the structure of the mounting bracket of the present invention;

fig. 9 is a flow chart of the operation of the present invention.

In the figure: 1. a work table; 2. cushion blocks; 3. a frame; 4. a connecting plate; 5. a control box; 6. a second motor; 7. a first threaded screw rod; 8. a slider; 9. a bearing plate; 10. a detection element; 11. a holder; 12. a threaded sleeve; 13. a bolt; 14. positioning a block; 15. a first motor; 16. rolling up the plate; 17. a first mounting groove; 18. a first telescopic rod; 19. a short bar; 20. positioning a plate; 21. a protector; 22. a third motor; 23. a second threaded screw rod; 24. a storage groove; 25. a protection plate; 26. a trough body; 27. a threaded ring; 28. a guide rod; 29. a sealing strip; 30. a storage tray; 31. a discharge chute; 32. a protective frame; 33. a gear; 34. a chain; 35. a motor II; 36. a sliding plate; 37. a support bar; 38. a squeegee; 39. a square groove; 40. a storage box; 41. a container; 42. a hole; 43. a storage rack; 44. a second telescopic rod; 45. a mounting frame; 46. a bidirectional screw; 47. a motor No. three; 48. a limiting plate; 49. a concave groove; 50. a support shaft; 51. a limiting block; 52. mounting grooves II; 53. a guide bar; 54. a slider; 55. an antiskid plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Referring to fig. 1, fig. 2 and fig. 9, an embodiment of the present invention: a strength test device based on an optical fiber steel wire comprises a workbench 1, a clamp holder 11, a protector 21 and a containing disc 30, wherein a frame 3 is installed at the top of the workbench 1, the workbench 1 provides an installation space for the frame 3, a connecting plate 4 is installed on the outer wall of the frame 3, the connecting plate 4 enables a control box 5 to be connected with the frame 3, two groups of threaded sleeves 12 are installed on the inner wall of the clamp holder 11, the threaded sleeves 12 facilitate the movement of bolts 13, a cushion block 2 is installed at the bottom of the workbench 1, the cushion block 2 supports the workbench 1, the control box 5 is installed above the connecting plate 4, the control box 5 is electrically connected with electrical components in the device, a display screen is installed above the control box 5 and can display parameters of the optical fiber steel wire strength test, two groups of motors 6 are installed at the top of the frame 3, and a first threaded screw rod 7 is fixedly installed at the output end of the second motor 6, the outer wall of the first threaded screw rod 7 is provided with a sliding block 8 in a surrounding mode, the outer wall of the sliding block 8 is provided with a bearing plate 9, the inner wall of the bearing plate 9 is provided with a detection element 10, the detection element 10 is electrically connected with the control box 5, the top of the detection element 10 is provided with a clamp holder 11, the output end of the second motor 6 rotates to drive the first threaded screw rod 7 to rotate, the first threaded screw rod 7 rotates to enable the sliding block 8 to move, the sliding block 8 moves to drive the bearing plate 9 to move, the bearing plate 9 moves to drive one group of the clamp holders 11 to move through the detection element 10, the optical fiber steel wire is pulled after the clamp holders 11 move, the coiling plate 16 is rectangular in shape, one end of the coiling plate is fixedly connected with the output end of the first motor 15, the short rod 19 penetrates through the inner part of the coiling plate 16, the cushion block 2 is cylindrical in shape, and four groups are fixedly arranged at the bottom of the workbench 1, the antiskid plate 55 is embedded and arranged on the top of the rolling plate 16, and four groups of the protectors 21 are fixedly connected with the frame 3

Referring to fig. 2, 3 and 4, a first motor 15 is installed on the outer wall of the holder 11, a rolling plate 16 is installed on the output end of the first motor 15, a first installation groove 17 is installed at the bottom of the rolling plate 16, a plurality of groups of first expansion rods 18 are installed on the inner wall of the first installation groove 17, a short rod 19 is installed at the top end of the first expansion rod 18, a positioning plate 20 is fixedly installed at the top end of the short rod 19, a bolt 13 is installed on the inner wall of the threaded sleeve 12, one end of the bolt 13 acts on a positioning block 14 to a greater extent, an anti-slip plate 55 is installed at the top of the rolling plate 16, when testing the strength of the optical fiber steel wire, after moving one end of the optical fiber steel wire to be tested to the inside of the holder 11, after one end of the optical fiber steel wire is moved to the upper part of the antiskid plate 55, the first telescopic rod 18 works to drive the short rod 19 to move, the short rod 19 drives the positioning plate 20 to move when moving, the positioning plate 20 performs limiting clamping on one end of the optical fiber steel wire at the top of the antiskid plate 55 after moving, after the optical fiber steel wire is limited, the output end of the first motor 15 rotates to drive the coiling plate 16 to rotate, the coiling plate 16 rotates to coil the optical fiber steel wire, after the optical fiber steel wire is wound for a certain length, two groups of bolts 13 are simultaneously rotated, the bolts 13 are moved through the threaded sleeves 12, the positioning blocks 14 are pushed to move when the bolts 13 move, after the two groups of positioning blocks 14 reach the outer wall of the optical fiber steel wire, the optical fiber steel wire to be detected is limited and clamped, the optical fiber steel wire to be detected can be quickly positioned and clamped through the two groups of clamping devices 11, when detecting the optic fibre steel wire, can prevent that the optic fibre steel wire accident from droing, reach and treat fast and detect the purpose that intensity optic fibre steel wire carries out the centre gripping, can prevent simultaneously that the optic fibre steel wire breaks away from and drops.

Referring to fig. 1 and 5, the front and back of the frame 3 are both provided with the protector 21, the inner wall of the protector 21 is provided with the third motor 22, the output end of the third motor 22 is fixedly provided with the second threaded screw rod 23, the inner wall of the protector 21 is provided with the accommodating groove 24, the inner wall of the accommodating groove 24 is provided with the protection plate 25 in a penetrating manner, the inner wall of the protection plate 25 is provided with a plurality of groove bodies 26, one end of the second threaded screw rod 23 extends into the groove body 26, the inner wall of the accommodating groove 24 is provided with a plurality of guide rods 28, one end of each guide rod 28 extends into the groove body 26, the outer wall of the protection plate 25 is fixedly provided with the threaded ring 27, one end of the second threaded screw rod 23 extends into the threaded ring 27, the inner wall of the accommodating groove 24 is provided with two sets of second mounting grooves 52, the inner wall of the second mounting groove 52 is provided with the guide rod 53, the top and the bottom of the protection plate 25 are both provided with the slide blocks 54, and one end of the guide rod 53 runs through the inside of the sliding block 54, the sealing strip 29 is installed on the outer wall of the protection plate 25, after the position of the optical fiber steel wire is fixed, the output end of the third motor 22 is rotated to drive the second threaded lead screw 23 to rotate, the threaded ring 27 is slid when the second threaded lead screw 23 rotates, the protection plate 25 is pushed to slide out of the accommodating groove 24 when the threaded ring 27 is moved, after the two groups of protection plates 25 on the same side are moved to a preset position, the two groups of protection plates 25 are connected and contacted through the two groups of sealing strips 29, the space for detecting the strength of the optical fiber steel wire can be blocked by the two groups of protection plates 25, when the strength of the optical fiber steel wire is tested, the optical fiber steel wire which is accidentally broken can be prevented from splashing to cause damage to the body of a tester, and the purpose of reducing accidents is achieved.

Referring to fig. 1, 2 and 6, a receiving tray 30 is installed on the top of a workbench 1, the receiving tray 30 is located on one side of a frame 3, two sets of discharging slots 31 are installed at the bottom of the receiving tray 30, a protection frame 32 is installed on the outer walls of both sides of the receiving tray 30, a plurality of sets of gears 33 are installed on the inner wall of the protection frame 32, chains 34 are installed around the outer walls of the gears 33, a second motor 35 is installed at the bottom of the protection frame 32, the output end of the second motor 35 is fixedly connected with the outer wall of one set of gears 33, two sets of support rods 37 are installed on the inner wall of the protection frame 32, a sliding plate 36 is installed on the outer wall of the chains 34, one end of each support rod 37 penetrates through the inside of the sliding plate 36, a scraper 38 is installed on the outer wall of the sliding plate 36, a square slot 39 is installed on the inner wall of the workbench 1, one end of each discharging slot 31 extends into the inside of the square slot 39, a receiving box 40 is installed on the inner wall of the square slot 39, the chips generated in the test can fall into the storage disc 30 for storage, the chips can be prevented from falling randomly, when the chips stored in the storage disc 30 are cleared and collected, the output end of the second motor 35 is rotated to drive the gear 33 to rotate, the gear 33 is rotated to move the chain 34, the chain 34 drives the sliding plate 36 to slide on the outer wall of the supporting rod 37 when moving, the sliding plate 36 can drive the scraper 38 to slide horizontally, the bottom of the scraper 38 is attached to the bottom of the inner wall of the storage disc 30, the chips stored in the storage disc 30 can be scraped and pushed when the scraper 38 moves, after the scraper 38 moves to push the chips into the discharge groove 31, the chips can slide into the storage box 40 for collection, and the purpose of clearing and storing the chips generated in the strength test of the optical fiber steel wire is achieved, the chips can be prevented from being scattered and accumulated, the cleaning is not easy, and the labor intensity is reduced.

Referring to fig. 7 and 8, a container 41 is mounted on an outer wall of a workbench 1, a plurality of groups of holes 42 are formed in the top of the container 41, a plurality of groups of storage frames 43 are mounted on an inner wall of the container 41, two groups of second telescopic rods 44 are mounted at the bottom of the inner wall of the storage frames 43, an installation frame 45 is fixedly mounted at the top end of each second telescopic rod 44, a bidirectional lead screw 46 is mounted on the inner wall of the installation frame 45, a limit plate 48 is mounted on the outer wall of the bidirectional lead screw 46 in a surrounding manner, a third motor 47 is mounted at the bottom of the installation frame 45, the third motor 47 is connected with the bidirectional lead screw 46 through a belt in a transmission manner, a concave groove 49 is mounted on the inner wall of the installation frame 45, a support shaft 50 is mounted on the inner wall of the concave groove 49, a limit block 51 is mounted at the bottom of the limit plate 48, one end of the support shaft 50 penetrates through the inside of the limit block 51, and when the strength of a plurality of optical fiber steel wires needs to be tested, pass through hole 42 with the one end of the optic fibre steel wire after the test and remove back between two sets of limiting plates 48, make No. three motor 47's output rotate and drive two-way lead screw 46 and rotate, make two sets of limiting plates 48 approach motion when two-way lead screw 46 rotates, two sets of limiting plates 48 remove after the outer wall to the optic fibre steel wire, carry out spacing centre gripping to the one end of optic fibre steel wire, make No. two telescopic link 44 work drive mounting bracket 45 shift position, through the removal that limiting plate 48 drove the optic fibre steel wire during mounting bracket 45 shift position, make the optic fibre steel wire remove the inside that enters into and accomodate frame 43, reach and accomodate the optic fibre steel wire after the strength test, when carrying out strength test to the multiunit optic fibre steel wire, can prevent the too much condition in disorder that appears of optic fibre steel wire, be convenient for accomodate the unified processing of accomodating to the optic fibre steel wire after the test.

The working steps of the strength testing device are as follows:

s1, when testing the strength of an optical fiber steel wire, moving one end of the optical fiber steel wire to be tested into a holder 11, moving one end of the optical fiber steel wire to be tested to the position above an anti-skid plate 55, enabling a first telescopic rod 18 to work to drive a short rod 19 to move, driving a positioning plate 20 to move when the short rod 19 moves, carrying out limiting clamping on one end of the optical fiber steel wire at the top of the anti-skid plate 55 after the positioning plate 20 moves, after limiting the optical fiber steel wire, enabling an output end of a first motor 15 to rotate to drive a rolling plate 16 to rotate, rolling the optical fiber steel wire after the rolling plate 16 rotates, rolling the optical fiber steel wire for a certain length after rolling the optical fiber steel wire, simultaneously rotating two groups of bolts 13, enabling the bolts 13 to move through threaded sleeves 12, pushing a positioning block 14 to move when the bolts 13 move, carrying out limiting clamping on the optical fiber steel wire to be tested after the two groups of positioning blocks 14 and the outer wall of the optical fiber steel wire, carrying out rapid positioning clamping on the optical fiber steel wire to be tested through the two groups of holders 11, and carrying out rapid positioning clamping on the optical fiber steel wire, and preventing the optical fiber steel wire from falling off when testing the optical fiber steel wire;

s2, when the strength of the optical fiber steel wire is tested, after the position of the optical fiber steel wire is fixed, the output end of a third motor 22 is rotated to drive a second threaded screw rod 23 to rotate, a threaded ring 27 is slid when the second threaded screw rod 23 rotates, the protective plates 25 are pushed to slide out of the accommodating groove 24 when the threaded ring 27 is moved, after two groups of protective plates 25 on the same side are moved to a preset position, the two groups of protective plates 25 are connected and contacted through two groups of sealing strips 29, the two groups of protective plates 25 can block the space for detecting the strength of the optical fiber steel wire, when the strength of the optical fiber steel wire is tested, the optical fiber steel wire which is accidentally broken can be prevented from splashing to damage the body of a tester, and the purpose of reducing accidents is achieved;

s3, when the strength of the optical fiber steel wire is tested, the chips generated in the test can fall into the storage disc 30 to be stored, the chips can be prevented from falling randomly, when the chips stored in the storage disc 30 are cleared and collected, the output end of the second motor 35 is rotated to drive the gear 33 to rotate, the gear 33 is rotated to drive the chain 34 to move, the chain 34 drives the sliding plate 36 to slide on the outer wall of the supporting rod 37 when moving, the sliding plate 36 can drive the scraper 38 to horizontally slide, the bottom of the scraper 38 is attached to the bottom of the inner wall of the storage disc 30, the chips stored in the storage disc 30 can be scraped and pushed when the scraper 38 moves, the scraper 38 pushes the chips into the discharge groove 31 when moving, the chips can slide into the storage box 40 to be collected, the purpose of clearing and storing the chips generated in the strength test of the optical fiber steel wire can be achieved, the chips can be prevented from being scattered and accumulated, the chips are not easy to be swept, and the labor strength is reduced;

s4, when the intensity of multiunit optic fibre steel wire is required to be tested, the one end of optic fibre steel wire after testing is passed through hole 42 and is removed to two sets of limiting plates 48 between back, make the output of No. three motor 47 rotate and drive two-way lead screw 46 and rotate, make two sets of limiting plates 48 approach motion when two-way lead screw 46 rotates, after two sets of limiting plates 48 remove the outer wall to the optic fibre steel wire, carry out spacing centre gripping to the one end of optic fibre steel wire, make No. two telescopic link 44 work drive mounting bracket 45 shift position, drive the removal of optic fibre steel wire through limiting plate 48 during mounting bracket 45 shift position, make the optic fibre steel wire remove the inside that enters into storage rack 43, reach and accomodate the optic fibre steel wire after the intensity test, when carrying out the intensity test to multiunit optic fibre steel wire, can prevent the too much condition in disorder that appears in the optic fibre steel wire, be convenient for accomodate the processing in unison to the optic fibre steel wire after the test.

In step S1, the method further includes the steps of:

s11, after the position of an optical fiber steel wire to be detected is limited by the two groups of clamps 11, the output end of the second motor 6 is rotated to drive the first threaded screw rod 7 to rotate, the first threaded screw rod 7 is rotated to drive the slide block 8 to move, the slide block 8 is moved to drive the bearing plate 9 to move, the bearing plate 9 is moved to drive one group of clamps 11 to move through the detection element 10, the optical fiber steel wire is pulled after the clamps 11 move, the tension on the optical fiber steel wire can be detected through the detection element 10, the detected data parameters are displayed through the control box 5, and further the strength of the optical fiber steel wire can be tested;

in step S2, the method further includes the steps of:

s21, when the protection plate 25 moves, the guide rod 28 slides in the groove body 26, and meanwhile the sliding block 54 horizontally moves on the outer wall of the guide rod 53, so that the protection plate 25 can be guided, and the protection plate 25 horizontally moves;

in step S4, the method further includes the steps of:

s41, when the limiting plate 48 moves, the limiting block 51 is driven to horizontally slide on the outer wall of the supporting shaft 50, and the supporting shaft 50 guides the limiting plate 48 through the limiting block 51, so that the limiting plate 48 horizontally slides.

The working principle is that.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a strength test equipment based on optic fibre steel wire, includes workstation (1), holder (11), protector (21) and storage disc (30), its characterized in that: a frame (3) is installed at the top of the workbench (1), and a connecting plate (4) is installed on the outer wall of the frame (3);

a first motor (15) is installed on the outer wall of the clamp holder (11), a rolling plate (16) is installed at the output end of the first motor (15), a first installation groove (17) is installed at the bottom of the rolling plate (16), a plurality of groups of first telescopic rods (18) are installed on the inner wall of the first installation groove (17), short rods (19) are installed at the top ends of the first telescopic rods (18), and positioning plates (20) are fixedly installed at the top ends of the short rods (19);

two groups of threaded sleeves (12) are mounted on the inner wall of the clamp holder (11).

2. The strength testing apparatus based on the optical fiber steel wire according to claim 1, wherein: cushion (2) are installed to the bottom of workstation (1), control box (5) are installed to the top of connecting plate (4), two sets of No. two motor (6) are installed at the top of frame (3), the output fixed mounting of No. two motor (6) has a screw lead screw (7), the outer wall of a screw lead screw (7) encircles and installs slider (8), bearing plate (9) are installed to the outer wall of slider (8), detecting element (10) are installed to the inner wall of bearing plate (9), and detecting element (10) and control box (5) electric connection, holder (11) are installed at the top of detecting element (10).

3. The strength testing apparatus based on the optical fiber steel wire according to claim 1, wherein: the inner wall of the threaded sleeve (12) is provided with a bolt (13), one end of the bolt (13) acts on the positioning block (14) more, and the top of the rolling plate (16) is provided with an anti-skid plate (55).

4. The strength testing apparatus based on the optical fiber steel wire according to claim 2, wherein: the front and the back of frame (3) all install protection ware (21), no. three motor (22) are installed to the inner wall of protection ware (21), the output fixed mounting of No. three motor (22) has No. two screw lead screw (23), the inner wall of protection ware (21) is installed and is taken in groove (24), the inner wall of taking in groove (24) runs through and installs protection plate (25), the inner wall of protection plate (25) is equipped with multiunit cell body (26), and the one end of No. two screw lead screw (23) extends to the inside of cell body (26), it installs multiunit guide bar (28) to take in the inner wall of groove (24), and the one end of guide bar (28) extends to the inside of cell body (26), the outer wall fixed mounting of protection plate (25) has screw ring (27), and the one end of No. two screw lead screw (23) extends to the inside of screw ring (27), the inner wall of taking in groove (24) is equipped with two sets of No. two mounting grooves (52), guide arm (53) are installed to the inner wall of No. two mounting grooves (52), the top and the bottom of protection plate (25) all install sliding block (54), and the sealing strip (54) of guide arm (53), the one end of guide arm (53) runs through the sealing strip (25) is installed.

5. The apparatus for testing strength of an optical fiber-based steel wire according to any one of claims 1 to 4, wherein: the rolling plate (16) is rectangular in shape, one end of the rolling plate is fixedly connected with the output end of the first motor (15), the short rod (19) penetrates through the rolling plate (16), the cushion block (2) is cylindrical in shape, four sets of the cushion blocks are fixedly installed at the bottom of the workbench (1), the antiskid plates (55) are installed at the top of the rolling plate (16) in an embedded mode, and four sets of the guards (21) are fixedly connected with the frame (3).

6. The strength testing apparatus based on the optical fiber steel wire according to claim 2, wherein: storage tray (30) are installed at the top of workstation (1), and storage tray (30) are located one side of frame (3), two sets of row material groove (31) are installed to the bottom of storage tray (30), protection frame (32) are all installed to the both sides outer wall of storage tray (30), multiunit gear (33) are installed to the inner wall of protection frame (32), chain (34) are installed around to the outer wall of gear (33), no. two motor (35) are installed to the bottom of protection frame (32), and the output of No. two motor (35) and wherein the outer wall fixed connection of a set of gear (33), two sets of bracing piece (37) are installed to the inner wall of protection frame (32), sliding plate (36) are installed to the outer wall of chain (34), and the inside of sliding plate (36) is run through to the one end of bracing piece (37), scraper blade (38) are installed to the outer wall of sliding plate (36), square groove (39) are installed to the inner wall of workstation (1), and the one end of arranging material groove (31) extends to the inside of square groove (39), containing box (40) are installed to the inner wall of square groove (39).

7. The strength testing apparatus based on the optical fiber steel wire according to claim 6, wherein: the outer wall of the workbench (1) is provided with a container (41), and the top of the container (41) is provided with a plurality of groups of holes (42).

8. The strength testing apparatus based on the optical fiber steel wire according to claim 7, wherein: the inner wall of accomodating ware (41) is installed the multiunit and is accomodate frame (43), accomodate the inner wall bottom of frame (43) and install two sets of telescopic link (44) No. two, the top fixed mounting of telescopic link (44) has mounting bracket (45), two-way lead screw (46) are installed to the inner wall of mounting bracket (45), the outer wall of two-way lead screw (46) is encircleed and is installed limiting plate (48), motor (47) No. three are installed to the bottom of mounting bracket (45), and motor (47) No. three are connected through belt transmission with two-way lead screw (46), concave groove (49) are installed to the inner wall of mounting bracket (45), back shaft (50) are installed to the inner wall of concave groove (49), stopper (51) are installed to the bottom of limiting plate (48), and the inside of stopper (51) is run through to the one end of back shaft (50).

9. Use of a device for testing the strength of an optical fibre-based steel wire according to any one of claims 1 to 8, characterised in that it is operated as follows:

s1, when testing the strength of an optical fiber steel wire, firstly, moving one end of the optical fiber steel wire to be tested to the inside of a clamp holder (11), moving one end of the optical fiber steel wire to the upper side of an antiskid plate (55), enabling a first telescopic rod (18) to work to drive a short rod (19) to move, driving a positioning plate (20) to move when the short rod (19) moves, carrying out limit clamping on one end of the optical fiber steel wire at the top of the antiskid plate (55) after the positioning plate (20) moves, limiting the optical fiber steel wire after limiting the optical fiber steel wire, enabling the output end of a first motor (15) to rotate to drive a coiling plate (16) to rotate, coiling the optical fiber steel wire after the coiling plate (16) rotates, simultaneously rotating two groups of bolts (13) after coiling the optical fiber steel wire for a certain length, enabling the bolts (13) to move through a threaded sleeve (12), pushing a positioning block (14) to move when the bolts (13) move, carrying out limit clamping on the positioning of the positioning block (14) and the optical fiber steel wire to the outer wall of the optical fiber steel wire after the optical fiber steel wire reaches the limit clamping of the optical fiber steel wire to be tested, and the optical fiber steel wire to be clamped by the clamp holder (11), and the optical fiber steel wire to be rapidly tested, and the purpose of preventing the optical fiber steel wire from falling off when the optical fiber steel wire from being tested at the clamp, and rapidly tested, and the optical fiber steel wire from being tested, and the optical fiber steel wire falling off when the optical fiber steel wire to be tested can be tested, and the strength of the optical fiber steel wire from being tested rapidly tested, and the clamp holder can be tested, and the optical fiber steel wire to be tested rapidly tested, and the optical fiber steel wire falling off when the optical fiber steel wire to be tested can be tested at the optical fiber steel wire falling off, and the test;

s2, when the strength of the optical fiber steel wire is tested, the position of the optical fiber steel wire is fixed, the output end of a third motor (22) is rotated to drive a second threaded screw rod (23) to rotate, a threaded ring (27) is slid when the second threaded screw rod (23) rotates, the threaded ring (27) pushes a protection plate (25) to slide out of the storage groove (24) when being moved, two groups of protection plates (25) on the same side are moved to a preset position and then connected and contacted through two groups of sealing strips (29), the two groups of protection plates (25) can block the space for detecting the strength of the optical fiber steel wire, when the strength of the optical fiber steel wire is tested, the optical fiber steel wire which is accidentally broken can be prevented from splashing to damage the body of a tester, and the purpose of reducing accidents is achieved;

s3, when the intensity of the optical fiber steel wire is tested, fragments generated in the test can fall into the storage disc (30) to be stored, the fragments can be prevented from falling randomly, when the fragments stored in the storage disc (30) are cleared and collected, the output end of the second motor (35) is rotated to drive the gear (33) to rotate, the gear (33) is rotated to drive the chain (34) to move, the chain (34) is moved to drive the sliding plate (36) to slide on the outer wall of the supporting rod (37), the sliding plate (36) can drive the scraper (38) to horizontally slide, the bottom of the scraper (38) is attached to the bottom of the inner wall of the storage disc (30), when the scraper (38) moves, the fragments stored in the storage disc (30) can be scraped and pushed, when the scraper (38) moves to push the fragments into the interior of the discharge groove (31), the fragments can slide into the interior of the storage box (40) to be collected, the purpose of clearing and the fragments generated in the intensity test of the optical fiber steel wire can be prevented from scattering, and the fragments are not easy to be swept and the intensity is reduced;

s4, when the intensity of multiunit optic fibre steel wire is required to be tested, the one end of optic fibre steel wire after testing is passed through hole (42) and is removed to back between two sets of limiting plate (48), make the output of No. three motor (47) rotate and drive two-way lead screw (46) and rotate, make two sets of limiting plate (48) approach motion when two-way lead screw (46) rotate, after two sets of limiting plate (48) remove the outer wall to optic fibre steel wire, carry out spacing centre gripping to the one end of optic fibre steel wire, make No. two telescopic link (44) work drive mounting bracket (45) shift position, pass through the removal that limiting plate (48) drove optic fibre steel wire during mounting bracket (45) shift position, make the optic fibre steel wire remove and enter into the inside of accomodating frame (43), reach and accomodate the optic fibre steel wire after the intensity test, when carrying out the intensity test to multiunit optic fibre steel wire, can prevent the too much scattered condition that appears, be convenient for accomodate unified processing to optic fibre steel wire after the test.

10. The method for using the strength testing equipment based on the optical fiber steel wire according to the claim 9, wherein in the step S1, the method further comprises the following steps:

s11, after the position of an optical fiber steel wire to be detected is limited by two groups of clamps (11), the output end of a second motor (6) is rotated to drive a first threaded screw rod (7) to rotate, a sliding block (8) is moved when the first threaded screw rod (7) rotates, a bearing plate (9) is driven to move when the sliding block (8) moves, the bearing plate (9) drives one group of clamps (11) to move through a detection element (10) when moving, the optical fiber steel wire is pulled after the clamps (11) move, the pulling force applied to the optical fiber steel wire can be detected through the detection element (10), detected data parameters are displayed through a control box (5), and the strength of the optical fiber steel wire can be tested;

in step S2, the method further includes the steps of:

s21, when the protection plate (25) moves, the guide rod (28) slides in the groove body (26), and meanwhile the sliding block (54) horizontally moves on the outer wall of the guide rod (53), so that the protection plate (25) can be guided, and the protection plate (25) horizontally moves;

in step S4, the method further includes the steps of:

s41, when the limiting plate (48) moves, the limiting block (51) is driven to horizontally slide on the outer wall of the supporting shaft (50), and the supporting shaft (50) guides the limiting plate (48) through the limiting block (51) so that the limiting plate (48) horizontally slides.

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