CN112504841A

CN112504841A - Detection equipment for cable processing

Info

Publication number: CN112504841A
Application number: CN202011348014.4A
Authority: CN
Inventors: 陈启实
Original assignee: Hangzhou Aite Cable Co ltd
Current assignee: Hangzhou Aite Cable Co ltd
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2021-03-16

Abstract

The invention discloses detection equipment for cable processing, which comprises a base and a cable body, wherein the top end of the base is respectively provided with a workbench and a pay-off device. According to the invention, the flatness of the surface of the cable body and the tensile capacity of the cable body can be detected through the arranged first sleeve and the box body, when the cable roller is driven by the motor to rotate in a reciprocating manner, the first gear at the top end of the first fixed rod is driven to rotate in a reciprocating manner, the first gear drives the second gear to rotate in a reciprocating manner through the crawler belt, so that the third gear is driven to rotate in a reciprocating manner, at the moment, the third gear is meshed with the sector gear, the sector gear drives the cable body fixed in the limiting pipe to swing in a left-right reciprocating manner through the L-shaped plate, when the swinging cable body is in electrical contact with the detection light, the swinging frequency of the cable body can be obtained, the cable can be subjected to breaking test, and when the motor drives the cable roller to rotate in a reciprocating manner.

Description

Detection equipment for cable processing

Technical Field

The invention relates to the field of cable detection, in particular to a detection device for cable processing.

Background

Coaxial cable refers to a cable having two concentric conductors, the conductors and shield sharing the same axis. Most common coaxial cables consist of a copper conductor separated by an insulating material, outside of which is another layer of annular conductor and its insulation, and then the entire cable is surrounded by a sheath of polyvinyl chloride or teflon material.

The coaxial cable detection equipment in the prior art has the advantages of single function, incapability of being continuously used during use, low detection efficiency and poor practicability.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the detection equipment for cable processing, which has the advantages of multiple cable detection functions and solves the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a detection device for cable processing comprises a base and a cable body, wherein the top end of the base is respectively provided with a workbench and a pay-off device, the workbench body is respectively provided with a first sleeve, a box body and a second sleeve, the top end of the pay-off device is provided with a first fixing rod, the top end of the second sleeve is provided with a second fixing rod, the top end of the first fixing rod is provided with a first gear, the top end of the second fixing rod is provided with a second gear, the first gear and the second gear are connected through a crawler belt, the outer wall of the second fixing rod is nested with a third gear, the top end of the workbench is provided with an arc chute, the interior of the arc chute is slidably connected with a slide block, the top end of the slide block is fixedly connected with a limiting pipe, the top end of the limiting pipe is provided with an L-shaped plate, the other end of the L-shaped plate is welded with a fan-, the top of workstation is provided with the detection photoelectricity, No. two sheathed tube surface mounting have stop gear, the one end of cable body loops through sleeve pipe, box, No. two sleeve pipes and spacing pipe.

Preferably, the inside of pay-off is including setting up the motor on the base top, and the output of motor is provided with the base, the cable roller has been placed through the recess in the top of base, the outer wall at the cable roller is wrapped to the cable body, the top of dead lever and cable roller is fixed mutually.

Preferably, a sleeve pipe body has transversely been seted up a logical groove, and the surface in a logical groove has seted up a plurality of movable grooves, the inside in movable groove is provided with the spring, and the other end of spring is provided with the movable block, the surface of movable block is provided with the pulley, all be provided with laser sensor between two liang of movable grooves.

Preferably, the movable block is movably connected with the movable groove, and the cable body is movably connected with the first through groove.

Preferably, both ends all are provided with the telescopic link about the inside of box, and the other end of telescopic link is provided with the guide pulley, the left and right sides of box all is provided with logical groove No. two, and the inside bottom that leads to the groove No. two is provided with the layer board, No. two threaded groove has been seted up on the top that leads to the groove, and the inside threaded connection of a threaded groove has a threaded rod, the bottom of a threaded rod is provided with the clamp plate.

Preferably, the outer wall of the guide wheel and the cable body form a sliding connection, the second through groove is movably connected with the cable body, and the cable body is connected with the top end of the supporting plate in an attaching mode.

Preferably, stop gear's inside is including transversely seting up No. three logical grooves on No. two sleeve pipe surfaces, and No. two thread grooves have all been seted up to No. three inside left and right sides that lead to the groove, the inside threaded connection of No. two thread grooves has No. two threaded rods, and the one end of No. two threaded rods is provided with the limiting plate.

Preferably, No. three logical grooves and cable body constitute swing joint, the quantity of detecting photoelectricity has two, and two detect photoelectricity and the left and right sides of L template have certain distance.

Preferably, the diameter of the first gear is larger than that of the second gear, the diameter of the second gear is the same as that of the third gear, and the second gear is located above the third gear.

A detection method of detection equipment for cable processing comprises the following steps:

s1, firstly, the cable roller is placed on the base, the cable body penetrates through the first sleeve, and the surface smoothness and the flatness of the cable body can be detected by using the laser sensor.

S2, then the inside that the cable body passed through from the left No. two logical groove of box and got into the box for the cable body cladding is on the surface of guide pulley, through rotating a threaded rod No. one, makes the clamp plate compress tightly spacingly to the cable body, adjusts the height of guide pulley through the telescopic link, detects the tensile ability to the cable body from coming.

S3, when the cable body needs to be subjected to the breaking test, the cable body is moved into the second sleeve from the interior of the box body through the second through groove on the right side, one end of the cable body is placed in the limiting pipe, then the cable body in the second sleeve is clamped and limited by a limiting mechanism, when the motor drives the cable roller to rotate in a reciprocating way, the first gear at the top end of the first fixed rod is driven to rotate in a reciprocating manner, the first gear drives the second gear to rotate in a reciprocating manner through the crawler belt, so that the third gear rotates in a reciprocating way, at the same time, the third gear is meshed with the sector gear, the sector gear drives the cable body fixed in the limiting pipe to swing in a reciprocating way from left to right through the L-shaped plate, when the swinging cable body is in electrical contact with the detection light, the number of times of swinging of the cable body can be known, and when the cable body is broken, the breaking test of the cable body is completed.

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

1. according to the invention, the flatness of the surface of the cable body and the tensile capacity of the cable body can be detected through the arranged first sleeve and the box body, when the cable roller is driven by the motor to rotate in a reciprocating manner, the first gear at the top end of the first fixed rod is driven to rotate in a reciprocating manner, the first gear drives the second gear to rotate in a reciprocating manner through the crawler belt, so that the third gear is driven to rotate in a reciprocating manner, at the moment, the third gear is meshed with the sector gear, the sector gear drives the cable body fixed in the limiting pipe to swing in a left-right reciprocating manner through the L-shaped plate, when the swinging cable body is in electrical contact with the detection light, the swinging frequency of the cable body can be obtained, the cable can be subjected to breaking test, and when the motor drives the cable roller to rotate in a reciprocating manner.

2. According to the cable body stretching detection device, the movable grooves, the springs, the movable blocks and the pulleys are arranged, so that cable bodies with different diameters can be placed in the sleeve for flatness detection, the distance between the pressing plate and the supporting plate can be adjusted by rotating the threaded rod, the cable bodies can be compressed and limited, the cable bodies can be conveniently stretched, and the stability of the limiting pipe during moving can be improved by the aid of the arc-shaped sliding grooves and the sliding blocks.

3. In the invention, the test of the flatness, the stretching capability and the breaking capability of the cable is realized by one device, the test efficiency is improved, and the practicability is stronger.

Drawings

FIG. 1 is a schematic view of the overall structure of a detection apparatus for cable processing according to the present invention;

FIG. 2 is a schematic top view of the arc chute of the present invention;

FIG. 3 is a schematic view of a first sleeve of the present invention;

FIG. 4 is a schematic view of a second embodiment of the present invention;

FIG. 5 is a schematic top view of the first gear and the second gear of the present invention;

FIG. 6 is a schematic view of a part of the structure of the work table of the present invention.

In the figure: 1. a base; 2. a work table; 201. an arc-shaped chute; 202. a slider; 203. a limiting pipe; 204. an L-shaped plate; 205. a sector gear; 206. detecting photoelectricity; 3. a pay-off device; 301. a first fixing rod; 302. a first gear; 303. a motor; 304. a base; 305. a cable roll; 4. a first sleeve; 401. a first-order through groove; 402. a movable groove; 403. a spring; 404. a movable block; 405. a pulley; 406. a laser sensor; 5. a box body; 501. a telescopic rod; 502. a guide wheel; 503. a second through groove; 504. a support plate; 505. a first thread groove; 506. a first threaded rod; 507. pressing a plate; 6. a second sleeve; 601. a second fixing rod; 602. a second gear; 603. a third gear; 7. a limiting mechanism; 701. a third through groove; 702. a second thread groove; 703. a second threaded rod; 704. a limiting plate; 8. a cable body.

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.

The first embodiment is as follows:

referring to fig. 1-6, a detection device for cable processing comprises a base 1, including a base 1 and a cable body 8, wherein the top end of the base 1 is respectively provided with a workbench 2 and a pay-off device 3, the body of the workbench 2 is respectively provided with a first sleeve 4, a box body 5 and a second sleeve 6, the top end of the pay-off device 3 is provided with a first fixing rod 301, the top end of the second sleeve 6 is provided with a second fixing rod 601, the top end of the first fixing rod 301 is provided with a first gear 302, the top end of the second fixing rod 601 is provided with a second gear 602, the first gear 302 is connected with the second gear 602 through a crawler belt, the outer wall of the second fixing rod 601 is nested with a third gear 603, the top end of the workbench 2 is provided with an arc chute 201, the interior of the arc chute 201 is slidably connected with a slide block 202, the top end of the slide block 202 is fixedly connected with a limit pipe 203, and, the other end welding of L template 204 has sector gear 205, and sector gear 205 is connected for the meshing with No. three gear 603, and the top of workstation 2 is provided with detection photoelectricity 206, and No. two sleeve pipe 6's surface mounting has stop gear 7, and the one end of cable body 8 loops through sleeve pipe 4, box 5, No. two sleeve pipe 6 and spacing pipe 203.

Preferably, pay-off 3's inside is including setting up the motor 303 on base 1 top, and motor 303's output is provided with base 304, cable roller 305 has been placed through the recess in base 304's top, the outer wall at cable roller 305 is wrapped to cable body 8, a dead lever 301 is fixed mutually with cable roller 305's top, during the detection, can place the cable roller 305 that has cable body 8 with the cladding on base 304, usable motor 303 drives cable roller 305 and rotates, be convenient for cable body 8's removal.

Preferably, sleeve pipe 4 body has transversely seted up one number and has led to groove 401, and a plurality of movable grooves 402 have been seted up on one number and led to the surface of groove 401, and the inside in movable groove 402 is provided with spring 403, and the other end of spring 403 is provided with movable block 404, and the surface of movable block 404 is provided with pulley 405, all is provided with laser sensor 406 between two liang of movable grooves 402, and laser sensor 406 can be to the surperficial distance detection that carries on of cable body 8 to can detect the roughness on cable body 8 surface.

Preferably, the movable block 404 is movably connected with the movable groove 402, the cable body 8 is movably connected with the first through groove 401, the movable block 404 can elastically stretch and retract in the movable groove 402 through the arranged spring 403, and the cable body 8 with different diameters can be placed in the first through groove 401 through the pulley 405.

Preferably, both ends all are provided with telescopic link 501 about the inside of box 5, and telescopic link 501's the other end is provided with guide pulley 502, the left and right sides of box 5 all is provided with No. two logical grooves 503, and No. two the inside bottom that leads to groove 503 is provided with layer board 504, No. two the top that leads to groove 503 has seted up a thread groove 505, and the inside threaded connection of a thread groove 505 has threaded rod 506, the bottom of a threaded rod 506 is provided with clamp plate 507, through the telescopic link 501 that sets up, the height of guide pulley 502 can be adjusted, can satisfy that cable body 8 carries out the tensile detection of different degrees.

Preferably, the outer wall of guide wheel 502 and cable body 8 constitute sliding connection, No. two through grooves 503 and cable body 8 be swing joint, and cable body 8 is connected with the top laminating of layer board 504, through rotating threaded rod 506 No. one, can compress tightly spacing to cable body 8 when adjusting the distance between clamp plate 507 and layer board 504.

Preferably, stop gear 7's inside is including transversely seting up No. three logical grooves 701 on No. two sleeve pipes 6 surfaces, and No. two thread grooves 702 have all been seted up to No. three logical groove 701's the inside left and right sides, the inside threaded connection of No. two thread grooves 702 has No. two threaded rods 703, and the one end of No. two threaded rods 703 is provided with limiting plate 704, through rotating No. two threaded rods 703, make No. two threaded rods 703 drive limiting plate 704 and remove, thereby make limiting plate 704 press from both sides tight spacing in 8 surfaces of cable body, make No. three lead to groove 701 can place the cable body 8 of different diameters size, of course, stop gear 7 is installed equally to spacing pipe 203.

Preferably, the third through groove 701 is movably connected with the cable body 8, the number of the detection photoelectricity 206 is two, and a certain distance is formed between the two detection photoelectricity 206 and the left side and the right side of the L-shaped plate 204, when the swinging cable body 8 is in contact with the detection photoelectricity 206, the swinging frequency of the cable body 8 can be known, and when the cable body 8 is broken, the breaking test of the cable body 8 is completed.

Preferably, the diameter of the first gear 302 is greater than that of the second gear 602, and the diameter of the second gear 602 is the same as that of the third gear 603, the second gear 602 is located above the third gear 603, when the motor 303 drives the cable roller 305 to perform reciprocating rotation, the first gear 302 at the top end of the first fixing rod 301 is driven to perform reciprocating rotation, the first gear 302 drives the second gear 602 to perform reciprocating rotation through the crawler, so that the third gear 603 performs reciprocating rotation, at this time, the third gear 603 is meshed with the sector gear 205, and the sector gear 205 drives the cable body 8 fixed in the limiting pipe 203 to perform reciprocating swing left and right through the L-shaped plate 204.

Example two:

referring to fig. 1 to 6, a method for detecting a detecting device for cable processing according to a first embodiment includes the following steps:

s1, the cable roller 305 is first placed on the base 304, the cable body 8 is passed through the first sleeve 4, and the surface smoothness and flatness of the cable body 8 are detected by the laser sensor 406.

S2, enabling the cable body 8 to penetrate through the second through groove 503 on the left side of the box body 5 to enter the box body 5, enabling the cable body 8 to be wrapped on the surface of the guide wheel 502, enabling the pressing plate 507 to compress the cable body 8 for limiting through rotating the first threaded rod 506, adjusting the height of the guide wheel 502 through the telescopic rod 501, and detecting the stretching capacity of the cable body 8.

S3, when the cable body 8 needs to be broken, the cable body 8 is moved from the inside of the box 5 to the second sleeve 6 through the second through groove 503 on the right side, one end of the cable body 8 is placed in the limiting tube 203, then the cable body 8 in the second sleeve 6 is clamped and limited through the limiting mechanism 7, when the motor 303 drives the cable roller 305 to rotate in a reciprocating manner, the first gear 302 at the top end of the first fixing rod 301 is driven to rotate in a reciprocating manner, the first gear 302 drives the second gear 602 to rotate in a reciprocating manner through the crawler belt, so that the third gear 603 rotates in a reciprocating manner, at the moment, the third gear 603 is meshed with the sector gear 205, the sector gear 205 drives the cable body 8 fixed in the limiting tube 203 to swing in a reciprocating manner from side to side through the L-shaped plate 204, when the swinging cable body 8 is contacted with the detection photoelectric sensor 206, the swinging frequency of the cable body 8 can be known, when the cable body 8 is broken, the breaking test of the cable body 8 is completed.

The working principle is as follows: firstly, a cable roller 305 is placed on a base 304, a cable body 8 penetrates through a first sleeve 4, a laser sensor 406 can detect the distance of the surface of the cable body 8, so that the flatness of the surface of the cable body 8 can be detected, then the cable body 8 penetrates through a second through groove 503 on the left side of a box body 5 to enter the box body 5, so that the cable body 8 is covered on the surface of a guide wheel 502, a first threaded rod 506 is rotated to enable a pressing plate 507 to compress and limit the cable body 8, the height of the guide wheel 502 is adjusted through a telescopic rod 501, so that the tensile capacity of the cable body 8 is detected, when the cable body 8 needs to be subjected to fracture test, the cable body 8 is moved into a second sleeve 6 from the inside of the box body 5 through the second through groove 503 on the right side, one end of the cable body 8 is placed in a limiting pipe 203, and then passes through a limiting mechanism 7, it is spacing to press from both sides cable body 8 that will be located No. two sleeve pipes 6, when driving cable roller 305 through motor 303 and carry out reciprocating rotation, drive a gear 302 reciprocating rotation on dead lever 301 top, a gear 302 drives No. two gear 602 reciprocating rotation through the track, thereby make No. three gear 603 through reciprocating rotation, No. three gear 603 and sector gear 205 meshing this moment, make sector gear 205 drive the cable body 8 of spacing pipe 203 internal fixation through L template 204 and carry out left and right sides reciprocating swing, when wobbling cable body 8 contacts with detection photoelectricity 206, can know cable body 8 wobbling number of times, when cable body 8 is broken, accomplish cable body 8 breakage test promptly.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a check out test set is used in cable processing, includes base (1) and cable body (8), its characterized in that: the top end of the base (1) is respectively provided with a workbench (2) and a pay-off device (3), the body of the workbench (2) is respectively provided with a first sleeve (4), a box body (5) and a second sleeve (6), the top end of the pay-off device (3) is provided with a first fixed rod (301), the top end of the second sleeve (6) is provided with a second fixed rod (601), the top end of the first fixed rod (301) is provided with a first gear (302), the top end of the second fixed rod (601) is provided with a second gear (602), the first gear (302) is connected with the second gear (602) through a crawler belt, the outer wall of the second fixed rod (601) is nested with a third gear (603), the top end of the workbench (2) is provided with an arc-shaped chute (201), the interior of the arc-shaped chute (201) is slidably connected with a sliding block (202), and the top end of the sliding block (202) is fixedly connected with a, and the top of spacing pipe (203) is provided with L template (204), the other end welding of L template (204) has sector gear (205), and sector gear (205) and No. three gear (603) are connected for the meshing, the top of workstation (2) is provided with detection photoelectricity (206), the surface mounting of No. two sleeve pipes (6) has stop gear (7), the one end of cable body (8) loops through sleeve pipe (4), box (5), No. two sleeve pipes (6) and spacing pipe (203).

2. The inspection apparatus for cable processing according to claim 1, wherein: the inside of pay-off (3) is including setting up motor (303) on base (1) top, and the output of motor (303) is provided with base (304), cable roller (305) have been placed through the recess in the top of base (304), the outer wall at cable roller (305) is wrapped in cable body (8), No. one dead lever (301) is fixed mutually with the top of cable roller (305).

3. The inspection apparatus for cable processing according to claim 1, wherein: a sleeve pipe (4) body transversely has seted up one number and has led to groove (401), and a plurality of movable groove (402) have been seted up on the surface that leads to groove (401) one number, the inside in movable groove (402) is provided with spring (403), and the other end of spring (403) is provided with movable block (404), the surface of movable block (404) is provided with pulley (405), all be provided with laser sensor (406) between two liang of movable groove (402).

4. The detecting device for cable processing according to claim 3, wherein: the movable block (404) is movably connected with the movable groove (402), and the cable body (8) is movably connected with the first through groove (401).

5. The inspection apparatus for cable processing according to claim 1, wherein: both ends all are provided with telescopic link (501) about the inside of box (5), and the other end of telescopic link (501) is provided with guide pulley (502), the left and right sides of box (5) all is provided with No. two logical groove (503), and the inside bottom that leads to groove (503) No. two is provided with layer board (504), No. two thread groove (505) have been seted up on the top that leads to groove (503), and the internal thread of a thread groove (505) is connected with threaded rod (506), the bottom of a threaded rod (506) is provided with clamp plate (507).

6. The detecting device for cable processing according to claim 5, wherein: the outer wall of the guide wheel (502) is in sliding connection with the cable body (8), the second through groove (503) is movably connected with the cable body (8), and the cable body (8) is connected with the top end of the supporting plate (504) in an attaching mode.

7. The inspection apparatus for cable processing according to claim 1, wherein: the inside of stop gear (7) is including transversely seting up No. three logical groove (701) on No. two sleeve pipes (6) surfaces, and No. three the inside left and right sides that lead to groove (701) has all seted up No. two thread grooves (702), the inside threaded connection of No. two thread grooves (702) has No. two threaded rod (703), and the one end of No. two threaded rod (703) is provided with limiting plate (704).

8. The detecting device for cable processing according to claim 7, wherein: no. three logical groove (701) and cable body (8) constitute swing joint, the quantity that detects photoelectricity (206) has two, and two detection photoelectricity (206) and the left and right sides of L template (204) have certain distance.

9. The inspection apparatus for cable processing according to claim 1, wherein: the diameter of the first gear (302) is larger than that of the second gear (602), the diameter of the second gear (602) is the same as that of the third gear (603), and the second gear (602) is located above the third gear (603).