CN218860050U - High frequency flexible cable's equipment of falling axle - Google Patents

Abstract

The application relates to a high-frequency flexible cable's equipment of falling axle relates to flexible cable production technical field. Including unwinding mechanism, winding mechanism, detection mechanism, unwinding mechanism detection mechanism with winding mechanism sets gradually, detection mechanism includes that the line footpath detects platform and line footpath detector, the line footpath detect the platform with line footpath detector electric connection. The cable stretches out from unwinding mechanism, is rolled up by winding mechanism at last through detection mechanism, and at this in-process, the external diameter of the cable that passes through can be carried out real-time detection to the line footpath detector among the detection mechanism, surpasss the regulation size that sets up, and optional warning or shut down have alleviated the problem that the cable of production does not reach the dimensional requirement and cause the reduction of cable production quality.

Description

High frequency flexible cable's equipment of falling axle

Technical Field

The utility model belongs to the technical field of the flexible cable production technique and specifically relates to a high frequency flexible cable's equipment of falling axle is related to.

Background

Flexible cables are the first choice cables for power transmission materials, carriers, in motion systems, also known as: trailing cables, travelling cables, robot cables, etc.

In the production process of the existing high-frequency flexible cable, the performance of the produced cable is not in accordance with the requirements, the final cable may not meet the size requirements, and the production quality of the cable is reduced.

In view of the above-mentioned related art, there is a problem that the produced cable does not meet the size requirement, resulting in a reduction in the cable production quality.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the production quality of a produced cable is reduced due to the fact that the produced cable does not reach the size requirement, the application provides the rewinding device for the high-frequency flexible cable.

The application provides a high frequency flexible cable's countershaft equipment adopts following technical scheme: the utility model provides a high frequency flexible cable's equipment of falling axle, includes unwinding mechanism, winding mechanism, detection mechanism, unwinding mechanism detection mechanism with winding mechanism sets gradually, detection mechanism includes that the line footpath detects platform and line footpath detector, the line footpath detect the platform with line footpath detector electric connection.

Through adopting above-mentioned technical scheme, the cable stretches out from unwinding mechanism, is rolled up by winding mechanism at last through detection mechanism, and at this in-process, the external diameter of the cable that passes through can be carried out real-time detection to the line footpath detector among the detection mechanism, surpasss the regulation size that sets up, and the optional is reported to the police or is shut down, has alleviated the problem that the cable of production does not reach the dimensional requirement and causes the reduction of cable production quality.

Optionally, the detection mechanism further includes a guide roller for guiding, and the guide roller is disposed at a position where the cable enters the line diameter detection table and a position where the cable extends out of the line diameter detection table.

Through adopting above-mentioned technical scheme, detection mechanism still includes the guide roller, and the guide roller setting is gone into the line footpath at the cable and is detected the platform and the cable stretches out the position that the line footpath detected the platform, and the guide roller can play the effect of direction to the cable like this, prevents effectively that the cable from not having the direction limiting displacement who guides the roller and making the cable can not be fine from the line footpath and detect the platform and detect through.

Optionally, the winding mechanism includes a winding frame and a winding drum, the winding drum is matched with the winding frame, and the winding frame drives the winding drum to rotate.

Through adopting above-mentioned technical scheme, a winding drum and the cooperation of rolling frame, the rolling frame drive winding drum rotates, can make the cable from unwinding mechanism pulled out and pass through detection mechanism smoothly and finally by the winding drum rolling, realizes the smooth work of backwinding equipment.

Optionally, the winding frame includes winding plates, a first lifting support plate, a first roller push rod and a first roller fixing rod, the first lifting support plate is located between the winding plates, the first lifting support plate is in sliding fit with the winding plates, the first lifting support plate moves close to or away from the ground, the first roller push rod and the first roller fixing rod are respectively arranged on the winding plates on two sides of the first lifting support plate, the first roller push rod and the first roller fixing rod are arranged oppositely, and the first roller push rod moves close to or away from the first roller fixing rod.

Through adopting above-mentioned technical scheme, place the winding cylinder on first lifting support plate, start first lifting support plate, first lifting support plate is done the motion of keeping away from ground until the winding cylinder is located between first cylinder ejector pin and the first cylinder dead lever, later first cylinder ejector pin is done towards the motion of first cylinder dead lever direction until with the winding cylinder clamp between rolling ejector pin and first cylinder dead lever, later first lifting support plate is done the motion that is close to ground, the winding cylinder of being convenient for rotates the rolling cable along with first cylinder ejector pin and first cylinder dead lever.

Because the cable that the coiling section of thick bamboo was rolled up makes weight heavier, for reducing manual operation intensity and avoiding the material damage, when the coiling section of thick bamboo that will roll up was taken out from the mount, only need to make the motion of keeping away from ground of first lifting support plate doing again with the coiling section of thick bamboo bearing, later first cylinder ejector pin is the motion of keeping away from first cylinder dead lever direction and makes the coiling section of thick bamboo break away from between first cylinder ejector pin and the first cylinder dead lever, later first lifting support plate does the motion that is close to ground and collects the coiling section of thick bamboo.

Optionally, first lifting support plate includes first portion and the first portion of holding of sliding for hold the winding drum first portion of holding with first portion of sliding is connected, first portion of sliding and both sides the cooperation of sliding of winding board, first portion of holding upper surface both sides are provided with and are used for carrying out spacing first spacing sand grip to the winding drum.

Through adopting above-mentioned technical scheme, first bearing portion upper surface both sides are provided with first spacing sand grip, and when the first bearing portion that the winding barrel placed was last, the first spacing sand grip of first bearing portion upper surface both sides can carry on spacingly effectively to prevent to take up the reel and make a round trip to roll the installation of influence to the winding barrel on first bearing portion to the winding barrel.

Optionally, the detection mechanism still includes the glide, the glide with winding mechanism cooperation, the line footpath detects the platform setting and is in the glide, the glide is used for following the winding shaft body direction slides.

Through adopting above-mentioned technical scheme, because the cable finally needs the rolling to the coiling section of thick bamboo on, consequently in order to make more cables of coiling section of thick bamboo rolling, the cable needs evenly the rolling on the stack shell of coiling section of thick bamboo, and the sliding member can slide along the coiling section of thick bamboo stack shell direction, and when the coiling section of thick bamboo is carrying out the rolling to the cable, the sliding member slides, can make each department of the stack shell of coiling section of thick bamboo all obtain utilizing, makes the coiling section of thick bamboo can the rolling with many cables.

Optionally, the sliding part includes slip table, fixing support, lead screw and slide rail, the lead screw with the slide rail all sets up between the fixing support, fixing support sets up every respectively on the board is rolled up, the line footpath detects the platform setting and is in on the slip table, the slip table all with the lead screw with slide rail sliding fit.

Through adopting above-mentioned technical scheme, the slip table can remove on the lead screw, makes the slip table can slide along a winding drum stack body direction, and when the winding drum was rolling the cable, the slip table slided on lead screw and slide rail, can make every department of the stack body of winding drum receive the cable by the rolling, makes the winding drum can the rolling follow many cables.

Optionally, a dustproof pad for dust prevention is laid above the screw rod between the fixed supports.

Through adopting above-mentioned technical scheme, lay dustproof the pad and can effectively play dirt-proof effect above the lead screw, prevent effectively that external dust or tiny particle from falling into the lead screw and influencing the slip of slip table on the lead screw.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cable stretches out from unwinding mechanism, is rolled up by winding mechanism at last through detection mechanism, and at this in-process, the external diameter of the cable that passes through can be carried out real-time detection to the line footpath detector among the detection mechanism, surpasss the regulation size that sets up, and optional warning or shut down have alleviated the problem that the cable of production does not reach the dimensional requirement and cause the reduction of cable production quality.

2. In the process of winding the cable, the screw drives the sliding table to move, so that the cable can be uniformly wound at each position of the winding drum body, and the winding drum can wind a plurality of cables.

3. The winding drum is placed on the first lifting supporting plate, the first lifting supporting plate is started, the first lifting supporting plate is moved away from the ground until the winding drum is located between the first drum ejector rod and the first drum fixing rod, then the first drum ejector rod is moved towards the direction of the first drum fixing rod until the winding drum is placed between the rolling ejector rod and the first drum fixing rod, then the first lifting supporting plate is moved close to the ground, and the winding drum is convenient to rotate to wind cables along with the first drum ejector rod and the first drum fixing rod.

Drawings

Fig. 1 is a schematic structural diagram of an overall structure of an inverted axis device of a high-frequency flexible cable according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an unwinding mechanism of an rewinding device for a high-frequency flexible cable in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a detection mechanism of an inverted shaft device of a high-frequency flexible cable in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a winding mechanism of an rewinding device for high-frequency flexible cables in an embodiment of the present application.

Description of the reference numerals:

1. an unwinding mechanism; 11. unwinding the frame; 111. placing the rolled plate; 1111. a second sliding groove; 1112. a second roller top rod; 1113. a second drum fixing rod; 112. a second lifting support plate; 1121. a second sliding section; 1121a, second sliding block; 1122. a second bearing part; 1122a and a second limit convex strip; 12. placing a winding drum; 13. a connecting beam; 131. a wire guide roller; 14. a magnetic powder clutch; 2. a detection mechanism; 21. a wire diameter detection table; 211. a detection port; 22. a wire diameter detector; 23. a guide roller; 231. a first guide roller; 232. a second guide roller; 233. a third guide roller; 24. a sliding member; 25. a guide rod; 241. a sliding table; 242. fixing a support; 243. a lead screw; 244. a slide rail; 245. a dust-proof pad; 3. a winding mechanism; 31. a winding frame; 311. rolling up the plate; 3111. a first sliding groove; 312. a first lifting support plate; 3121. a first sliding section; 3121a, a first sliding block; 3122. a first bearing part; 3122a, a first limit rib; 313. a first roller top rod; 3131. a drive motor; 314. a first roller fixing rod; 32. and (7) winding the roll.

Detailed Description

The present application is described in further detail below with reference to the attached drawing figures.

The embodiment of the application discloses an axle reversing device of a high-frequency flexible cable.

Referring to fig. 1 and 3, the rewinding device for the high-frequency flexible cable comprises an unwinding mechanism 1, a winding mechanism 3 and a detection mechanism 2, wherein the unwinding mechanism 1, the detection mechanism 2 and the winding mechanism 3 are sequentially arranged, the detection mechanism 2 comprises a line diameter detection table 21 and a line diameter detector 22, the line diameter detection table 21 is integrally rectangular, a detection port 211 for detecting the cable is formed in the line diameter detection table, and the line diameter detection table 21 is electrically connected with the line diameter detector 22.

The cable stretches out from unwinding mechanism 1, is rolled up by winding mechanism 3 at last through detection mechanism 2, and at this in-process, the external diameter of the cable that passes through can be carried out real-time detection to wire diameter detector 22 among the detection mechanism 2, surpasss the regulation size that sets up, and the optional warning or shut down have alleviated the problem that the cable of production does not reach the dimensional requirement and cause the reduction of cable production quality.

Specifically, referring to fig. 1 and fig. 2, the unwinding mechanism 1 includes an unwinding frame 11 and an unwinding cylinder 12, the unwinding cylinder 12 is disposed on the unwinding frame 11, and the unwinding cylinder 12 is rotatably connected to the unwinding frame 11. The unreeling rack 11 includes a unreeling plate 111, a second elevating blade 112, and a wire guide roller 131. The unreeling plate 111 is integrally platy, the unreeling plate 111 is provided with two, the second lifting supporting plate 112 is located between the two unreeling plates 111, the second lifting supporting plate 112 is matched with the unreeling plates 111 on two sides in a sliding mode, and the second lifting supporting plate 112 can slide up and down between the unreeling plates 111. The second lifting supporting plate 112 is L-shaped as a whole, the second lifting supporting plate 112 includes a second sliding portion 1121 and a second supporting portion 1122, the second sliding portion 1121 and the second supporting portion 1122 are fixedly connected, the second sliding portion 1121 and the second supporting portion 1122 are vertically arranged, and the second sliding portion 1121 is in sliding fit with the unreeling plates 111 on both sides respectively. The two sides of the plate surface of the second sliding portion 1121, which are close to the unreeling plate 111, are provided with second sliding blocks 1121a for sliding fit with the unreeling plates 111 on the two sides, and the unreeling plates 111 on the two sides are provided with second sliding grooves 1111 for sliding fit with the sliding blocks. The upper surface of the second supporting portion 1122 is fixed with two second limiting protruding strips 1122a for limiting the unwinding cylinder 12, the two second limiting protruding strips 1122a are parallel to the unwinding plates 111 on both sides, and the distance between the two second limiting protruding strips 1122a is slightly longer than the length of the unwinding cylinder 12. A connecting beam 13 is fixedly connected between the top surfaces of the two uncoiling plates 111, and the guide roller 131 is fixed on the connecting beam 13.

The two sides of the plate placing and rolling plate 111 are respectively and rotatably connected with a second roller mandril 1112 and a second roller fixing rod 1113, the second roller mandril 1112 and the second roller fixing mandril are oppositely arranged, and the second roller mandril 1112 can move in the direction close to or far away from the second roller fixing mandril. The second roller top rod 1112 is electrically connected with the magnetic powder clutch 14, and the magnetic separation clutch can perform constant-pressure control on the second roller top rod 1112, so that the stable stress of the cable in production is ensured.

Referring to fig. 1 and 4, the winding mechanism 3 includes a winding frame 31 and a winding drum 32, the winding drum 32 is disposed on the winding frame 31, and the winding drum 32 is rotatably connected to the winding frame 31. The winding frame 31 includes a winding plate 311 and a first lifting blade 312. The rolling plates 311 are integrally plate-shaped, two rolling plates 311 are arranged, the first lifting support plate 312 is positioned between the two rolling plates 311, the first lifting support plate 312 is in sliding fit with the rolling plates 311 on two sides, and the first lifting support plate 312 can slide up and down between the rolling plates 311. The first lifting support plate 312 is L-shaped as a whole, the first lifting support plate 312 includes a first sliding portion 3121 and a first support portion 3122, the first sliding portion 3121 and the first support portion 3122 are fixedly connected, the first sliding portion 3121 and the first support portion 3122 are vertically arranged, and the first sliding portion 3121 is in sliding fit with the winding plates 311 on both sides. The two sides of the plate surface of the first sliding portion 3121 close to the rolling plate 311 are provided with first sliding blocks 3121a for sliding fit with the rolling plates 311 on the two sides, and the unreeling plates 111 on the two sides are provided with first sliding grooves 3111 for sliding fit with the sliding blocks. Two first limiting convex strips 3122a for limiting the unwinding cylinder 12 are fixed on the upper surface of the first supporting portion 3122, the two first limiting convex strips 3122a are parallel to the winding plates 311 on both sides, and the distance between the two first limiting convex strips 3122a is slightly longer than the length of the winding cylinder 32.

Referring to fig. 4, the winding plates 311 on both sides are respectively and rotatably connected with a first roller pushing rod 313 and a first roller fixing rod 314, the first roller pushing rod 313 and the first roller fixing rod 314 are arranged oppositely, and the first roller pushing rod 313 can move towards or away from the first roller fixing rod 314. A driving motor 3131 is installed at one end of the first roller post bar 313, and the driving motor 3131 may drive the first roller fixing lever 314 to rotate.

Referring to fig. 3 and 4, the detecting mechanism 2 further includes a guide roller 23 and a sliding member 24, and the guide roller 23 and the wire are disposed on the sliding member 24 via a detecting table. The sliding member 24 includes a sliding table 241, a fixed support 242, a lead screw 243, a sliding rail 244, and a dust-proof pad 245. The fixed support 242 is integrally plate-shaped, the number of the fixed supports 242 is two, the two fixed supports 242 are respectively and fixedly arranged at the top of each coiling plate 311, the number of the sliding rails 244 is two, the number of the lead screws 243 is one, the lead screws 243 and the sliding rails 244 are both arranged between the two fixed supports 242, the two sliding rails 244 are located on two sides of the lead screws 243, the lead screws 243 are rotatably connected with the fixed supports 242, and the sliding rails 244 are fixedly connected with the fixed supports 242. The sliding table 241 is in threaded connection with a lead screw 243. The guide roller 23 and the wire are all fixed on the sliding table 241 through the detection table, the number of the guide rollers 23 is three, and the guide roller 23 includes a first guide roller 231, a second guide roller 232 and a third guide roller 233. First guide roller 231 sets up the one side of going into the line through examining the test table on line, first guide roller 231 top and line are flushed through examining test table detection mouth 211, second guide roller 232 and third guide roller 233 set up the one side of being qualified for the next round of competitions through examining the test table on line, second guide roller 232 is close to the line and examines the test table through examining, the cable can be guided by second guide roller 232 bottom and get into third guide roller 233 after stretching out from detection mouth 211, finally the cable is rolled up by winding drum 32 under the guide of third guide roller 233.

One side of the first guide roller 231 close to the wire diameter detector 22 is further provided with a guide rod 25 for guiding a cable and guiding the cable, the guide rod 25 is provided with two rods, the guide rod 25 is fixed with the sliding table 241, the sliding table 241 is fixedly arranged even by the two guide rods 25, the two guide rods 25 are parallel to each other, and the cable can pass through a gap between the two guide rods 25 and be received by the first guide roller 231.

Referring to fig. 3, the dust-proof pad 245 is provided in two, and the dust-proof pad is a long rectangular shape as a whole. The dust-proof pads 245 are all laid above the lead screw 243 to enable the lead screw 243 to play a dust-proof role on the lead screw 243. The sliding table 241 is located between the two dustproof cushions 245, the dustproof cushions 245 are integrally made of elastic and bendable plastic materials, when the sliding table 241 moves, the sliding table 241 extrudes the dustproof cushions 245, the dustproof cushions 245 can be bent, the movement of the sliding table 241 cannot be influenced, and the normal work of equipment is influenced.

The implementation principle of the shaft inverting equipment of the high-frequency flexible cable in the embodiment of the application is as follows: the unwinding drum 12 wound with the cable is placed between the second limiting convex strips 1122a of the second supporting plate, the second lifting plate is started, the second lifting plate carries the unwinding drum 12 to move upwards until the unwinding drum 12 is placed between the second roller top rod 1112 and the second rolling fixing rod, the second roller top rod 1112 is started, and the second roller top rod 1112 extends forwards to finally clamp the unwinding drum 12 between the second roller top rod 1112 and the second rolling fixing rod.

The winding drum 32 needing to wind the cable is placed between the first limiting protruding strips 3122a of the first supporting plate, the first lifting plate is started, the first lifting plate carries the winding drum 32 to move upwards until the winding drum 32 is located between the first roller top rod 313 and the first rolling fixing rod, the first roller top rod 313 is started, the first roller top rod 313 extends forwards, and finally the winding drum 12 is clamped between the first roller top rod 313 and the first rolling fixing rod.

Then, the driving motor 3131 is started, the driving motor 3131 drives the winding drum 32 to rotate to wind the cable, the cable is measured through the detection port 211 of the detection table during the winding process, data can be transmitted to the wire diameter detector 22 to detect the outer diameter of the cable in real time, the set specified size is exceeded, alarming or stopping can be selected, and the problem that the production quality of the cable is reduced because the produced cable cannot meet the size requirement is solved.

In the process of winding the cable, the screw 243 drives the sliding table 241 to move all the time, so that each part of the body of the winding drum 32 can be wound with the cable uniformly, and the winding drum 32 can wind the cables more than necessary.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high frequency flexible cable's equipment of falling axle which characterized in that: including unwinding mechanism (1), winding mechanism (3), detection mechanism (2), unwinding mechanism (1) detection mechanism (2) with winding mechanism (3) sets gradually, detection mechanism (2) include that the line footpath detects platform (21) and line footpath detector (22), the line footpath detect platform (21) with line footpath detector (22) electric connection.

2. The rewinding device of the high frequency flexible cable as claimed in claim 1, wherein: the detection mechanism (2) further comprises a guide roller (23) used for guiding, wherein the guide roller (23) is arranged at the position where the cable enters the line diameter detection platform (21) and the position where the cable extends out of the line diameter detection platform (21).

3. The rewinding device of the high frequency flexible cable as claimed in claim 1, wherein: the winding mechanism (3) comprises a winding frame (31) and a winding drum (32), and the winding drum (32) is rotatably connected with the winding frame (31).

4. The rewinding device for high-frequency flexible cables as claimed in claim 3, characterized in that: the winding frame (31) comprises winding plates (311), a first lifting supporting plate (312), a first roller top rod (313) and a first roller fixing rod (314), the first lifting supporting plate (312) is located between the winding plates (311), the first lifting supporting plate (312) is in sliding fit with the winding plates (311), the first lifting supporting plate (312) moves close to or away from the ground, the first roller top rod (313) and the first roller fixing rod (314) are respectively arranged on the winding plates (311) on two sides of the first lifting supporting plate (312), the first roller top rod (313) and the first roller fixing rod (314) are oppositely arranged, and the first roller top rod (313) moves close to or away from the first roller fixing rod (314).

5. The rewinding device for high-frequency flexible cables as claimed in claim 4, characterized in that: the first lifting supporting plate (312) comprises a first sliding portion (3121) and a first supporting portion (3122), the first supporting portion (3122) for supporting the winding drum (32) is connected with the first sliding portion (3121), the first sliding portion (3121) is in sliding fit with the winding drums (311) on two sides, and first limiting protruding strips (3122 a) for limiting the winding drum (32) are arranged on two sides of the upper surface of the first supporting portion (3122).

6. The rewinding device for high-frequency flexible cables as claimed in claim 4, characterized in that: detection mechanism (2) still include sliding (24), sliding (24) with winding mechanism (3) cooperation, line footpath detects platform (21) and sets up sliding (24), sliding (24) are used for following the winding drum (32) stack shell direction slides.

7. The rewinding device for high-frequency flexible cables as claimed in claim 6, characterized in that: the sliding piece (24) comprises sliding tables (241), fixed supports (242), a lead screw (243) and a sliding rail (244), the lead screw (243) and the sliding rail (244) are arranged between the fixed supports (242), the fixed supports (242) are respectively arranged on each coiling plate (311), and the sliding tables (241) are in sliding fit with the lead screw (243) and the sliding rail (244).

8. The rewinding device for high-frequency flexible cables as claimed in claim 7, characterized in that: and a dustproof pad (245) for dust prevention is laid above the screw rod (243) between the fixed supports (242).

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