JP2021110719A - Device for inspecting and marking roughness of electric cable surface - Google Patents

Abstract

To disclose a device for inspecting and marking the roughness of an electric cable surface.SOLUTION: A device for inspecting and marking the roughness of an electric cable surface comprises an inspection block. On the right surface of the inspection block, a placement block is fixedly installed. In the inspection block, an inspection mechanism is installed. The inspection mechanism comprises a bottom space installed in the inspection block. The bottom space is open upward. In the bottom space, an output shaft is installed. On the output shaft, four fixed blocks are installed at equal intervals and fixedly. In the fixed block, a moving space is installed. The opening of the moving space is separated from the output shaft. In the moving space, a moving block is installed so as to be slidable. In the moving block, a moving rod is fixedly installed on a surface away from the output shaft. On the moving rod, a friction block is fixedly installed.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of electric cables, and specifically is an apparatus for inspecting and marking the roughness of the surface of an electric cable.

An electric cable is a member for transmitting electricity combined with several conductors, and is widely applied to various electric power processes. The surface of the electric cable is wrapped with rubber to separate it from the outside and prevent corrosion and electric leakage. With the use and transportation of electric cables, the surface of the electric cable tends to be roughened, which affects the function of the electric cable, and the inspection for the surface roughness of the existing electric cable is less automated and the inspection efficiency. Is low and it is difficult to inspect thick electric cables.

Chinese Patent Application Publication No. 106225737

The technical problem to be solved by the present invention provides a device for inspecting and marking the surface roughness of an electric cable, and the inspection for the surface roughness of an electric cable overcomes a situation where the degree of automation is low.

The invention of the present application is realized through the following technical plan.

The device for inspecting and marking the roughness of the surface of the electric cable includes an inspection block, a placing block is fixedly installed on the right side of the inspection block, and an inspection mechanism is installed in the inspection block. The inspection mechanism includes a bottom space installed in the inspection block, the bottom space is open upward, an output shaft is installed in the bottom space, and four fixed parts are attached to the output shaft. The blocks are installed at equal intervals and fixedly, a moving space is installed in the fixed block, the opening of the moving space is separated from the output shaft, and the moving block slides in the moving space. The moving rod is fixedly installed on the surface of the moving block away from the output shaft, the friction block is fixedly installed on the moving rod, and the friction block is contained in the friction block. A friction space is installed that penetrates the left and right surfaces of the friction block, and electric cables can be placed in the friction space, and four different sizes of the friction space can be placed, and electric cables of different sizes can be placed.
A marking mechanism is installed on the right side of the inspection mechanism, the marking mechanism includes a storage space installed on the right wall of the bottom space, and an joining space communicating with the external space is installed on the rear wall of the storage space. There is a quick-drying paint in the storage space, a suction force nozzle is installed on the right wall of the storage space, and when the inspection mechanism detects that there is a rough portion in the electric cable, the suction force nozzle is installed. The paint in the storage space is sprayed onto the rough part to mark it.
A winding mechanism is installed in the placing block, and the winding mechanism includes a placing space installed on the upper surface of the placing block, the placing space is open upward, and rotation is performed in the placing space. A possible drive shaft is installed, the electric cable can be manually tied to the drive shaft, the electric cable can be wound by the rotation of the drive shaft, and the electrical cable is passed through the inspection block, on the lower wall of the storage space. A control block is mounted, and a telescopic rod is controlled in the control block. The control block controls the vertical movement of the telescopic rod, so that the drive shaft is moved up and down to wind an electric cable.

Preferentially, the inspection mechanism includes an output motor fixedly connected to the left wall of the bottom space, an output shaft is controlled on the right surface of the output motor, and the output shaft is the right wall of the bottom space. The moving block is fixedly connected to the right wall of the moving space by a moving spring, and a pressure sensor is fixedly installed on the rear wall of the inspection space to be above the inspection space. A telescopic groove opened downward is formed on the wall, a first electric magnet is fixedly installed on the upper wall of the telescopic groove, and a telescopic spring is fixedly installed on the lower surface of the first electric magnet to expand and contract. A magnet block is fixedly installed at the lower end of the spring, a connecting rod connected to the telescopic groove so as to be slidable is fixedly installed on the lower surface of the magnet block, and the lower end of the connecting rod is the inspection space. An arc-shaped plate is fixedly installed on the lower surface of the connecting rod, and an arc-shaped block is fixedly installed on the lower wall of the inspection space.

Preferentially, the marking mechanism includes a sealed space installed on the lower wall of the storage space, a pressure spring is fixedly installed on the left wall of the sealed space, and the sealing is on the right end of the pressure spring. A sealing plate connected so as to slide with the space is fixedly installed, a feed space opened upward is installed on the upper surface of the sealing plate, and the feed space and the storage space are communicated with each other by an intermediate groove. The rear wall of the sealed space is communicated with the external space by a ventilation space, a guide space opened downward is installed in the sealing plate, and a second electric magnet is fixed to the front wall of the guide space. A connecting spring is fixedly installed at the rear end of the second electromagnet, and a guide block connected so as to slide with the guide space is fixedly installed at the rear end of the connecting spring. An exercise space is installed on the lower wall of the sealed space, the upper wall of the exercise space communicates with the sealed space, and a guide rod is fixedly installed on the lower surface of the guide block. The lower end of the space is located in the moving space, a support rod is fixedly installed on the lower surface of the guide rod, a connecting space is installed on the right wall of the storage space, and the right wall of the connecting space is installed. Communicates with the placement space, the right wall of the movement space communicates with the connection space, and the right end of the support rod penetrates the right wall of the movement space and is located in the connection space. A rack is fixedly installed on the front surface of the support rod in the connecting space.

Preferentially, the winding mechanism includes a support plate fixedly connected to the upper end of the telescopic rod, a power motor is fixedly installed on the upper surface of the support plate, and the power motor is fixedly installed on the upper surface of the power motor. The drive shaft is controlled, drive gears are fixedly installed on the drive shaft, the transmission shaft is installed so as to be rotatable between the upper and lower walls of the connection space, and the transmission gear and the bottom gear are installed on the transmission shaft. Is fixedly installed, the bottom gear is located below the transmission gear, and the transmission gear meshes with the drive gear.

Preferentially, the rack is located behind the bottom gear, and the rack can move forward and mesh with the bottom gear.

The present invention can automatically inspect the surface roughness of an electric cable, automatically mark the rough part of the cable surface with a quick-drying paint, quickly detect and mark the entire electric cable, and then process it. The present invention can be adjusted according to the thickness of the electric cable, and is highly adaptable.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention. FIG. 2 is an enlarged schematic view of FIG. 1A of the embodiment of the present invention. FIG. 3 is an enlarged schematic view of FIG. 1B of the embodiment of the present invention. FIG. 4 is an enlarged schematic view of C of FIG. 1 according to an embodiment of the present invention. FIG. 5 is a schematic view in the DD direction of FIG. 2 according to an embodiment of the present invention. FIG. 6 is a schematic view in the EE direction of FIG. 3 according to an embodiment of the present invention.

With reference to FIGS. 1 to 6, the device for inspecting and marking the roughness of the surface of the electric cable includes an inspection block 10, and a placing block 23 is fixedly installed on the right side of the inspection block 10 to perform the inspection. An inspection mechanism 70 is installed in the block 10, and the inspection mechanism 70 includes a bottom space 32 installed in the inspection block 10, the bottom space 32 is open upward, and the bottom space 32 is opened. An output shaft 41 is installed in the output shaft 41, four fixed blocks 34 are fixedly installed in the output shaft 41 at equal intervals, and a moving space 39 is installed in the fixed block 34. The opening of the space 39 is separated from the output shaft 41, the moving block 35 is installed in the moving space 39 so as to be slidable, and the moving rod is placed on the surface of the moving block 35 away from the output shaft 41. 36 is fixedly installed, a friction block 38 is fixedly installed on the moving rod 36, and a friction space 37 penetrating the left and right surfaces of the friction block 38 is installed in the friction block 38. An electric cable can be placed in the friction space 37, and electric cables of different sizes can be placed in the four friction spaces 37 having different sizes.
A marking mechanism 72 is installed on the right side of the inspection mechanism 70, the marking mechanism 72 includes a storage space 12 installed on the right wall of the bottom space 32, and the rear wall of the storage space 12 communicates with an external space. The joining space 14 is installed, there is a quick-drying paint in the storage space 12, a suction force nozzle 16 is installed on the right wall of the storage space 12, and the inspection mechanism 70 is a rough portion on the electric cable. When it is detected that there is, the suction force nozzle 16 sprays the paint in the storage space 12 onto the rough portion to mark it.
A winding mechanism 71 is installed in the placing block 23, and the winding mechanism 71 includes a placing space 20 installed on the upper surface of the placing block 23, and the placing space 20 is open upward. A rotatable drive shaft 21 is installed in the space 20, the electric cable can be manually tied to the drive shaft 21, the electric cable can be wound by the rotation of the drive shaft 21, and the inspection block 10 is attached to the electric cable. After that, a control block 25 is mounted on the lower wall of the storage space 20, a telescopic rod 26 is controlled in the control block 25, and the telescopic rod 26 is controlled to move up and down by the control block 25. , The drive shaft 21 is moved up and down to wind the electric cable.

Advantageously, the inspection mechanism 70 includes an output motor 33 fixedly connected to the left wall of the bottom space 32, and an output shaft 41 is controlled on the right surface of the output motor 33, and the output shaft 41 is It is rotatably connected to the right wall of the bottom space 32, the moving block 35 is fixedly connected to the right wall of the moving space 39 by a moving spring 40, and a pressure sensor 13 is connected to the rear wall of the inspection space 11. Is fixedly installed, a telescopic groove 53 opened downward is formed on the upper wall of the inspection space 11, and a first electromagnet 55 is fixedly installed on the upper wall of the telescopic groove 53. A telescopic spring 54 is fixedly installed on the lower surface of the electromagnet 55, a magnet block 52 is fixedly installed on the lower end of the telescopic spring 54, and the telescopic groove 53 can be slid on the lower surface of the magnet block 52. The connecting rod 56 connected to the connecting rod 56 is fixedly installed, the lower end of the connecting rod 56 is located in the inspection space 11, and the arc-shaped plate 51 is fixedly installed on the lower surface of the connecting rod 56. An arc-shaped block 15 is fixedly installed on the lower wall of the inspection space 11.

Advantageously, the marking mechanism 72 includes a sealing space 44 installed on the lower wall of the storage space 12, and a pressure spring 43 is fixedly installed on the left wall of the sealing space 44, and the pressure spring 43 is provided. A sealing plate 45 connected to the sealing space 44 so as to be slidable is fixedly installed at the right end of the sealing plate 45, and a feeding space 47 opened upward is installed on the upper surface of the sealing plate 45. The storage space 12 is communicated with the intermediate groove 48, the rear wall of the sealed space 44 is communicated with the external space by the ventilation space 49, and the guide space 59 opened downward in the sealing plate 45. Is installed, a second electric magnet 58 is fixedly installed on the front wall of the guide space 59, a connecting spring 57 is fixedly installed on the rear end of the second electric magnet 58, and after the connecting spring 57. A guide block 46 connected to the guide space 59 so as to be slidable is fixedly installed at the end, an exercise space 42 is installed on the lower wall of the sealed space 44, and the upper wall of the exercise space 42 is the said. The guide rod 50 is fixedly installed on the lower surface of the guide block 46, and the lower end of the guide rod 50 is located in the motion space 42 so as to communicate with the sealed space 44. A support rod 30 is fixedly installed on the lower surface of the storage space 12, a connecting space 17 is installed on the right wall of the storage space 12, and the right wall of the connecting space 17 communicates with the placing space 20. The right wall of the space 42 communicates with the connecting space 17, and the right end of the support rod 30 penetrates the right wall of the moving space 42 and is located in the connecting space 17. A rack 29 is fixedly installed on the front surface of the support rod 30 inside.

Advantageously, the winding mechanism 71 includes a support plate 27 that is fixedly connected to the upper end of the telescopic rod 26, and a power motor 24 is fixedly installed on the upper surface of the support plate 27. The drive shaft 21 is controlled on the upper surface of the 24, a drive gear 22 is fixedly installed on the drive shaft 21, and a transmission shaft 19 is installed between the upper and lower walls of the connection space 17 so as to be rotatable. A transmission gear 18 and a bottom gear 28 are fixedly installed on the transmission shaft 19, the bottom gear 28 is located below the transmission gear 18, and the transmission gear 18 is connected to the drive gear 22. It is in mesh.

Advantageously, the rack 29 is located on the rear side of the bottom gear 28, and the rack 29 can move forward and mesh with the bottom gear 28.

In the initial state, the moving spring 40 and the pressure spring 43 are in the normal state, and the telescopic spring 54 is in the pulling state.
Manually observe the diameter of the electric cable, determine the size, start the output motor 33, drive and rotate the output shaft 41, the output shaft 41 rotates the fixed block 34, and the fixed block 34 is the friction block. The 38 is rotated, and the friction space 37 of the corresponding size is rotated into the inspection space 11.
Manually tie the right end of the electric cable to the drive shaft 21, pull the left end of the electric cable, the left end of the electric cable penetrates the friction space 37 in the inspection space 11, and the first electric magnet 55 is energized to generate magnetic force. Then, the magnet block 52 is repelled and lowered, the telescopic spring 54 is pulled, the connecting rod 56 is lowered together with the magnet block 52, and the connecting rod 56 pushes and lowers the arc-shaped plate 51 to form the arc-shaped block 15 and the arc-shaped plate 51. There is a frictional force between the friction block 38 and the electric cable, and the magnitude of the frictional force is related to the degree of roughness of the electric cable.
The power motor 24 is started, the drive shaft 21 is rotated, the drive shaft 21 rotates the drive gear 22, and the transmission gear 18 is rotated by the engagement between the drive gear 22 and the transmission gear 18, and the transmission gear 18 is the transmission shaft. 19 is rotated, the transmission shaft 19 rotates the bottom gear 28, the drive shaft 21 rotates and winds an electric cable, and in the process, the control block 25 is activated to control the telescopic rod 26 and gradually raise it. , Wrap the electric cable evenly around the drive shaft 21
Since the electric cable in the friction space 37 is pulled out in the inspection space 11 and there is a frictional force between the electric cable and the friction block 38, the uppermost friction block 38 is on the right side of the fixed block 34. Since the moving spring 40 is compressed and the degree of surface roughness of the electric cable is different, the movement of the friction block 38 is also different when winding the electric cable, and the friction in the inspection space 11 is different. When the block 38 moves to the right and comes into contact with the pressure sensor 13, it indicates that the degree of roughness of the electric cable here exceeds the set value, the pressure sensor 13 operates, and the pressure sensor 13 presses the suction force nozzle 16. The second electric magnet 58 is energized under control, the second electric magnet 58 is energized to generate a magnetic force, the guide block 46 is attracted and moved forward, the connecting spring 57 is compressed, and the guide block 46 is the support rod 30. The rack 29 moves forward together with the support rod 30 to mesh with the bottom gear 28, and the rack 29 is moved to the right to a certain position by the meshing of the bottom gear 28 and the rack 29, and the rack 29 is moved forward. Moves the support rod 30 to the right to a certain position, the support rod 30 moves the sealing plate 45 to the right to a certain position, the pressure spring 43 is pulled, and the quick-drying property in the feed space 47. The paint moves to the underside of the suction force nozzle 16, and the suction force nozzle 16 operates to suck out the quick-drying paint in the feed space 47 and inject it into the electric cable. At this time, the drive shaft 21 pushes the electric cable. The rough portion of the winding and electrical cable just moves to the suction force nozzle 16 and is sprayed with the quick-drying paint, and the quick-drying paint has already dried before being wound by the drive shaft 21.
As the drive shaft 21 rotates faster, the quick-drying paint in the feed space 47 accelerates and moves to the lower side of the suction force nozzle 16, and is quickly sprayed onto the rough portion of the electric cable to mark and mark. After that, the second electromagnet 58 and the attractive force nozzle 16 stop operating, the device of the present invention returns, and marking continues.

The above is merely a specific embodiment of the invention of the present application, but the scope of protection of the invention of the present application is not limited to this. Changes and replacements that come to mind through all creative labor are covered by the scope of the invention of the present application. Therefore, the scope of protection of the present invention is based on the scope of protection in which the request for rights is limited.

Claims (5)

A placement block is fixedly installed on the right side of the inspection block including the inspection block, an inspection mechanism is installed in the inspection block, and the inspection mechanism provides a bottom space installed in the inspection block. Including, the bottom space is open upward, an output shaft is installed in the bottom space, and four fixed blocks are fixedly installed at equal intervals on the output shaft of the fixed block. A moving space is installed inside, the opening of the moving space is separated from the output shaft, the moving block is installed in the moving space so as to be slidable, and the moving block is separated from the output shaft. A moving rod is fixedly installed on the surface, a friction block is fixedly installed on the moving rod, and a friction space penetrating the left and right surfaces of the friction block is installed in the friction block. Electric cables can be placed in the space, the four said friction spaces of different sizes, different sizes of electric cables can be placed,
A marking mechanism is installed on the right side of the inspection mechanism, the marking mechanism includes a storage space installed on the right wall of the bottom space, and an joining space communicating with the external space is installed on the rear wall of the storage space. There is a quick-drying paint in the storage space, a suction force nozzle is installed on the right wall of the storage space, and when the inspection mechanism detects that there is a rough portion in the electric cable, the suction force nozzle is installed. The paint in the storage space is sprayed onto the rough part to mark it.
A winding mechanism is installed in the placing block, and the winding mechanism includes a placing space installed on the upper surface of the placing block, the placing space is open upward, and rotation is performed in the placing space. A possible drive shaft is installed, the electric cable can be manually tied to the drive shaft, the electric cable can be wound by the rotation of the drive shaft, and the electrical cable is passed through the inspection block, on the lower wall of the storage space. A control block is mounted, and a telescopic rod is controlled in the control block. The control block controls the vertical movement of the telescopic rod, so that the drive shaft is moved up and down to wind an electric cable. A device for inspecting and marking the roughness of the surface of an electric cable. The inspection mechanism includes an output motor fixedly connected to the left wall of the bottom space, and an output shaft is controlled on the right surface of the output motor so that the output shaft can rotate with the right wall of the bottom space. Connected, the moving block is fixedly connected to the right wall of the moving space by a moving spring, a pressure sensor is fixedly installed on the rear wall of the inspection space, and downward on the upper wall of the inspection space. An open telescopic groove is formed, a first electromagnet is fixedly installed on the upper wall of the telescopic groove, a telescopic spring is fixedly installed on the lower surface of the first electromagnet, and a telescopic spring is fixedly installed on the lower end of the telescopic spring. The magnet block is fixedly installed, and a connecting rod connected to the telescopic groove so as to be slidable is fixedly installed on the lower surface of the magnet block, and the lower end of the connecting rod is located in the inspection space. The electric cable according to claim 1, wherein an arc-shaped plate is fixedly installed on the lower surface of the connecting rod, and an arc-shaped block is fixedly installed on the lower wall of the inspection space. A device for inspecting and marking surface roughness. The marking mechanism includes a sealed space installed on the lower wall of the storage space, a pressure spring is fixedly installed on the left wall of the sealed space, and the right end of the pressure spring can slide with the sealed space. A sealing plate connected to is fixedly installed, a feed space opened upward is installed on the upper surface of the sealing plate, and the feeding space and the storage space are communicated by an intermediate groove, and the sealing space is connected. The rear wall communicates with the external space by a ventilation space, a guide space opened downward is installed in the sealing plate, and a second electric magnet is fixedly installed on the front wall of the guide space. A connecting spring is fixedly installed at the rear end of the second electric magnet, and a guide block connected so as to slide with the guide space is fixedly installed at the rear end of the connecting spring. A motion space is installed on the lower wall, the upper wall of the motion space communicates with the sealed space, a guide rod is fixedly installed on the lower surface of the guide block, and the lower end of the guide rod is the motion. It is located in the space, a support rod is fixedly installed on the lower surface of the guide rod, a connecting space is installed on the right wall of the storage space, and the right wall of the connecting space is the placement space. The right wall of the moving space communicates with the connecting space, and the right end of the support rod penetrates the right wall of the moving space and is located in the connecting space. The device for inspecting and marking the roughness of the surface of an electric cable according to claim 1, wherein a rack is fixedly installed on the front surface of the support rod in the space. The winding mechanism includes a support plate fixedly connected to the upper end of the telescopic rod, a power motor is fixedly installed on the upper surface of the support plate, and the drive shaft is controlled on the upper surface of the power motor. , The drive gear is fixedly installed on the drive shaft, the transmission shaft is installed so as to be rotatable between the upper and lower walls of the connection space, and the transmission gear and the bottom gear are fixedly installed on the transmission shaft. The roughness of the surface of the electric cable according to claim 3, wherein the bottom gear is located below the transmission gear and the transmission gear meshes with the drive gear. A device for marking. The roughness of the surface of the electric cable according to claim 4, wherein the rack is located behind the bottom gear and the rack can move forward and mesh with the bottom gear. A device for marking.

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