Jacketing machine with short circuit detection function
Technical Field
The invention relates to the field of jacketing machines, in particular to a jacketing machine with a short circuit detection function.
Background
The jacketing machine with short circuit detects the function carries out sheathed tube equipment to the wiring, can carry out short circuit detection to the electric wire after the sleeve pipe is good simultaneously, but current equipment is after the electric wire short circuit that detects equipment, often need staff's stop equipment, the electric wire to the short circuit is taken, its method wastes time and energy, it consumes longer time to need the stop equipment to open the jacketing machine, be unfavorable for the production and processing of equipment, simultaneously when carrying out the electric wire transportation, the pressure of equipment fabric wheel all often is unchangeable, a diameter for partial electric wire is different relatively, lead to transporting some electric wires that the diameter is thicker makes, easily cause great pressure to the electric wire, lead to the electric wire to cause slight deformation, be unfavorable for the production and processing.
Disclosure of Invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: jacketing machine with short circuit detects function, its structure includes traction wheel, casing ware, transport table, display screen, organism, control cabinet, the traction wheel is located directly over the organism, the bottom of casing ware welds mutually with the top of organism, the left end of transport table welds mutually with the right-hand member of organism, the display screen embedding is installed on the control cabinet, the rear end of control cabinet welds mutually with the front end of organism, the casing ware includes pipeline short circuit processing mechanism, elasticity adjustment mechanism, shell, the top of shell is located to pipeline short circuit processing mechanism to the two welds mutually, the bottom of elasticity mechanism welds mutually with the bottom of shell, adjustment mechanism is located the upper left side of elasticity mechanism, adjustment mechanism's left end welds mutually with the left end of shell.
As a further optimization of the technical scheme, the pipeline short-circuit processing mechanism comprises a short-circuit detection mechanism, a connecting pipeline assembly and a short-circuit electric wire storage mechanism, the short-circuit detection mechanism is located right above the connecting pipeline assembly, the short-circuit electric wire storage mechanism is arranged below the connecting pipeline assembly and movably connected with the connecting pipeline assembly, the short-circuit electric wire storage mechanism is located right below the short-circuit detection mechanism, and a tightening mechanism is arranged at the left end of the connecting pipeline assembly and welded with the connecting pipeline assembly.
As a further optimization of this technical scheme, short circuit detection mechanism includes the contact, pushes down the bottom of fly leaf, fixed valve piece, electromagnetism adsorption module, winding, short circuit detection end, the contact is located and is pushed down the bottom of fly leaf to the two welds mutually, it is located electromagnetism adsorption module directly over to push down the fly leaf, and the two swing joint, electromagnetism adsorption module is located the below of contact, the winding is located the both sides of electromagnetism adsorption module, the winding encircles and installs on short circuit detection end.
As the further optimization of this technical scheme, the connecting tube subassembly includes links up wheel, export, connects the electrical terminal, connects shell, import, it is located the left of export to link up the wheel, the right-hand member of connecting the shell is located to the export to the two is integrated structure, the bottom of connecting the electrical terminal welds with the bottom of connecting the shell mutually, the import is located the right-hand of connecting the shell, and the two is integrated structure, the below of connecting the shell is equipped with short circuit electric wire receiving mechanism and the two swing joint.
As a further optimization of the technical solution, the short circuit wire accommodating mechanism includes a cutting-off knife, a roller, a rail, an N-pole block, an electromagnetic rod, and a magnetic block, the cutting-off knife is located on the roller and movably connected to the roller, the roller is embedded in the rail, the top end of the N-pole block is welded to the bottom end of the cutting-off knife, the electromagnetic rod is located right below the magnetic block and electrically connected to the magnetic block, the magnetic block is located below the N-pole block and movably connected to the magnetic block, and the cutting-off knife is located below the connecting shell and movably connected to the magnetic block.
As the further optimization of this technical scheme, the elasticity mechanism includes tight pulley, connecting valve piece, removal valve piece, goes up pinch roller, air pump, spacing spring, it installs on connecting valve piece to go up the tight pulley embedding, connecting valve piece is located removal valve piece directly over, it installs on removing valve piece to go up the pinch roller embedding, it is located the air pump directly over to go up the pinch roller, spacing spring's bottom welds with the top of air pump mutually, connecting valve piece's right-hand member is equipped with connecting pipe assembly to the two welds mutually.
As a further optimization of the technical scheme, the tightness adjusting mechanism comprises a pipeline diameter detecting mechanism, a connecting driving mechanism and a resistance adjusting mechanism, the pipeline diameter detecting mechanism is arranged at the top end of the connecting driving mechanism and is movably connected with the top end of the connecting driving mechanism, the bottom end of the connecting driving mechanism is provided with the resistance adjusting mechanism and is movably connected with the bottom end of the connecting driving mechanism, and the resistance adjusting mechanism is located below the pipeline diameter detecting mechanism.
As a further optimization of this technical scheme, pipeline diameter detection mechanism includes supporting spring piece, axis of rotation, connecting spring piece, receives the board, removes pressure ball, receives the pressure gas board, the supporting spring piece is located the axis of rotation under, the top of connecting spring piece welds mutually with the top that receives the board, receive the board and locate in the axis of rotation to the two is integrated structure, remove the pressure ball and locate the bottom that receives the board, and the two is integrated structure, the below that removes the pressure ball is located to the pressure gas board to the two swing joint.
As a further optimization of this technical scheme, it includes trachea, reset spring, gas tank, removal resistance pole to connect actuating mechanism, the top in gas tank is located to the trachea to the two welds mutually, reset spring locates the gas tank in, the perpendicular embedding of removal resistance pole is on the gas tank, reset spring's bottom welds mutually with the top of removal resistance pole, the bottom and the resistance adjustment mechanism swing joint of removal resistance pole.
As a further optimization of the technical solution, the resistance adjusting mechanism includes a sliding rheostat, a protective shell, a conductive wire, and a sealing block, the bottom end of the sliding rheostat is welded with the bottom end of the protective shell, the left end of the conductive wire is welded with the right end of the sliding rheostat, the left end of the sealing block is welded with the right end of the protective shell, and the right end of the sliding rheostat is movably connected with the bottom end of the movable resistance rod.
Advantageous effects
The invention relates to a jacketing machine with a short-circuit detection function, when equipment is used, a lead is connected through a traction wheel to enable the lead to enter a jacketing machine for jacketing, when the lead enters, a pressure plate on a tightness adjusting mechanism is pressed to enable the pressure plate to be stressed and descend, so that a movable pressure ball on the pressure plate is stressed to push the pressure plate to descend, so that gas enters an air groove through an air pipe, a movable resistance rod is pushed to enable the movable resistance rod to slide on a sliding rheostat, the voltage strength of an air pump is controlled, the air pump is enabled to rise to a corresponding height according to a voltage index, meanwhile, an electric connection terminal on a pipeline short-circuit processing mechanism can supply power to the electric wire, so that a short-circuit detection terminal detects the electric wire, when the electric wire leaks too much, current can flow to an electromagnetic adsorption module through a winding resistor, make the electromagnetism absorption module adsorb the fly leaf of pushing down to make the magnetic path produce magnetic force, opposite with the N utmost point piece, the utmost point piece of side N drives the cutting knife upwards, cuts the electric wire of short circuit and accomodates.
Based on the prior art, the invention has the advantages that by improving the partial structure of the casing device, when the short circuit of the electric wire of the casing is detected, the electric wire can be automatically recovered, workers do not need to stop the device, the waste electric wire is stored, and meanwhile, when the electric wire is connected into the casing device, the pipe orifice can automatically adjust the clamping force of the fixed wheel on the electric wire according to the diameter of the electric wire, so that the electric wire is prevented from being deformed due to overlarge clamping force, and the processing precision is prevented from being influenced.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a jacketing machine with short circuit detection function according to the present invention.
Fig. 2 is a schematic cross-sectional view of the cannula device of the present invention prior to operation.
Fig. 3 is a schematic cross-sectional view of the casing device of the present invention after operation.
Fig. 4 is a detailed structural diagram of the cross section of the pipeline short-circuit processing mechanism before operation.
Fig. 5 is a schematic view of the static cross-sectional structure of the pipeline short-circuit treatment mechanism after operation.
FIG. 6 is a detailed structural view of a static cross-section of the slack adjustment mechanism of the present invention prior to operation.
FIG. 7 is a detailed structural view of a static cross-section of the slack adjustment mechanism of the present invention after operation.
In the figure: traction wheel-1, casing device-2, transportation platform-3, display screen-4, machine body-5, control platform-6, pipeline short-circuit processing mechanism-21, elastic mechanism-22, elastic adjusting mechanism-23, shell-24, short-circuit detection mechanism-211, connecting pipeline assembly-212, short-circuit wire storage mechanism-213, contact-2111, lower press movable plate-2112, fixed valve block-2113, electromagnetic adsorption module-2114, winding resistor-2115, short-circuit detection end-2116, connecting wheel-2121, outlet-2122, electric connection terminal-2123, connecting shell-2124, inlet-2125 cutting knife-2131, track-2133, N pole block-2134, electromagnetic rod-2135, magnetic block-2136, roller, The device comprises an upper fixed wheel-221, a connecting valve block-222, a moving valve block-223, an upper pressure wheel-224, an air pump-225, a limiting spring-226, a pipeline diameter detection mechanism-231, a connecting driving mechanism-232, a resistance adjusting mechanism-233 supporting spring block-2311, a rotating shaft-2312, a connecting spring block-2313, a pressed plate-2314, a moving pressed ball-2315, a pressed air plate-2316, an air pipe-2321, a return spring-2322, an air groove-2323, a moving resistance rod-2324, a sliding rheostat-2331, a protective shell-2332, a conductive wire-2333 and a sealing block-2334.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Examples
Referring to fig. 1-7, the present invention provides a jacketing machine with a short circuit detection function, which structurally includes a traction wheel 1, a jacketing machine 2, a transportation table 3, a display screen 4, a machine body 5 and a console 6, wherein the traction wheel 1 is disposed right above the machine body 5, the bottom end of the jacketing machine 2 is welded to the top end of the machine body 5, the left end of the transportation table 3 is welded to the right end of the machine body 5, the display screen 4 is embedded in the console 6, the rear end of the console 6 is welded to the front end of the machine body 5, the jacketing machine 2 includes a pipeline short circuit processing mechanism 21, a tightening mechanism 22, a tightening and loosening adjusting mechanism 23 and a housing 24, the pipeline short circuit processing mechanism 21 is disposed at the top end of the housing 24 and welded to the two, the bottom end of the tightening mechanism 22 is welded to the bottom end of the housing 24, the adjusting mechanism 23 is disposed at the upper left of the tightening mechanism 22, the left end of the adjusting mechanism 23 is welded to the left end of the housing 24, as a further optimization of the present technical solution, the pipeline short-circuit processing mechanism 21 includes a short-circuit detection mechanism 211, a connection pipeline assembly 212, and a short-circuit wire storage mechanism 213, the short-circuit detection mechanism 211 is located right above the connection pipeline assembly 212, the short-circuit wire storage mechanism 213 is located below the connection pipeline assembly 212 and is movably connected to the connection pipeline assembly 212, the short-circuit wire storage mechanism 213 is located right below the short-circuit detection mechanism 211, the left end of the connection pipeline assembly 212 is provided with a tightening mechanism 22 and is welded to the tightening mechanism, the short-circuit detection mechanism 211 includes a contact 2111, a downward-pressing movable plate 2112, a fixed valve block 2113, an electromagnetic adsorption module 2114, a winding 2115, and a short-circuit detection end 2116, the contact 2111 is located at the bottom end of the downward-pressing movable plate 2112 and is welded to the downward-pressing movable plate 2112, the electromagnetic adsorption module 2114 is positioned below the contact 2111, the winding 2115 is positioned at two sides of the electromagnetic adsorption module 2114, the winding 2115 is mounted on the short-circuit detection end 2116 in a surrounding manner, the connecting pipe assembly 212 comprises a connecting wheel 2121, an outlet 2122, an electric terminal 2123, a connecting shell 2124 and an inlet 2125, the connecting wheel 2121 is positioned at the left side of the outlet 2122, the outlet 2122 is arranged at the right end of the connecting shell 2124 and is of an integrated structure, the bottom end of the electric terminal 2123 is welded with the bottom end of the connecting shell 2124, the inlet 2125 is arranged at the right side of the connecting shell 2124 and is of an integrated structure, a short-circuit wire accommodating mechanism 213 is arranged below the connecting shell 2124 and is movably connected with the connecting shell, the short-circuit wire accommodating mechanism 213 comprises a cutting knife 2131, a roller 2132, a track 2133, an N pole block 2134, an electromagnetic rod 2135 and a magnetic block 2136, the cutting knife 2131 is positioned on a roller 2132 and movably connected with the roller 2132, the roller 2132 is embedded and installed on a rail 2133, the top end of an N pole block 2134 is welded with the bottom end of the cutting knife 2131, the electromagnetic rod 2135 is positioned right below a magnetic block 2136 and electrically connected with the magnetic block 2136, the magnetic block 2136 is positioned below the N pole block 2134 and movably connected with the connecting shell 2124, the cutting knife 2131 is positioned below the connecting shell 2124 and movably connected with the connecting shell 2124, the tightening mechanism 22 comprises an upper fixed wheel 221, a connecting valve block 222, a movable valve block 223, an upper pinch wheel 224, an air pump 225 and a limit spring 226, the upper fixed wheel 221 is embedded and installed on the connecting valve block 222, the connecting valve block 222 is positioned right above the movable valve block 223, the upper pinch wheel 224 is embedded and installed on the movable valve block 223, the upper pinch wheel 224 is positioned right above the air pump 225, the bottom end of the limit spring 226 is welded with the top end of the air pump 225, the right end of the connecting valve block 222 is provided with the connecting pipe assembly 212, and the connecting pipe assembly 212 and the connecting valve block are welded, the slack adjuster 23 includes a pipe diameter detection mechanism 231, a connecting driving mechanism 232 and a resistance adjuster 233, the pipe diameter detection mechanism 231 is disposed at the top end of the connecting driving mechanism 232 and is movably connected with the connecting driving mechanism 232, the bottom end of the connecting driving mechanism 232 is provided with the resistance adjuster 233, and is movably connected with the connecting driving mechanism 232, the resistance adjuster 233 is disposed below the pipe diameter detection mechanism 231, the pipe diameter detection mechanism 231 includes a supporting spring block 2311, a rotating shaft 2312, a connecting spring block 2313, a pressure receiving plate 2314, a movable pressure ball 2315 and a pressure receiving plate 2316, the supporting spring block 2311 is disposed just below the rotating shaft 2312, the top end of the connecting spring block 2313 is welded with the top end of the pressure receiving plate 2314, the pressure receiving plate 2314 is disposed on the rotating shaft 2312, the movable pressure ball 2315 and the movable pressure ball 2314 are integrated, the pressure-bearing air plate 2316 is arranged below the movable pressure ball 2315 and movably connected with each other, the connection driving mechanism 232 comprises an air pipe 2321, a return spring 2322, an air groove 2323 and a movable resistance rod 2324, the air pipe 2321 is arranged at the top end of the air groove 2323 and welded with each other, the return spring 2322 is arranged in the air groove 2323, the movable resistance rod 2324 is vertically embedded in the air groove 2323, the bottom end of the return spring 2322 is welded with the top end of the movable resistance rod 2324, the bottom end of the movable resistance rod 2324 is movably connected with the resistance adjusting mechanism 233, the resistance adjusting mechanism 233 comprises a slide rheostat 2331, a protective shell 2332, a conductive wire 2333 and a sealing block 2334, the bottom end of the slide rheostat 2331 is welded with the bottom end of the protective shell 2332, and the left end of the conductive wire 2333 is welded with the right end of the slide rheostat 2331, the left end of the sealing block 2334 is welded with the right end of the protective housing 2332, and the right end of the sliding rheostat 2331 is movably connected with the bottom end of the movable resistance rod 2324.
The principle of the invention is as follows: when the device is used, the traction wheel 1 is connected with a lead, the lead enters the casing device 2 for casing processing, when the lead enters, the pressure plate 2314 on the tightness adjusting mechanism 23 is pressed, the pressure plate 2314 is stressed to descend, the movable pressure ball 2315 on the pressure plate 2314 is stressed to push the pressure air plate 2316 to descend, so that air enters the air groove 2323 through the air pipe 2321, the movable resistance rod 2324 is pushed, the movable resistance rod 2324 slides on the sliding rheostat 2331, the voltage strength of the air pump 225 is controlled, the air pump 225 is enabled to ascend to a corresponding height according to a voltage index, meanwhile, the electric connection terminal 2123 on the pipeline short-circuit processing mechanism 21 can supply power to the electric wire, the short-circuit detection end 2116 detects electric leakage of the electric wire, when the electric wire is in a short circuit, current can flow to the electromagnetic adsorption module 2114 through the winding resistor 2115, the electromagnetic adsorption module 2114 adsorbs the downward pressing plate 2112, so that the magnetic block 2136 generates magnetic force, and the square N pole block 2314 drives the cutting knife 2131 to move upwards to cut and store the short-circuited electric wire, which is opposite to the N pole block 2314.
The invention solves the problems that after the existing equipment detects the short circuit of the electric wire of the equipment, the equipment is often required to be stopped by workers to take the short-circuited electric wire, the method wastes time and labor, the time for opening the bushing device is required to be stopped, the production and the processing of the equipment are not facilitated, meanwhile, the pressure of a wire pressing wheel of the equipment is often invariable when the electric wire is transported, the diameters of partial electric wires are relatively different, and the electric wire with a thicker diameter is transported, so that the large pressure is easily caused on the electric wire, the slight deformation of the electric wire is caused, and the production and the processing are not facilitated. Simultaneously when the electric wire inserts the casing ware, the mouth of pipe can be according to the size of electric wire diameter, and the clamp force of automatically regulated fixed wheel pair electric wire prevents that the clamp force is too big, and leads to the electric wire to take place to deform, and influences the machining precision.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.