CN112600139A

CN112600139A - Conductive cable interface detection post-processing terminal

Info

Publication number: CN112600139A
Application number: CN202110077323.0A
Authority: CN
Inventors: 田江
Original assignee: Shenzhen Hongyue Electronic Technology Co ltd
Current assignee: Shenzhen Hongyue Electronic Technology Co ltd
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2021-04-02

Abstract

The invention discloses a conductive cable interface detection post-processing terminal which comprises a shell, wherein a fixed plate is fixedly arranged on the end surface of the top of the shell, and a connecting block and a transmission block positioned on the right side of the connecting block are fixedly arranged on the end surface of the front side of the fixed plate; according to the invention, the resistance value of the cable joint during power-on is judged by detecting the pressure generated after water electrolysis in unit time, so that online detection after the installation of the cable joint is effectively realized, possible problems can be quickly found, faults during subsequent power supply are avoided, hydrogen generated after water electrolysis is used as energy to provide power, the automatic adhesive tape winding protective sleeve wrapping and protective sleeve heating shrinkage installation of the cable joint are completed, and the scalding risk caused by touching the protective sleeve after heating shrinkage during manual adhesive tape winding is effectively avoided while the installation is quickly completed.

Description

Conductive cable interface detection post-processing terminal

Technical Field

The invention relates to the field of electric conduction, in particular to a post-processing terminal for detecting an interface of a conductive cable.

Background

The cable joint is also called as cable joint, after the cable is laid, in order to make it become a continuous circuit, all the lines must be connected into a whole, these connection points are called as cable joint, the cable joint is used for locking and fixing incoming and outgoing lines, and has the functions of water-proofing, dust-proofing and vibration-proofing.

At present stage, cable joint is difficult to carry out effectual on-the-spot inspection after connecting the completion, if the problem is difficult to discover and solve at the very first time, need wrap through insulating adhesive tape and cover the protective sheath to cable joint when installation cable joint simultaneously and protect, need make the protective sheath shrink to the protective sheath heating after sheatheeing in the protective sheath, and repeat many times, the manual work winding adhesive tape caused the scald easily after heating the protective sheath makes its shrink.

Disclosure of Invention

The invention aims to provide a conductive cable interface detection post-processing terminal, which solves the problems.

The invention relates to a conductive cable interface detection post-processing terminal, which comprises a shell, wherein a fixed plate is fixedly arranged on the top end surface of the shell, a connecting block and a transmission block positioned on the right side of the connecting block are fixedly arranged on the front end surface of the fixed plate, a clamping block sliding chute with an upward opening, a flame thrower cavity with an upward opening and a first detection cavity with an upward opening are arranged on the right side of the clamping block sliding chute on the top end surface of the shell, a flame thrower for ignition is fixedly arranged on the bottom wall in the flame thrower cavity, a liquid storage cavity is arranged on the bottom wall in the flame thrower cavity, a water filling device communicated with external water filling equipment is fixedly arranged on the inner wall on the right side of the liquid storage cavity, electrode cavities with downward openings and a piston cavity with a downward opening are symmetrically arranged on the left and right side and on the top wall in the, a piston is arranged in the piston cavity in a sliding manner, a piston spring fixedly connected with the top wall in the piston cavity is fixedly arranged on the end face of the top of the piston, a push rod chute with a downward opening is arranged on the top wall in the piston cavity, a piston push rod fixedly connected with the end face of the top of the piston is arranged in the push rod chute in a sliding manner, a signal block matched with the piston push rod is fixedly arranged on the top wall in the push rod chute, an electrode is fixedly arranged on the inner wall of one side of the electrode cavity far away from the center of the piston cavity, an air vent communicated with the inner bottom wall of the flame thrower is arranged on the top wall in the electrode cavity in a through manner, a cutting block chute with a leftward opening is arranged on the inner wall on the right side of the air vent, a cutting block is arranged in the cutting block chute in a sliding, piston push rod with during the signal piece butt cut a work of electromagnetic spring and drive cut the piece shrink extremely cut a spout, link up on the roof of electrode cavity and be equipped with the communicating exhaust pipe with external gas recovery plant, exhaust pipe internal fixation is equipped with the solenoid valve through external control system control, it is equipped with first detection piece to slide in the first detection chamber, the fixed first sheetmetal that is equipped with on the first detection piece top end face, be connected with on the first sheetmetal bottom terminal surface have run through first detection piece with the first electric wire of first detection intracavity diapire, fixed be equipped with on the first detection piece bottom terminal surface with first detection piece electromagnetic spring that detects intracavity diapire and through external control system control, the fixed battery that is equipped with on the first detection chamber right side inner wall.

Furthermore, clamping blocks which extend upwards and are symmetrical up and down and are in rotating fit through hinges are arranged in the sliding grooves of the clamping blocks in a sliding mode, clamping block electromagnetic springs which are fixedly connected with the inner walls of the left sides of the sliding grooves of the clamping blocks are fixedly arranged on the left end faces of the clamping blocks on the lower sides, clamping ports are arranged on the end faces of the sides, close to each other, of the clamping blocks in a left-right through mode, second detection cavities with upward openings are arranged on the inner bottom walls of the clamping ports on the lower sides, second detection blocks are arranged in the second detection cavities in a sliding mode, second metal sheets are fixedly arranged on the end faces of the tops of the second detection blocks, second electric wires penetrating through the second detection blocks and the inner bottom walls of the second detection cavities are electrically connected to the end faces of the bottoms of the second metal sheets, second detection block electromagnetic springs which are fixedly connected with the inner bottom walls of the second detection cavities and are controlled through, the second metal sheet, the second wire, the two electrodes, the first metal sheet, the first wire and the battery are connected in series through a first circuit.

Furthermore, a heat collecting plate sliding groove is arranged in the front and back of the fixing plate in a penetrating manner, a heat collecting plate matched with the flame sprayer is arranged in the heat collecting plate sliding groove in a sliding manner, heat insulating blocks are fixedly arranged on the front and back end faces of the heat collecting plate, a handle is fixedly arranged on the end face of the back side of the heat insulating block on the back side, a Stirling engine is fixedly arranged on the inner top wall of the heat collecting plate sliding groove, a heat collecting and conducting block abutted against the heat collecting plate is fixedly arranged on the end face of the bottom of the Stirling engine, a heat radiating and conducting block extending backwards is fixedly arranged on the end face of the top of the Stirling engine, a heat radiating fin for radiating heat is fixedly arranged on the end face of the bottom of the part of the heat radiating and conducting block extending backwards into the outside, a fan shaft extending backwards is dynamically connected to the end face of the back side of the Stirling, the fan shaft penetrates through the front inner wall and the rear inner wall of the belt wheel cavity and is connected with the belt wheel cavity in a rotating fit mode, a first belt wheel is fixedly arranged on the part, located in the belt wheel cavity, of the fan shaft, and a fan matched with the radiating fins is fixedly arranged on the part, extending into the outside, of the fan shaft.

Further, a first transmission cavity is arranged in the transmission block, a spline shaft is rotatably arranged on the front inner wall and the rear inner wall of the first transmission cavity, a second belt wheel is fixedly arranged on the spline shaft, the second belt wheel is in transmission fit connection with the first belt wheel through a transmission belt, spline sleeves which are positioned in front of and behind the second belt wheel are in spline fit on the spline shaft, first bevel gears which are positioned in front of and behind the two spline sleeves are rotatably arranged on the spline shaft, first engaging teeth are fixedly arranged on the end surfaces of the spline sleeves close to one sides of the first bevel gears, second engaging teeth which are matched with the first engaging teeth are fixedly arranged on the end surfaces of the two first bevel gears far away from each other, a shifting block chute with a left opening is arranged on the inner wall on the right side of the first transmission cavity, and a shifting block with a left opening is slidably arranged in the shifting block chute, the shifting block comprises a shifting block sliding groove, a shifting block electromagnetic spring, a first transmission cavity, a second transmission cavity, a first connecting block and a second connecting block, wherein the shifting block electromagnetic spring is fixedly arranged on the end face of the rear side of the shifting block, is fixedly connected with the inner wall of the rear side of the shifting block sliding groove and is controlled by an external control system, openings which are symmetrical leftward and frontward are arranged on the shifting block extend into the first transmission cavity to be connected with the two spline sleeves in a rotating fit mode, a screw rod extending leftward is rotatably arranged on the inner wall of the left side of the first transmission cavity, second bevel gears meshed with the two first bevel gears are fixedly arranged on the screw rod, and the second bevel gears penetrate through the.

Furthermore, a sliding block is meshed on the part of the screw rod between the connecting block and the transmission block through a threaded hole, a limiting rod sliding groove is arranged in the sliding block in a left-right through mode, a limiting rod fixedly connected with the right end face of the connecting block and the left end face of the transmission block is arranged in the limiting rod sliding groove in a sliding mode, a second transmission cavity with an upward opening is arranged on the inner wall of the threaded hole, a first transmission shaft is rotatably arranged on the left inner wall and the right inner wall of the second transmission cavity, a third belt wheel which is bilaterally symmetrical and a meshing gear which is positioned on the left side of the third belt wheel and meshed with the screw rod are fixedly arranged on the first transmission shaft, a hook is fixedly arranged on the right end face of the sliding block, a rotating cavity with a downward opening is arranged on the bottom end face of the sliding block, a rotating block is rotatably arranged in the rotating cavity, and, the winding intracavity roof is gone up to rotate and is equipped with the downward adhesive tape chamber of opening, it is equipped with adhesive tape book axis of rotation to rotate on the inner wall of adhesive tape chamber right side, be equipped with the adhesive tape book in the adhesive tape book axis of rotation, rotatory piece is kept away from the fixed external toothing that is equipped with on the ring terminal surface at winding chamber center, be equipped with symmetry and opening orientation around rotatory piece rotation chamber on the inner wall third transmission chamber at rotatory piece rotation chamber center, it is equipped with the second transmission shaft to rotate on the inner wall about the third transmission chamber, fixed be equipped with on the second transmission shaft with the drive gear of external toothing engaged with and be located the fourth band pulley on drive gear right side, the fourth band pulley with be connected through drive belt transmission cooperation between the third band pulley.

Further, the downside be equipped with the ascending butt chamber of opening on the clamping piece front side terminal surface, the upside fixed be equipped with on the clamping piece bottom terminal surface with butt chamber matched with first board that colludes, it colludes the board axle to rotate on the butt chamber left and right sides, collude on the board axle top terminal surface fixed be equipped with first board matched with second that colludes the board, collude on the board axle bottom terminal surface fixed be equipped with the button, the button with the second collude on the board right side inner wall fixed be equipped with butt chamber right side inner wall fixed connection's torsional spring.

The invention has the beneficial effects that: the cable joint resistance detection device is simple in structure and convenient and fast to operate, the resistance value of the cable joint during power-on is judged by detecting the pressure generated after water electrolysis in unit time, online detection after the installation of the cable joint is effectively achieved, possible problems can be quickly found, faults during subsequent power supply are avoided, hydrogen generated after water electrolysis is used as energy to provide power, automatic adhesive tape winding protective sleeve wrapping and protective sleeve heating shrinkage installation of the cable joint are completed, and the scalding risk caused by the fact that the protective sleeve after heating shrinkage is touched when the adhesive tape is manually wound is effectively avoided while the installation is quickly completed.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at D-D in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the embodiment of the present invention at E in FIG. 1;

FIG. 7 is a schematic structural diagram at F-F in FIG. 4 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine attached figure 1-7 a conductive cable interface detect aftertreatment terminal, including casing 10, the fixed plate 14 that is equipped with on the casing 10 top end face, fixed connecting block 15 that is equipped with and being located on the fixed plate 14 front side end face transmission block 21 on connecting block 15 right side, be equipped with on the casing 10 top end face ascending clamping piece spout 11 of opening and be located the ascending spary chamber 55 of opening on clamping piece spout 11 right side and being located the ascending first detection chamber 29 of opening on spary chamber 55 right side, fixed spary 54 that is used for the ignition that is equipped with on the diapire in spary chamber 55, be equipped with stock solution chamber 35 on the diapire in spary chamber 55, fixed be equipped with on the inner wall on stock solution chamber 35 right side with the communicating water filling device 34 of external water filling equipment, be equipped with bilateral symmetry and opening decurrent electrode chamber 91 and be located two in the stock solution chamber 35 the decurrent piston chamber 37 of opening between the electrode chamber 91 The piston 38 is slidably arranged in the piston cavity 37, a piston spring 40 fixedly connected with the top wall of the piston cavity 37 is fixedly arranged on the top end face of the piston 38, a push rod chute 36 with a downward opening is arranged on the top wall of the piston cavity 37, a piston push rod 39 fixedly connected with the top end face of the piston 38 is slidably arranged in the push rod chute 36, a signal block matched with the piston push rod 39 is fixedly arranged on the top wall of the push rod chute 36, an electrode 90 is fixedly arranged on the inner wall of one side of the center of the piston cavity 37 far away from the electrode cavity 91, a vent hole 85 communicated with the inner bottom wall of the flame thrower 54 is penetratingly arranged on the top wall of the electrode cavity 91, a cut-off block chute 87 with a leftward opening is arranged on the inner wall of the right side of the vent hole 85, a cut-off block 86 is slidably arranged in the cut-off block chute 87, a cut-off block electromagnetic spring 88 fixedly connected with the inner wall of the, when the piston push rod 39 is abutted against the signal block, the cut-off block electromagnetic spring 88 works to drive the cut-off block 86 to contract to the cut-off block sliding groove 87, an exhaust pipeline 89 communicated with external gas recovery equipment is arranged on the top wall in the electrode cavity 91 in a penetrating way, an electromagnetic valve controlled by an external control system is fixedly arranged in the exhaust pipeline 89, a first detection block 30 is arranged in the first detection cavity 29 in a sliding manner, a first metal sheet 28 is fixedly arranged on the top end face of the first detection block 30, a first electric wire 33 penetrating through the first detection block 30 and the inner bottom wall of the first detection cavity 29 is electrically connected to the bottom end face of the first metal sheet 28, the bottom end face of the first detection block 30 is fixedly provided with a first detection block electromagnetic spring 32 which is arranged on the inner bottom wall of the first detection cavity 29 and controlled by an external control system, and the inner wall of the right side of the first detection cavity 29 is fixedly provided with a battery 31.

Beneficially, the clamping block sliding groove 11 is slidably provided with a clamping block 13 which extends upwards, is vertically symmetrical and is rotationally matched through a hinge 51, the left end face of the clamping block 13 at the lower side is fixedly provided with a clamping block electromagnetic spring 12 which is fixedly connected with the left inner wall of the clamping block sliding groove 11, the end face of one side of the clamping block 13 which is close to each other is provided with a clamping opening 52 in a left-right through manner, the inner bottom wall of the clamping opening 52 at the lower side is provided with a second detection cavity 79 with an upward opening, the second detection cavity 79 is slidably provided with a second detection block 76, the top end face of the second detection block 76 is fixedly provided with a second metal sheet 75, the bottom end face of the second metal sheet 75 is electrically connected with a second electric wire 78 which penetrates through the second detection block 76 and the inner bottom wall of the second detection cavity 79, the bottom end face of the second detection block 76 is fixedly provided with a second detection block electromagnetic spring 77 which is fixedly connected with the inner bottom wall of the second detection cavity 79 and is, the second metal piece 75, the second wire 78, the two electrodes 90, the first metal piece 28, the first wire 33, and the battery 31 are connected in series through a first circuit.

Advantageously, a heat collecting plate sliding slot 42 is provided through the front and back of the fixing plate 14, a heat collecting plate 43 matching with the flame thrower 54 is slidably disposed in the heat collecting plate sliding slot 42, heat insulating blocks 27 are fixedly disposed on the front and back end surfaces of the heat collecting plate 43, a handle is fixedly disposed on the end surface of the rear side of the heat insulating block 27 on the rear side, a stirling engine 50 is fixedly disposed on the inner top wall of the heat collecting plate sliding slot 42, a heat collecting block 41 abutting against the heat collecting plate 43 is fixedly disposed on the end surface of the bottom of the stirling engine 50, a heat dissipating and conducting block 49 extending backwards is fixedly disposed on the end surface of the top of the stirling engine 50, a heat dissipating fin 48 for dissipating heat is fixedly disposed on the end surface of the bottom of the portion of the heat dissipating and conducting block 49 extending backwards into the outside, a fan shaft 45 extending backwards is dynamically connected to the end surface of the rear side of the stirling engine 50, and a belt wheel cavity, the fan shaft 45 penetrates through the front inner wall and the rear inner wall of the belt wheel cavity 47 and is connected with the front inner wall and the rear inner wall in a rotating fit mode, a first belt wheel 46 is fixedly arranged on the part, located in the belt wheel cavity 47, of the fan shaft 45, and a fan 44 matched with the cooling fins 48 is fixedly arranged on the part, extending into the outside, of the fan shaft 45.

Advantageously, a first transmission cavity 20 is provided in the transmission block 21, a spline shaft 56 is rotatably provided on the front and rear inner walls of the first transmission cavity 20, a second belt pulley 63 is fixedly provided on the spline shaft 56, the second belt pulley 63 is in transmission fit connection with the first belt pulley 46 through a transmission belt, spline sleeves 59 which are positioned in front and rear of the second belt pulley 63 are in spline fit on the spline shaft 56, a first bevel gear 58 which is positioned in front and rear symmetry between the two spline sleeves 59 is rotatably provided on the spline shaft 56, a first engaging tooth is fixedly provided on the end surface of one side of the spline sleeve 59 close to the first bevel gear 58, a second engaging tooth which is matched with the first engaging tooth is fixedly provided on the end surface of the side of the two first bevel gears 58 which are far away from each other, a shifting block sliding groove 61 with a left opening is provided on the inner wall of the right side of the first transmission cavity 20, a shifting block 60 with a leftward opening is arranged in the shifting block sliding groove 61 in a sliding manner, a shifting block electromagnetic spring 62 which is fixedly connected with the inner wall of the rear side of the shifting block sliding groove 61 and controlled by an external control system is fixedly arranged on the end face of the rear side of the shifting block 60, the leftward and front-back symmetrical openings of the shifting block 60 extend into the first transmission cavity 20 to be connected with the two spline sleeves 59 in a rotating matching manner, a screw 17 which extends leftward is rotatably arranged on the inner wall of the left side of the first transmission cavity 20, second bevel gears 57 which are meshed with the two first bevel gears 58 are fixedly arranged on the screw 17, and the second bevel gears 57 penetrate through the inner wall of the left side of the first transmission cavity 20 leftward and are connected with the end face of the connecting block 15 in a rotating matching manner.

Beneficially, the part of the screw 17 located between the connecting block 15 and the transmission block 21 is engaged with a sliding block 18 through a threaded hole 64, a limiting rod sliding groove 19 is formed in the sliding block 18 in a left-right through manner, a limiting rod 16 fixedly connected with the end surface of the right side of the connecting block 15 and the end surface of the left side of the transmission block 21 is slidably arranged in the limiting rod sliding groove 19, a second transmission cavity 24 with an upward opening is formed in the bottom wall of the threaded hole 64, a first transmission shaft 25 is rotatably arranged on the left and right inner walls of the second transmission cavity 24, a third belt pulley 22 which is bilaterally symmetrical and a meshing gear 26 which is positioned on the left side of the third belt pulley 22 and engaged with the screw 17 are fixedly arranged on the first transmission shaft 25, a hook 23 is fixedly arranged on the end surface of the right side of the sliding block 18, and a rotating cavity 71 with a, a rotating block 72 is rotatably arranged in the rotating block rotating cavity 71, a winding cavity 74 with a downward opening is arranged in the rotating block 72 in a left-right through mode, an adhesive tape cavity 70 with a downward opening is rotatably arranged on the top wall in the winding cavity 74, an adhesive tape roll rotating shaft 69 is rotatably arranged on the inner wall of the right side of the adhesive tape cavity 70, an adhesive tape roll 68 is assembled on the adhesive tape roll rotating shaft 69, external meshing teeth 73 are fixedly arranged on the annular end surface of the rotating block 72 far away from the center of the winding cavity 74, third transmission cavities 66 which are symmetrical in the front-back direction and open towards the center of the rotating block rotating cavity 71 are arranged on the front-back inner wall of the rotating block rotating cavity 71, second transmission shafts 67 are rotatably arranged on the left-right inner wall of the third transmission cavities 66, a transmission gear 65 meshed with the external meshing teeth 73 and a fourth belt pulley 92 positioned on the right side of the transmission gear 65, the fourth belt pulley 92 is connected with the third belt pulley 22 in a transmission fit manner through a transmission belt.

Beneficially, the downside be equipped with the ascending butt chamber 81 of opening on the clamping piece 13 front side end face, the upside fixed be equipped with on the clamping piece 13 bottom end face with the first board 80 that colludes of butt chamber 81 matched with, the butt chamber 81 rotates about in and is equipped with colludes the board axle 83, collude on the board axle 83 top end face fixed be equipped with first board 80 matched with second that colludes board 82, collude on the board axle 83 bottom end face fixed be equipped with button 84, button 84 with the second collude on the board 82 right side inner wall fixed be equipped with butt chamber 81 right side inner wall fixed connection's torsional spring.

In an initial state, the sliding block 18 is located at a right limit position, the clamping block 13 is located at the right limit position under the action of the clamping block electromagnetic spring 12, the first detecting block 30 is located at a lower limit position under the action of the first detecting block electromagnetic spring 32, the piston 38 is located at a lower limit position under the action of the piston spring 40, the liquid storage chamber 35 is filled with full water, the heat collecting plate 43 is located at a rear limit position, the dial block 60 is located at a front limit position under the action of the dial block electromagnetic spring 62, so that the spline housing 59 at the rear side is engaged with the spline housing 59 at the rear side, the second detecting block 76 is located at a lower limit position under the action of the second detecting block electromagnetic spring 77, the second hook plate 82 and the button 84 are in a vertical state under the action of the torsion spring, the blocking block 86 is located at a left limit position under the action of the blocking block electromagnetic spring 88 to block the vent 85, the solenoid valve is in a closed state.

When the device works, two ends of the cable connector penetrate through the clamping opening 52 and the winding cavity 74, the cable connector is aligned with the flame thrower 54, the metal wires exposed on two sides of the cable connector are aligned with the first metal sheet 28 and the second metal sheet 75, the first detection block electromagnetic spring 32 and the second detection block electromagnetic spring 77 are started through the control system, the first metal sheet 28 and the first detection block 30 are enabled to move upwards under the action of the first detection block electromagnetic spring 32, the second metal sheet 75 and the second detection block 76 are enabled to move upwards under the action of the second detection block electromagnetic spring 77, the second metal sheet 75 and the first detection block electromagnetic spring 32 are enabled to be abutted against the metal wires exposed on two sides of the cable connector, the first circuit forms a loop, the battery 31 supplies power to the first circuit, the electrode 90 electrolyzes water in the liquid storage cavity 35, and hydrogen and oxygen are generated in the electrode cavity 91, therefore, the pressure in the electrode cavity 91 and the liquid storage cavity 35 is increased, and after the power is on for unit time, whether the resistance is qualified after the cable connector is connected can be judged according to the pressure in the electrode cavity 91 and the liquid storage cavity 35;

when the pressure in the liquid storage cavity 35 and the electrode cavity 91 is increased, the piston 38 is pushed to move upwards to compress the piston spring 40, the piston push rod 39 moves upwards, if the cable joint is connected to be larger, the current in the first circuit is smaller, the power of electrolyzed water is smaller, so that the oxygen and hydrogen produced in the electrode cavity 91 and the liquid storage cavity 35 after the power is on for unit time are insufficient, the pressure in the electrode cavity 91 and the liquid storage cavity 35 is insufficient, the piston 38 cannot be abutted to a signal block on the inner top wall of the push rod sliding groove 36, a control system gives an alarm to inform an operator to recheck whether the cable connection is abnormal or the cable joint is replaced, the electromagnetic valve trouble-free exhaust pipeline 89 is opened to communicate the electrode cavity 91, the hydrogen and the oxygen in the electrode cavity 91 are recovered, and the water filling device 34 is started to fill water to an initial state;

when the piston push rod 39 moves upwards to make the piston 38 abut against the signal block on the inner top wall of the push rod chute 36, it indicates that the cable joint resistance is normal, the control system controls the first detecting block electromagnetic spring 32 and the second detecting block electromagnetic spring 77 to stop working, so that the first detecting block 30 and the second metal sheet 75 are reset downwards, the control system starts the clamping block electromagnetic spring 12, so that the clamping block 13 moves leftwards under the action of the clamping block electromagnetic spring 12, the lower end of the adhesive tape on the adhesive tape roll 68 is stuck on the protective layer of the cable on the right side of the cable joint, the protective layer to be sleeved on the cable joint is hooked on the hook 23, the heat collecting plate 43 is pushed forwards to the front limit position by the handle, the cut-off block electromagnetic spring 88 is controlled by the control system to work, the cut-off block 86 is contracted into the cut-off block chute 87, so that the hydrogen and oxygen in the electrode cavity 91 are poured into the flame thrower 54 through the vent 85, the burner 54 is ignited to heat the heat collecting plate 43, so that heat is transferred into the stirling engine 50 through the heat collecting plate 43 and the heat collecting and conducting block 41, the stirling engine 50 is operated to drive the fan shaft 45 to rotate, the fan shaft 45 rotates to drive the first pulley 46 and the fan 44 to rotate, heat in the stirling engine 50 is transferred into the outside through the heat radiating and conducting block 49 and the heat radiating fin 48, and the rotating fan 44 is matched to complete heat radiation, so as to ensure the continuous operation of the stirling engine 50, the first pulley 46 rotates to drive the second pulley 63 to rotate, so as to drive the spline housing 59 coaxial with the second pulley 63 to rotate, the spline housing 59 on the rear side rotates to drive the first bevel gear 58 on the rear side engaged therewith to rotate, so as to rotate the second bevel gear 57 engaged with the first bevel gear 58 on the rear side in a forward direction, the second bevel gear 57 drives the screw 17 in a forward direction, so as to enable the sliding block 18 engaged with the screw 17, the screw 17 rotates to drive the meshing gear 26 meshed with the screw to rotate, so as to drive the third belt wheel 22 coaxial with the meshing gear 26 to rotate, the third belt wheel 22 rotates to drive the fourth belt wheel 92 to rotate, so as to drive the transmission gear 65 coaxial with the fourth belt wheel 92 to rotate, the transmission gear 65 rotates to drive the rotating block 72 to rotate through the external meshing gear 73 meshed with the transmission gear, the sliding block 18 is matched to move leftwards to enable the adhesive tape on the adhesive tape roll 68 to be wound on the cable connector, the sliding block 18 is matched to move leftwards to drive the hook 23 to move leftwards to enable the cable protective sleeve to move leftwards to cover the cable connector which is wound, the wrapping of the cable connector and the metal wires exposed outside is completed, after the sliding block 18 moves leftwards to the left limit position, the adhesive tape is cut, the cable protective sleeve is taken off from the hook 23, the shifting block electromagnetic spring 62 drives the shifting block 60 to move backwards through the control, thereby causing the spline housing 59 to move backward, causing the front spline housing 59 to engage with the front first bevel gear 58, causing the rear spline housing 59 to disengage from the rear first bevel gear 58, causing the upper front spline housing 59 to rotate to drive the front first bevel gear 58 to rotate, thereby driving the second bevel gear 57 engaged with the front first bevel gear 58 to rotate reversely, causing the second bevel gear 57 to rotate reversely to drive the screw 17 to rotate reversely, thereby causing the slide block 18 to move rightward and return to the initial state, pulling the heat collecting plate 43 backward by the handle to return, thereby causing the flame sprayed from the burner 54 to directly heat the protective sheath, causing the protective sheath to contract and tighten around the cable joint, repeating the above actions when more protective sheaths are required, completing the detection and post-protection treatment of the cable joint, pressing the button 84 backward, causing the second hook plate 82 to move forward and disengage from the first hook plate 80, the clamping block 13 on the upper side is opened upwards, and the cable is taken down.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a conductive cable interface detects aftertreatment terminal, includes the casing, its characterized in that: the end face of the top of the shell is fixedly provided with a fixed plate, the end face of the front side of the fixed plate is fixedly provided with a connecting block and a transmission block positioned on the right side of the connecting block, the end face of the top of the shell is provided with a clamping block chute with an upward opening, a flame thrower cavity with an upward opening and positioned on the right side of the clamping block chute, and a first detection cavity with an upward opening and positioned on the right side of the flame thrower cavity, the bottom wall of the flame thrower cavity is fixedly provided with a flame thrower for ignition, and the bottom wall of the flame; the inner wall of the right side of the liquid storage cavity is fixedly provided with a water filling device communicated with external water filling equipment, the top wall of the liquid storage cavity is provided with bilateral symmetry electrode cavities with downward openings and a piston cavity with downward openings between the two electrode cavities, a piston is arranged in the piston cavity in a sliding manner, the end surface of the top of the piston is fixedly provided with a piston spring fixedly connected with the top wall of the piston cavity, the top wall of the piston cavity is provided with a push rod chute with downward openings, a piston push rod fixedly connected with the end surface of the top of the piston is arranged in the push rod chute in a sliding manner, the top wall of the push rod chute is fixedly provided with a signal block matched with the piston push rod, the inner wall of the electrode cavity far away from the center side of the piston cavity is fixedly provided with an electrode, and the top wall of the electrode cavity is provided with an air vent, a cut-off block chute with a leftward opening is formed in the inner wall of the right side of the air vent, a cut-off block is arranged in the cut-off block chute in a sliding manner, a cut-off block electromagnetic spring fixedly connected with the inner wall of the right side of the cut-off block chute is fixedly arranged on the end face of the right side of the cut-off block, when the piston push rod is abutted to the signal block, the cut-off block electromagnetic spring works to drive the cut-off block to contract to the cut-off block chute, an exhaust pipeline communicated with external gas recovery equipment is arranged on the top wall in the electrode cavity in a penetrating manner, an electromagnetic valve controlled by an external control system is fixedly arranged in the exhaust pipeline, a first detection block is arranged in the first detection cavity in a sliding manner, a first metal sheet is fixedly arranged on the end face of the top of the first detection block, and a first electric wire penetrating through the first, the first detection chamber comprises a first detection chamber inner wall and a first detection chamber inner wall, wherein the first detection chamber inner wall is fixedly provided with a battery, and the battery is arranged on the first detection chamber inner wall.

2. The conductive cable interface detection post-processing terminal of claim 1, wherein: the clamping block chute is internally provided with clamping block electromagnetic springs which extend upwards and are in vertical symmetry and are in running fit with each other through hinges in a sliding manner, the left end face of the clamping block on the lower side is fixedly provided with a clamping block electromagnetic spring fixedly connected with the inner wall of the left side of the clamping block chute, the end face of one side, close to each other, of the clamping block is provided with a clamping port in a left-right through manner, the inner bottom wall of the clamping port on the lower side is provided with a second detection cavity with an upward opening, a second detection block is arranged in the second detection cavity in a sliding manner, the top end face of the second detection block is fixedly provided with a second metal sheet, the bottom end face of the second metal sheet is electrically connected with a second electric wire penetrating through the second detection block and the inner bottom wall of the second detection cavity, and the bottom end face of the second detection block is fixedly provided with a second detection block electromagnetic spring which, the second metal sheet, the second wire, the two electrodes, the first metal sheet, the first wire and the battery are connected in series through a first circuit.

3. The conductive cable interface detection post-processing terminal of claim 1, wherein: a heat collecting plate sliding groove is arranged in the front and back of the fixing plate in a penetrating manner, a heat collecting plate matched with the flame sprayer is arranged in the heat collecting plate sliding groove in a sliding manner, heat insulating blocks for heat insulation are fixedly arranged on the front and back end faces of the heat collecting plate, a handle is fixedly arranged on the end face of the back side of the heat insulating block on the back side, a Stirling engine is fixedly arranged on the top wall in the heat collecting plate sliding groove, a heat collecting and conducting block abutted against the heat collecting plate is fixedly arranged on the end face of the bottom of the Stirling engine, a heat radiating and conducting block extending backwards is fixedly arranged on the end face of the top of the Stirling engine, a heat radiating fin for heat radiation is fixedly arranged on the end face of the bottom of the part of the heat radiating and conducting block extending backwards into the outside, a fan shaft extending backwards is dynamically connected on the end face of the back side, the fan shaft penetrates through the front inner wall and the rear inner wall of the belt wheel cavity and is connected with the belt wheel cavity in a rotating fit mode, a first belt wheel is fixedly arranged on the part, located in the belt wheel cavity, of the fan shaft, and a fan matched with the radiating fins is fixedly arranged on the part, extending into the outside, of the fan shaft.

4. The conductive cable interface detection post-processing terminal of claim 3, wherein: the transmission block is internally provided with a first transmission cavity, a spline shaft is rotationally arranged on the front inner wall and the rear inner wall of the first transmission cavity, a second belt wheel is fixedly arranged on the spline shaft, the second belt wheel is in transmission fit connection with the first belt wheel through a transmission belt, spline sleeves which are in front-back symmetry with the second belt wheel are arranged on the spline shaft in a spline fit manner, first bevel gears which are in front-back symmetry with the spline sleeves are rotationally arranged on the spline shaft, first meshing teeth are fixedly arranged on the end surfaces of the spline sleeves, which are close to one side of the first bevel gears, second meshing teeth which are matched with the first meshing teeth are fixedly arranged on the end surfaces of the two sides, which are away from each other, of the first bevel gears, a shifting block chute with a left opening is arranged on the inner wall of the right side of the first transmission cavity, a shifting block with a left opening is arranged in the shifting block chute, and a shifting block fixedly connected with the inner wall of the rear side of the The system control shifting block electromagnetic spring is characterized in that openings of the shifting block which are symmetrical leftwards and backwards extend into the first transmission cavity to be connected with the two spline sleeves in a matched manner, a screw rod extending leftwards is rotatably arranged on the inner wall of the left side of the first transmission cavity, a second bevel gear meshed with the two first bevel gears is fixedly arranged on the screw rod, and the second bevel gear penetrates through the inner wall of the left side of the first transmission cavity leftwards and is connected with the right end face of the connecting block in a matched manner.

5. The conductive cable interface detection post-processing terminal of claim 4, wherein: the part of the screw rod between the connecting block and the transmission block is engaged with a sliding block through a threaded hole, a limiting rod chute is arranged in the sliding block in a left-right through way, a limiting rod fixedly connected with the right end face of the connecting block and the left end face of the transmission block is arranged in the limiting rod chute in a sliding way, a second transmission cavity with an upward opening is arranged on the inner wall of the threaded hole, a first transmission shaft is arranged on the left inner wall and the right inner wall of the second transmission cavity in a rotating way, a third belt wheel which is bilaterally symmetrical and an engaging gear which is positioned on the left side of the third belt wheel and is engaged with the screw rod are fixedly arranged on the first transmission shaft, a hook is fixedly arranged on the right end face of the sliding block, a rotating block rotating cavity with a downward opening is arranged on the bottom end face of the sliding block, a rotating block is rotatably arranged, the winding intracavity roof is gone up to rotate and is equipped with the downward adhesive tape chamber of opening, it is equipped with adhesive tape book axis of rotation to rotate on the inner wall of adhesive tape chamber right side, be equipped with the adhesive tape book in the adhesive tape book axis of rotation, rotatory piece is kept away from the fixed external toothing that is equipped with on the ring terminal surface at winding chamber center, be equipped with symmetry and opening orientation around rotatory piece rotation chamber on the inner wall third transmission chamber at rotatory piece rotation chamber center, it is equipped with the second transmission shaft to rotate on the inner wall about the third transmission chamber, fixed be equipped with on the second transmission shaft with the drive gear of external toothing engaged with and be located the fourth band pulley on drive gear right side, the fourth band pulley with be connected through drive belt transmission cooperation between the third band pulley.

6. The conductive cable interface detection post-processing terminal of claim 2, wherein: the downside be equipped with the ascending butt chamber of opening on the clamping piece front side end face, the upside fixed be equipped with on the clamping piece bottom end face with butt chamber matched with first colludes the board, it is equipped with and colludes the board axle to rotate on the butt chamber left and right sides, collude on the board axle top terminal surface fixed be equipped with first collude board matched with second and collude the board, collude on the board axle bottom end face fixed be equipped with the button, the button with the second collude on the board right side inner wall fixed be equipped with butt chamber right side inner wall fixed connection's torsional spring.