CN115132503A - Aluminum foil deviation early warning equipment for automatic winder of aluminum electrolytic capacitor - Google Patents

Abstract

The invention discloses aluminum foil deviation early warning equipment for an automatic winder of an aluminum electrolytic capacitor, which comprises a machine body, wherein two inlets and outlets are symmetrically formed in the side wall of the machine body, two audible and visual alarms are symmetrically arranged on the upper surface of the machine body, four fixed sliding rods are symmetrically arranged in the machine body, a compression roller device is slidably arranged on each fixed sliding rod, a steering column is rotatably arranged on one side, close to the inner wall of the machine body, of each compression roller device, a sliding hole is formed in each steering column, and a conductive sliding rod is slidably inserted in front of two sliding holes with the same height. According to the invention, the transverse offset of the aluminum foil is detected in real time, so that the winder can perform early warning and stop checking on the offset condition of the aluminum foil in time, and can stop the winder in time when the offset warning occurs, thereby avoiding the generation of more unqualified capacitors, and enabling the winder to produce the capacitors by winding more reliably and save more energy.

Description

Aluminum foil deviation early warning equipment for automatic winder of aluminum electrolytic capacitor

Technical Field

The invention relates to the technical field of aluminum foil deviation early warning of winding machines, in particular to aluminum foil deviation early warning equipment for an automatic winding machine of an aluminum electrolytic capacitor.

Background

The automatic winding machine of the existing aluminum electrolytic capacitor cannot detect and early warn the state of the aluminum foil when the aluminum foil is wound, namely, when the aluminum foil is wound in a deviation manner, the two ends of the capacitor are inconsistent, the capacitor fails, and the existing winding machine cannot give an alarm in time to prompt an operator and cannot be stopped in time to cause a large amount of aluminum foil jig dyeing waste when the aluminum foil is deviated.

Disclosure of Invention

The invention aims to solve the problems that the aluminum foil winding deviation cannot be detected and alarmed in time and the winding cannot be stopped in time in the prior art, and provides aluminum foil deviation early warning equipment for an automatic winding machine of an aluminum electrolytic capacitor.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a skew early warning equipment of aluminium foil for automatic winder of aluminum electrolytic capacitor, includes the organism, two imports and exports have been seted up to the symmetry on the lateral wall of organism, two audible-visual annunciators are installed to the upper surface symmetry of organism, four fixed slide bars are installed to the symmetry in the organism, every equal slidable mounting has a compression roller on the fixed slide bar, every one side that the compression roller is close to the organism inner wall all rotates and installs the steering column, every all seted up the slide opening on the steering column, two of the same height slide opening is preceding to slide jointly and is inserted and be equipped with electrically conductive slide bar, fixed mounting has the controller on the lateral wall of organism, symmetrical mounting has four right angle spool on the controller, every one side that the right angle spool is close to the organism is equallyd divide and is do not installed left probe and right probe, every left probe and right probe are located the both sides that correspond electrically conductive slide bar respectively, it is a plurality of two audible-visual annunciators of difference electric connection and controller are equallyd divide to left side probe and a plurality of right probe, two terminals are installed to the symmetry on the lateral wall of controller.

Further, every the compression roller all includes that the slip cap establishes the roller shell on fixed slide bar, every all rotate in the roller shell and install the running roller, every equal fixed mounting has microgenerator, every on the lateral wall of roller shell the even roller fixed connection that corresponds the running roller of microgenerator's bent axle, every the equal electric connection controller of microgenerator, every equal symmetrical cover is equipped with the positioning spring that both ends were fixed respectively on roller shell and organism inner wall on the fixed slide bar.

Furthermore, one of the left probe with the same height is sequentially connected with one of the audible and visual alarm, the controller and the other left probe with the same height in series, one of the right probe with the same height is sequentially connected with the other audible and visual alarm, the controller and the other right probe with the same height in series, the left probe and the two probes on the lower layer are connected in series in a crossed manner, and the right probe and the two probes on the lower layer are connected in series in a crossed manner.

Further, two current conducting plates are symmetrically installed on the inner wall of the controller, each current conducting plate is fixedly connected with the corresponding current conducting plate and extends into the controller, each arc-shaped current conducting plate is fixedly installed at one end, far away from the inner wall of the controller, of each current conducting plate, and a current conducting magnetic ring is magnetically adsorbed at the lower end of each arc-shaped current conducting plate.

Furthermore, an annular electromagnetic disc is installed on the inner bottom wall of the controller, an insulating lock column is fixedly installed at the center, located on the annular electromagnetic disc, of the inner bottom wall of the controller, the annular electromagnetic disc is sleeved on the insulating lock column in a sliding mode, the magnetism of one end, close to the conductive magnetic ring, of the annular electromagnetic disc is opposite to the magnetism, close to the annular electromagnetic disc, of the conductive magnetic ring, and a plurality of lock holes are formed in the inner annular wall of the conductive magnetic ring in an annular symmetry mode.

Furthermore, the upper end of the insulating lock column is provided with a pressure groove, a reset pressure button is inserted in the pressure groove in a sliding way, the upper end of the reset press button extends to the outer side of the controller, the lower end of the reset press button is fixedly provided with a press rod, the diameter of the pressure rod is smaller than that of the reset pressure button, the insulating lock column is arranged below the pressure groove and is provided with a lock cavity, the lower end of the pressure lever extends into the lock cavity in a sliding manner and is fixedly provided with a limiting magnetic lock cylinder, the outer side wall of the limiting magnetic lock cylinder is provided with an annular sliding groove, the outer side wall of each insulating lock cylinder is provided with magnetic lock rods in an annular equidistant sliding manner, one end of each magnetic lock rod close to the lock cavity extends into the lock cavity and abuts against the shallower groove wall at the lower end of the annular sliding groove, and a section of the pressing rod positioned in the pressing groove is sleeved with a return spring, and two ends of the return spring are respectively fixed on the return pressing button and the inner wall of the pressing groove.

Has the advantages that: through detecting the lateral offset of the aluminum foil in real time, the winding machine can timely carry out early warning and shutdown inspection on the offset condition of the aluminum foil, and can timely shut down the winding machine when the offset alarm occurs, so that more unqualified capacitors are prevented from being produced, and the winding machine can more reliably and more energy-saving in winding production of the capacitors.

Drawings

FIG. 1 is a schematic structural diagram of an aluminum foil deviation warning device for an automatic winder of an aluminum electrolytic capacitor according to the present invention;

FIG. 2 is a side view of an aluminum foil deviation pre-warning device for an automatic winder of an aluminum electrolytic capacitor according to the present invention;

FIG. 3 is an enlarged view of a part of the structure of a controller of the aluminum foil deviation early warning device for the automatic winder of the aluminum electrolytic capacitor, which is provided by the invention;

fig. 4 is an enlarged view of a part of the structure of an insulating lock cylinder of the aluminum foil deviation early warning device for the automatic winder of the aluminum electrolytic capacitor provided by the invention.

In the figure: 1 machine body, 11 inlet and outlet, 12 audible and visual alarms, 2 fixed slide bar, 21 positioning spring, 3 press roll devices, 31 roll sleeve, 32 roll wheel, 33 micro generator, 4 steering column, 41 slide hole, 42 conductive slide bar, 5 controller, 51 wiring post, 52 conductive plate, 53 arc conductive magnetic plate, 54 annular electromagnetic disk, 6 right angle line pipe, 61 left probe, 62 right probe, 7 insulating lock column, 71 press groove, 72 reset press button, 73 press rod, 74 reset spring, 75 lock cavity, 76 limit magnetic lock column, 77 annular slide groove, 78 magnetic lock rod, 8 conductive magnetic ring, 81 lock hole.

Detailed Description

Referring to fig. 1 and 2, an aluminum foil deviation early warning device for an automatic winder of an aluminum electrolytic capacitor comprises a machine body 1, two inlets and outlets 11 are symmetrically arranged on the side wall of the machine body 1, two audible and visual alarms 12 are symmetrically arranged on the upper surface of the machine body 1, four fixed slide bars 2 are symmetrically arranged in the machine body 1, a press roller 3 is slidably arranged on each fixed slide bar 2, a steering column 4 is rotatably arranged on one side of each press roller 3 close to the inner wall of the machine body 1, a slide hole 41 is arranged on each steering column 4, a conductive slide bar 42 is slidably inserted in front of the two slide holes 41 at the same height, a controller 5 is fixedly arranged on the outer side wall of the machine body 1, four right-angle line pipes 6 are symmetrically arranged on the controller 5, a left probe 61 and a right probe 62 are respectively arranged on one side of each right-angle line pipe 6 close to the machine body 1, each left probe 61 and each right probe 62 are respectively arranged on two sides of the corresponding conductive slide bar 42, a plurality of left probes 61 and a plurality of right probes 62 are respectively electrically connected with two audible and visual alarms 12 and the controller 5, and two binding posts 51 are symmetrically installed on the side wall of the controller 5.

The aluminum foil on the winding machine penetrates through the inlet and outlet 11, the aluminum foil is positioned between the upper compression roller 3 and the lower compression roller 3, the upper compression roller 3 and the lower compression roller 3 are tightly pressed on the surface of the aluminum foil, the controller 5 is connected with a control system of the winding machine, and the two wiring terminals 51 are connected with a starting switch of the winding machine, so that the emergency stop of the winding machine can be controlled by equipment conveniently, and the excessive deviation winding is avoided;

when the aluminum foil deviates, the aluminum foil generates transverse displacement, the roller press 3 is pushed to slide on the fixed slide rod 2 through transverse friction force, the roller press 3 is made to drive the steering column 4 to move, the steering column 4 is made to drive the conductive slide rod 42 to move and contact the left probe 61 or the right probe 62, two left probes 61 or two right probes 62 at the same height are made to be conducted, the audible and visual alarm 12 can be electrified to alarm, real-time detection of aluminum foil deviation and timely alarm prompt after deviation are realized, and non-specification winding is avoided;

when two left probes 61 or two right probes 62 of same height or homonymy longitudinal symmetry switch on, controller 5 detects the signal of switching on, then controller 5 can control two terminal 51 disconnection, make the winder in time stop, increase the scram protect function of equipment, steering column 4 can the relative slip with electrically conductive slide bar 42, make two compression roller 3 of same height can drive steering column 4 at the different region of skew distance and remove unequal distance, avoid two compression roller 3 mutual interference of same height to lead to electrically conductive slide bar 42 to be difficult to remove, can make the skew detect more sensitive promptly, and can avoid compression roller 3 and aluminium foil to produce sliding friction and influence the aluminium foil quality.

Referring to fig. 1 and 2, each roller 3 includes a roller sleeve 31 slidably sleeved on the fixed slide bar 2, a roller 32 is rotatably installed in each roller sleeve 31, a micro generator 33 is fixedly installed on the outer side wall of each roller sleeve 31, the shaft of each micro generator 33 uniformly corresponds to the roller shaft of the roller 32, each micro generator 33 is electrically connected with a controller 5, and each fixed slide bar 2 is symmetrically sleeved with a positioning spring 21 with two ends fixed on the inner walls of the roller sleeve 31 and the machine body 1.

Compression roller 3 that distributes from top to bottom compresses tightly the aluminium foil through running roller 32, then during the aluminium foil is carried and is removed, can promote running roller 32 through frictional force and roll, then can make microgenerator 33 generate electricity, realize controller 5 from the power supply function, reduce the equipment energy consumption, and the aluminium foil skew forms the branch displacement along the axial, then can promote running roller 32 and drive roller shell 31 axial displacement, roller shell 31 rotates with steering column 4 to be connected, then can promote steering column 4 along running roller 32 axial displacement, and roller shell 31 compression positioning spring 21, positioning spring 21 passes through the elasticity that both sides equal with compression roller 3 between two parties, reduce compression roller 3 and detect the self error of aluminium foil skew, increase the degree of accuracy that detects.

Referring to fig. 1 and 2, one of the left probes 61 at the same height is sequentially connected in series with one of the audible and visual annunciators 12, the controller 5 and the other left probe 61 at the same height, one of the right probes 62 at the same height is sequentially connected in series with the other audible and visual annunciator 12, the controller 5 and the other right probe 62 at the same height, the two left probes 61 at the upper layer are cross-connected in series with the two left probes 61 at the lower layer, and the two right probes 62 at the upper layer are cross-connected in series with the two right probes 62 at the lower layer.

When the steering column 4 of the upper and lower side promotes two conductive slide bars 42 and moves two left probes 61 of contact co-altitude or two left probes 61 from top to bottom, the series circuit at left probe 61 place switches on, make left side audible-visual annunciator 12 alarm suggestion, when the steering column 4 of the upper and lower side promotes two conductive slide bars 42 and moves two right probes 62 of contact co-altitude or two right probes 62 from top to bottom, the series circuit at right probe 62 place switches on, make right side audible-visual annunciator 12 alarm suggestion, can be according to the skew direction of two audible-visual annunciators 12 snap judgments aluminium foil on left and right sides promptly, and can realize that the horizontal deviation of aluminium foil strip both ends detects and one end is the detection of angular deviation, the operating personnel of being convenient for in time adjusts the aluminium foil state according to the skew direction.

Referring to fig. 3, two conductive plates 52 are symmetrically installed on the inner wall of the controller 5, one end of each terminal 51 extends into the controller 5 and is fixedly connected to the corresponding conductive plate 52, an arc-shaped conductive magnetic plate 53 is fixedly installed at one end of each conductive plate 52 far away from the inner wall of the controller 5, and a conductive magnetic ring 8 is magnetically adsorbed at the lower ends of the two arc-shaped conductive magnetic plates 53 together.

Two terminals 51 are connected to the starting switch of winder, and two terminals 51 lead electromagnetic plate 53 and electrically conductive magnetic ring 8 through two current conducting plates 52, two arcs and switch on, and the arc is led electromagnetic plate 53 and is led the magnetic ring 8 and lead the magnetic ring and switch on for adsorbing the contact, and when electrically conductive magnetic ring 8 breaks away from two arcs and leads electromagnetic plate 53, two arcs are led the disconnection of electromagnetic plate 53, make two terminals 51 disconnection, then the starting switch disconnection of winder is closed.

Referring to fig. 3, an annular electromagnetic disc 54 is installed on the inner bottom wall of the controller 5, an insulating lock column 7 is fixedly installed on the inner bottom wall of the controller 5, which is located at the center of the annular electromagnetic disc 54, the annular electromagnetic disc 54 is slidably sleeved on the insulating lock column 7, the magnetism of one end of the annular electromagnetic disc 54 close to the conductive magnetic ring 8 is opposite to the magnetism of the conductive magnetic ring 8 close to the annular electromagnetic disc 54, and a plurality of lock holes 81 are annularly and symmetrically formed in the inner bottom wall of the conductive magnetic ring 8.

When the aluminium foil takes place the skew and reports to the police, controller 5 makes annular electromagnetism dish 54 circular telegram, and when circular electromagnetism dish 54 circular telegram produced magnetic force, electrically conductive magnetic ring 8 was attracted and is moved down, makes electrically conductive magnetic ring 8 and two arc-shaped electrically conductive magnetic plates 53 separation, can promptly stop the winder operation when the aluminium foil squints, avoids follow-up aluminium foil to wind the skew that appears, increases the reliability of winder.

Referring to fig. 3 and 4, a pressure groove 71 is formed in the upper end of the insulating lock cylinder 7, a reset pressure button 72 is slidably inserted in the pressure groove 71, the upper end of the reset pressure button 72 extends to the outer side of the controller 5, a pressure rod 73 is fixedly mounted at the lower end of the reset pressure button 72, the diameter of the pressure rod 73 is smaller than that of the reset pressure button 72, a lock cavity 75 is formed below the insulating lock cylinder 7, the lower end of the pressure rod 73 extends into the lock cavity 75 in a sliding manner and is fixedly mounted with a limiting magnetic lock cylinder 76, an annular sliding groove 77 is formed in the outer side wall of the limiting magnetic lock cylinder 76, magnetic lock rods 78 are slidably inserted on the outer side wall of each insulating lock cylinder 7 in an annular equal distance manner, one end of each magnetic lock rod 78, which is close to the lock cavity 75, extends into the lock cavity 75 and abuts against the lower shallow groove wall of the annular sliding groove 77, and a section of the pressure rod 73, which is located in the pressure groove 71, is sleeved with a reset spring 74, two ends of which are respectively fixed on the inner walls of the reset pressure button 72 and the pressure groove 71.

The magnetic lock rod 78 is made of ferromagnetic material, that is, the magnetic lock rod 78 itself has no magnetism, the limit magnetic lock column 76 can generate attraction force to the magnetic lock rod 78, and only the outer side wall of the limit magnetic lock column 76 has magnetic force, and the magnetic attraction force of the limit magnetic lock column 76 to the magnetic lock rod 78 is greater than that of the conductive magnetic ring 8 to the magnetic lock rod 78, when the conductive magnetic ring 8 is attracted and contacted by the annular electromagnetic disk 54, the annular electromagnetic disk 54 first presses the magnetic lock rod 78, so that the magnetic lock rod 78 moves into the lock cavity 75, the magnetic lock rod 78 can press the limit magnetic lock column 76 to move downwards through the inclined surface of the annular sliding groove 77, one end of the magnetic lock rod 78 located in the lock cavity 75 enters the deeper part of the annular sliding groove 77, so that the magnetic lock rod 78 retracts into the lock cavity 75, and when the limit magnetic lock column 76 moves downwards, the press rod 73 moves downwards, so that the reset press button 72 moves downwards and compresses the reset spring 74, when the locking hole 81 is aligned with the magnetic locking rod 78, the magnetic locking rod 78 loses pressure, the return spring 74 pushes the return press button 72 to move upwards and pulls the press rod 73 to move upwards, so that the limiting magnetic lock column 76 moves upwards and pushes the magnetic locking rod 78 out in an extruding manner, the magnetic locking rod 78 is inserted into the locking hole 81 to realize self-locking, and the annular electromagnetic disc 54 can be powered off at the moment to reduce energy consumption;

after the aluminium foil skew is solved, press the button 72 that resets and make depression bar 73 move down and promote spacing magnetism lock post 76 move down, make magnetism lock post 78 get into annular spout 77's deeper department gradually under spacing magnetism lock post 76's attraction, make and to make electrically conductive magnetic ring 8 lose magnetism lock post 78's locking, make electrically conductive magnetic ring 8 and two arcs lead electromagnet plate 53 inter attraction and move up and lead electromagnet plate 53 contact with two arcs, make two terminals 51 switch on, can reset the operation fast, be convenient for get into the guard mode once more.

The aluminum foil on the winding machine passes through the inlet and outlet 11, the aluminum foil position is pressed by the upper and lower rollers 32, the controller 5 is connected with a control system of the winding machine, and the two wiring terminals 51 are connected with a starting switch of the winding machine;

when the aluminum foil deviates, the aluminum foil generates transverse displacement, the roller 32 is pushed by transverse friction to drive the roller sleeve 31 to transversely move on the fixed slide bar 2, so that the steering column 4 drives the conductive slide bar 42 to transversely move and contact the left probe 61 or the right probe 62, the circuit where the left probe 61 or the right probe 62 is located is conducted, and the audible and visual alarm 12 on the corresponding side gives an alarm prompt;

when the audible and visual alarm 12 is switched on for alarming, the controller 5 detects a corresponding current signal, the controller 5 enables the annular electromagnetic disc 54 to be electrified to generate magnetic force, and the annular electromagnetic disc 54 attracts the conductive magnetic ring 8 to move downwards to separate from the two arc-shaped conductive electromagnetic plates 53, so that the two wiring terminals 51 are disconnected, and the winder is stopped in time;

when the lock hole 81 is aligned with the magnetic lock rod 78, the magnetic lock rod 78 loses pressure, the reset spring 74 pushes the reset pressure button 72 to move upwards and pulls the pressure rod 73 to move upwards, so that the limit magnetic lock rod 76 moves upwards and pushes the magnetic lock rod 78 out, and the magnetic lock rod 78 is inserted into the lock hole 81 to be self-locked;

after the aluminum foil is deviated, the reset press button 72 is pressed to enable the press rod 73 to move downwards and push the limiting magnetic lock column 76 to move downwards, so that the magnetic lock rod 78 gradually enters the deeper part of the annular sliding groove 77 under the attraction of the limiting magnetic lock column 76, the conductive magnetic ring 8 is enabled to lose the locking of the magnetic lock rod 78, the conductive magnetic ring 8 and the two arc-shaped conductive magnetic plates 53 are enabled to mutually attract and move upwards and are in contact with the two arc-shaped conductive magnetic plates 53, the two wiring terminals 51 are enabled to be conducted, and the starting switch of the winding machine can be normally controlled to be started and operated.

Claims (6)

1. The utility model provides an aluminium foil skew early warning equipment for automatic winder of aluminum electrolytic capacitor, includes organism (1), its characterized in that, two exit (11) have been seted up to the symmetry on the lateral wall of organism (1), two audible-visual annunciators (12) are installed to the upper surface symmetry of organism (1), four fixed slide bar (2) are installed to organism (1) internal symmetry, every equal slidable mounting has compression roller (3) on fixed slide bar (2), every compression roller (3) are close to one side of organism (1) inner wall and all rotate and install steering column (4), every slide opening (41) have all been seted up on steering column (4), two of the same height slide opening (41) are slided jointly before and are inserted and are equipped with electrically conductive slide bar (42), fixed mounting has controller (5) on the lateral wall of organism (1), four right angle spool (6) are installed to the symmetry on controller (5), every right angle spool (6) are close to one side of organism (1) and equally divide and do not install left probe (61) and right probe (62), every left side probe (61) and right probe (62) are located the both sides that correspond electrically conductive slide bar (42) respectively, and are a plurality of two audible-visual annunciators of other electric connection (12) and controller (5) are equally divided to left side probe (61) and a plurality of right probe (62), two terminal (51) are installed to the symmetry on the lateral wall of controller (5).

2. The aluminum foil deviation early warning device for the automatic winder of the aluminum electrolytic capacitor as recited in claim 1, wherein each of the roller devices (3) comprises a roller sleeve (31) slidably sleeved on the fixed sliding rod (2), each of the roller sleeves (31) is internally provided with a roller (32) in a rotating manner, each of the outer side walls of the roller sleeves (31) is fixedly provided with a micro generator (33), each of the shafts of the micro generators (33) uniformly corresponds to the roller shaft of the roller (32) and is fixedly connected with the roller shaft, each of the micro generators (33) is electrically connected with the controller (5), and each of the fixed sliding rods (2) is symmetrically sleeved with a positioning spring (21) with two ends respectively fixed on the inner walls of the roller sleeve (31) and the machine body (1).

3. The aluminum foil deviation early warning device for the automatic winder of the aluminum electrolytic capacitor as claimed in claim 1, wherein one of the left probes (61) at the same height is sequentially connected in series with one of the audible and visual alarm (12) and the controller (5) and the other left probe (61) at the same height, one of the right probes (62) at the same height is sequentially connected in series with the other audible and visual alarm (12) and the controller (5) and the other right probe (62) at the same height, the two left probes (61) at the upper layer are cross-connected in series with the two left probes (61) at the lower layer, and the two right probes (62) at the upper layer are cross-connected in series with the two right probes (62) at the lower layer.

4. The aluminum foil deviation early warning device for the automatic winding machine of the aluminum electrolytic capacitor as claimed in claim 1, wherein two conductive plates (52) are symmetrically installed on the inner wall of the controller (5), one end of each binding post (51) extends into the controller (5) and is fixedly connected with the corresponding conductive plate (52), one end of each conductive plate (52) far away from the inner wall of the controller (5) is fixedly installed with an arc-shaped conductive magnetic plate (53), and the lower ends of the two arc-shaped conductive magnetic plates (53) are magnetically adsorbed with a conductive magnetic ring (8) together.

5. The aluminum foil deviation early warning device for the automatic winding machine of the aluminum electrolytic capacitor as recited in claim 4, wherein an annular electromagnetic disc (54) is installed on an inner bottom wall of the controller (5), an insulating lock column (7) is fixedly installed on the inner bottom wall of the controller (5) and located at the center of the annular electromagnetic disc (54), the annular electromagnetic disc (54) is slidably sleeved on the insulating lock column (7), the magnetism of one end of the annular electromagnetic disc (54) close to the conductive magnetic ring (8) is opposite to the magnetism of the conductive magnetic ring (8) close to the annular electromagnetic disc (54), and a plurality of locking holes (81) are annularly and symmetrically formed on an inner ring wall of the conductive magnetic ring (8).

6. The aluminum foil deviation early warning device for the automatic winder of the aluminum electrolytic capacitor as recited in claim 5, wherein a pressure groove (71) is formed at the upper end of the insulating lock cylinder (7), a reset button (72) is slidably inserted into the pressure groove (71), the upper end of the reset button (72) extends to the outside of the controller (5), a pressure lever (73) is fixedly installed at the lower end of the reset button (72), the diameter of the pressure lever (73) is smaller than that of the reset button (72), a lock cavity (75) is formed below the pressure groove (71) of the insulating lock cylinder (7), a limit magnetic lock cylinder (76) is fixedly installed in the lock cavity (75) in a sliding manner at the lower end of the pressure lever (73), an annular sliding groove (77) is formed on the outer side wall of the limit magnetic lock cylinder (76), and magnetic lock rods (78) are equally equidistantly slidably inserted on the outer side wall of each insulating lock cylinder (7), every magnetism locking lever (78) are close to the one end of lock chamber (75) and all extend to in lock chamber (75) and support on the shallower cell wall of the lower extreme of annular spout (77), a section cover that depression bar (73) are located in indent (71) is equipped with reset spring (74) that both ends were fixed respectively on returning pressure button (72) and indent (71) inner wall.

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