CN118156095A - But internet of things re-used's intelligent circuit breaker - Google Patents

Abstract

The invention belongs to the technical field of circuit breakers, and discloses an intelligent circuit breaker capable of being reused in the Internet of things; the novel cutting device comprises a shell, a limiting pipe is fixedly connected to the top end of the inner wall of the shell, the limiting pipe is communicated with the inside of the shell, a plugging groove is formed in the outer side of the shell, a base is fixedly connected to the bottom end of the inner wall of the shell, three groups of cutting wheels are arranged on the top end of the base, and a pair of L-shaped racks are arranged in the shell. This device has realized not need personnel direct contact through the structural design of laminating mechanism, rotary mechanism and peeling mechanism, just can drive three group's cutting wheels through laminating mechanism and be close to the electric wire to and the cooperation between laminating mechanism and the rotary mechanism, make its rotary mechanism drive the insulating layer of cutting wheel cutting electric wire, make the insulating layer of its electric wire carry out the centre gripping separation through peeling mechanism at last, ingenious cooperation between the three, when improving device linkage, also improved the security when the electric wire skinned.

Description

But internet of things re-used's intelligent circuit breaker

Technical Field

The invention relates to the technical field of circuit breakers, in particular to an intelligent circuit breaker capable of being reused in the Internet of things.

Background

The circuit breaker is a key switching device and plays roles of shunting, switching on, bearing, breaking and the like in a circuit. When short circuit, overload, undervoltage and other conditions occur in the circuit, the circuit breaker can automatically cut off the circuit, so that the safety of the circuit and equipment is protected, and the intelligent circuit breaker with the internet of things and the reusable internet of things is the circuit breaker with the internet of things function and has the characteristics of remote monitoring, data recording and the like.

The existing intelligent circuit breaker is formed by a shell, a fixing hole, a plugging groove and the like, wherein the fixing hole is formed in the outer side of the shell, the plugging groove is formed in the top end of the shell, and the working process is as follows: firstly, detecting whether an electric wire core is electrified or not by using a test pencil, stripping an insulating layer on the outer side of an electric wire to expose an inner core when the electric wire core is not electrified, then inserting the electric wire core into the shell through a plugging slot, rotating a nut through a fixing hole bolt to enable the nut to extrude and fix the electric wire core, and then stirring a breaker switch, wherein when a short circuit occurs, a magnetic field generated by a large current (generally 10 to 12 times) overcomes a counter force spring, a release pulls an operating mechanism to act, the switch trips instantaneously, when overload occurs, the current becomes large, the heating value is increased, and a bimetallic strip deforms to a certain extent to push the mechanism to act, so that the switch trips; the larger the current, the shorter the action time, thereby completing the working process of the circuit breaker.

When the existing circuit breaker is used for fixing an electric wire, a worker needs to detect the core body inside the electric wire insulating layer by means of a test pencil and the like, when the core body is not in a non-electrified state, the operation such as stripping of the electric wire insulating layer can be performed, the worker possibly has negligence and omission detection, at the moment, the situation such as short circuit exists in the core body happens, the direct contact of the worker easily causes electric leakage, and further the personal safety of the worker is threatened, and meanwhile, the worker needs to use special tools when stripping the electric wire insulating layer, so that the stripping work is troublesome to a certain extent.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the intelligent circuit breaker capable of being reused for the Internet of things.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a repeatedly usable's of thing networking intelligent circuit breaker, includes the casing, the top rigid coupling of shells inner wall has spacing pipe, spacing pipe link up with the inside of casing mutually, the grafting groove has been seted up to the outside of casing, the bottom rigid coupling of shells inner wall has the base, the top of base is provided with three sets of cutting wheels, the inside of casing is provided with a pair of L shape rack, still includes;

The laminating mechanism is arranged in the shell and is used for driving the three groups of cutting wheels to be close to the electric wire;

the rotating mechanism is arranged below the three groups of cutting wheels and is used for driving the three groups of cutting wheels to cut the electric wires;

And the peeling mechanism is arranged between the first spur gear and the attaching mechanism and is used for removing the insulating layer of the electric wire.

Further, laminating mechanism includes the motor, the motor is fixedly connected with the inner wall of casing mutually, the output rigid coupling of motor has the worm, the outside meshing of worm has first spur gear, three sets of arc wall have been seted up to the inside of first spur gear, three sets of spouts have been seted up on the top of base, three sets of the inner wall of spout all fixedly connected with spacing round bar, the outside sliding connection of spacing round bar has the stopper, the top of stopper rotates and is connected with the transfer line, the transfer line is in the inside of arc wall, the top of transfer line is fixedly connected with the bottom of cutting wheel mutually, the top rigid coupling of base has a pair of backup pad, a pair of backup pad all with the bottom sliding connection of first spur gear, the top rotation of first spur gear is connected with the tray.

Further, the rotating mechanism comprises three groups of second spur gears, the three groups of second spur gears are fixedly connected to the outer sides of the three groups of transmission rods respectively, the second spur gears are located below the cutting wheels, the diameters of the second spur gears are the same as that of the transmission rods, a third spur gear is arranged on the outer side of the tray, and the third spur gear is fixedly connected with the top end of the first spur gear.

Further, the peeling mechanism comprises a clamping assembly and a transmission assembly, the clamping assembly comprises a fourth spur gear, a square rack is meshed on the outer side of the fourth spur gear, a pair of connecting blocks are fixedly connected on the top ends of the square racks, a pair of limiting square rods penetrate through the inside of the connecting blocks, a fixed plate is fixedly connected on one end of each limiting square rod, the fixed plate is fixedly connected with the top end of the inner wall of a shell, one end of each limiting square rod, far away from the fixed plate, is fixedly connected with the inner side wall of the shell, a linkage plate is fixedly connected on one end of each square rack, far away from the fourth spur gear, special-shaped gears are respectively provided with connecting plates, the bottom ends of the special-shaped gears are respectively connected with a bearing plate in a rotating mode, the bearing plates are fixedly connected with the inner side wall of the shell, a pair of the L-shaped racks are respectively meshed with rubber pads, the bottom ends of the L-shaped racks are respectively connected with limiting plates in a sliding mode, and the two ends of each limiting plate are fixedly connected with the inner side wall of the shell.

Further, the transmission assembly comprises a first sprocket and a second sprocket, the first sprocket is fixedly connected to the outer side of the output end of the motor, a chain is wound on the outer sides of the first sprocket and the second sprocket, a supporting rod is fixedly connected to the inner side of the second sprocket, a fourth spur gear is fixedly connected to the outer side of the supporting rod, and two ends of the supporting rod are rotatably connected with the inner side wall of the shell.

Further, the outside rigid coupling of limiting plate has first supporting shoe, the below of first supporting shoe is provided with the deflector, the deflector is the slope and puts, be provided with supporting mechanism between first supporting shoe and the deflector, supporting mechanism is used for supporting and spacing when the deflector removes.

Further, supporting mechanism includes the cylinder pole, the cylinder pole is fixedly connected with the inside wall of deflector mutually, the outside of cylinder pole rotates and is connected with the guide bar, the one end that the cylinder pole was kept away from to the guide bar is provided with the hollow tube, guide bar sliding connection is in the inside of hollow tube, the rigid coupling has extension spring between guide bar and the hollow tube, the one end that the guide bar was kept away from to the hollow tube is articulated mutually with the bottom of first supporting shoe, the both sides of deflector all rigid coupling has the curb plate, the one end that the deflector was kept away from to the curb plate rotates and is connected with the bearing bar, the both ends of bearing bar all with the inner wall rigid coupling of casing, receive the skin groove has been seted up to the bottom of casing, receive the skin groove and link up with the inside of casing mutually, receive the inside sliding connection in skin groove has the containing box, the containing box is close to the one end of deflector and link up mutually with the inside of casing.

Further, the one end that the collecting box was kept away from to the deflector rotates and is connected with the layer board, the one end that the layer board was kept away from to the layer board is "semi-circular" design, the bottom rigid coupling of deflector has the second supporting shoe, the rigid coupling has arc spring between second supporting shoe and the layer board.

The intelligent circuit breaker with the reusable Internet of things has the technical effects and advantages that:

(1) Through the structural design of laminating mechanism, rotary mechanism and peeling mechanism, realized not having need personnel direct contact, just can drive three group's cutting wheels through laminating mechanism and be close to the electric wire to and the cooperation between laminating mechanism and the rotary mechanism, make its rotary mechanism drive the insulating layer of cutting wheel cutting electric wire, make the insulating layer of its electric wire carry out the centre gripping separation through peeling mechanism at last, ingenious cooperation between the three, when improving device linkage, also improved the security when electric wire skinning.

(2) Through the structural design of supporting mechanism and deflector, realized that the deflector rotates under supporting mechanism's cooperation, when the electric wire whereabouts, the deflector pressurized takes place to make its electric wire pass through, when the electric wire rose separation insulating layer, supporting mechanism drove the deflector and is in initial state, and the insulating layer just can collect through the deflector landing to appointed region, has solved the insulating layer after the separation and has dropped at will and probably lead to the device to appear the condition of card failure, also inconvenient subsequent collection clearance problem simultaneously.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of a partial cross-sectional structure in the present invention.

Fig. 3 is a schematic view of a cutting wheel and a third spur gear arrangement in accordance with the present invention.

Fig. 4 is a schematic view of the motor and worm structure of the present invention.

Fig. 5 is a schematic view of a first spur gear section and tray explosion in accordance with the present invention.

Fig. 6 is a schematic cross-sectional view of a housing in the present invention.

Fig. 7 is a schematic view of the structure of the first sprocket, the second sprocket and the chain in the present invention.

Fig. 8 is a schematic view of the structure of the L-shaped rack, the special-shaped gear and the connecting plate in the invention.

Fig. 9 is a schematic view of a second support block and an arc spring structure in the present invention.

Fig. 10 is a schematic view of the structure of the guide plate and the guide rod in the present invention.

FIG. 11 is a schematic view of a hollow tube section and tension spring construction in accordance with the present invention.

In the figure:

1. A housing; 2. a limiting tube; 3. a plug-in groove; 4. a base; 5. a cutting wheel; 6. an L-shaped rack; 7. a motor; 8. a worm; 9. a first spur gear; 10. a chute; 11. a limit round rod; 12. a limiting block; 13. a transmission rod; 14. a support plate; 15. a tray; 16. a second spur gear; 17. a fourth spur gear; 18. a square rack; 19. a connecting block; 20. a limit square rod; 21. a fixing plate; 22. a linkage plate; 23. a special-shaped gear; 24. a connecting plate; 25. a bearing plate; 26. a limiting plate; 27. a first sprocket; 28. a second sprocket; 29. a chain; 30. a support rod; 31. a first support block; 32. a guide plate; 33. a cylindrical rod; 34. a guide rod; 35. a hollow tube; 36. a tension spring; 37. a side plate; 38. a load-bearing rod; 39. a storage box; 40. a supporting plate; 41. a second support block; 42. an arc spring; 66. and a third spur gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, an intelligent circuit breaker capable of being reused in internet of things comprises a shell 1, wherein a limiting pipe 2 is fixedly connected to the top end of the inner wall of the shell 1, the limiting pipe 2 is communicated with the inside of the shell 1, a plugging slot 3 is formed in the outer side of the shell 1, a base 4 is fixedly connected to the bottom end of the inner wall of the shell 1, three groups of cutting wheels 5 are arranged on the top end of the base 4, and a pair of L-shaped racks 6 are arranged in the shell 1;

The laminating mechanism is arranged in the shell 1 and is used for driving the three groups of cutting wheels 5 to approach the electric wires;

a rotating mechanism provided below the three sets of cutting wheels 5 for driving the three sets of cutting wheels 5 to cut the electric wire;

And a peeling mechanism provided between the first spur gear 9 and the fitting mechanism, the peeling mechanism being for removing an insulating layer of the electric wire.

Firstly, detecting whether an electric wire core is electrified or not by using a test pencil, stripping an insulating layer on the outer side of an electric wire when the electric wire core is not electrified to expose the inner core, then inserting the electric wire core into the shell along the inner part of a limiting pipe 2 through a plug-in groove, rotating a nut through a bolt of the plug-in groove 3 to enable the nut to extrude and fix the electric wire core, and then stirring a breaker switch, wherein when the electric wire core is short-circuited, a magnetic field generated by high current (generally 10 to 12 times) overcomes a counter-force spring, a release pulls an operating mechanism to act, the switch is instantaneously tripped, when the electric wire core is overloaded, the current is increased, the heating value is increased, and a bimetallic strip is deformed to a certain degree to push the mechanism to act, so that the switch trips; the larger the current is, the shorter the action time is, thus completing the working process of the circuit breaker, however, when the existing circuit breaker is used for fixing the electric wire, the staff is required to detect the core body inside the electric wire insulation layer by means of a test pencil and the like, when the core body is not in a non-energized state, the operation such as stripping the electric wire insulation layer can be performed, the staff can neglect and miss detection, at the moment, the situation such as short circuit exists in the core body happens, the direct contact of the staff is easy to cause electric leakage, and further, the personal safety of the staff is threatened, meanwhile, when the electric wire insulation layer is stripped, the staff is required to use special tools, thus bringing a certain degree of trouble to stripping work, in order to solve the above problems, when the embodiment of the invention is used, firstly, the electric wire passes through the inside of the limiting tube 2 and moves downwards to the inside of the shell 1, at this time, the attaching mechanism is started, the three groups of cutting wheels 5 are driven to attach to the electric wire when the attaching mechanism operates, the rotating mechanism is synchronously driven to operate by the attaching mechanism when the cutting wheels 5 attach to the electric wire, the three groups of cutting wheels 5 are synchronously driven to rotate by the rotating mechanism, and the three groups of cutting wheels 5 synchronously cut the insulating layer of the electric wire along with the outer side of the electric wire extruded by the three groups of cutting wheels 5, and the fact that the three groups of cutting wheels 5 only slightly extrude the electric wire under the action of the attaching mechanism is needed to be explained, therefore, the three groups of cutting wheels 5 are driven by the rotating mechanism, only the insulating layer of the wire is slightly cut, then the operation of the laminating mechanism is stopped, the rotating mechanism synchronously stops to pull up the wire upwards, when the laminating mechanism operates, the peeling mechanism drives the peeling mechanism to clamp the two sides of the insulating layer of the wire, the clamping force of the peeling mechanism to the wire can deform the insulating layer of the wire, the friction during the movement of the wire is increased, the movement of the wire is not influenced, the wire can smoothly pass through the peeling mechanism at the upper part of the cutting wheel 5 along with the upward movement of the wire, and the connection part of the upper part and the lower part of the cutting of the wire is fragile due to the influence during the cutting, when the cutting part of the electric wire moves to the position of the peeling mechanism, the peeling mechanism can block the cutting part of the electric wire, the lower part of the electric wire cut cannot pass through the peeling mechanism, so that the core body is separated to achieve the function of separating an insulating layer, finally, the core body of the electric wire is moved to the same horizontal plane of the inserting groove 3, the electric wire core body and the limiting tube 2 are fixed by using nuts, the limiting tube 2 is made of metal conductive materials, the limiting tube 2 can replace the electric wire core body to carry out electric power transmission, finally, the laminating mechanism is reset, the rotating mechanism and the peeling mechanism are synchronously driven to reset, thus being convenient for the next use, the wire stripping device has the advantages that the wire stripping device is free of personnel direct contact, three groups of cutting wheels 5 can be driven by the attaching mechanism to be close to the wire, and the attaching mechanism and the rotating mechanism are matched, so that the rotating mechanism drives the cutting wheels 5 to cut the insulating layer of the wire, and finally the insulating layer of the wire is clamped and separated by the stripping mechanism, so that ingenious matching among the three is realized, the linkage performance of the wire stripping device is improved, and meanwhile, the safety of the wire stripping is also improved.

As shown in fig. 2-5, the attaching mechanism comprises a motor 7, the motor 7 is fixedly connected with the inner wall of the shell 1, the output end of the motor 7 is fixedly connected with a worm 8, a first spur gear 9 is meshed with the outer side of the worm 8, three groups of arc-shaped grooves are formed in the first spur gear 9, three groups of sliding grooves 10 are formed in the top end of the base 4, a limit round rod 11 is fixedly connected with the inner wall of the sliding groove 10, a limit block 12 is slidably connected with the outer side of the limit round rod 11, the top end of the limit block 12 is rotatably connected with a transmission rod 13, the transmission rod 13 is positioned in the arc-shaped groove, the top end of the transmission rod 13 is fixedly connected with the bottom end of the cutting wheel 5, a pair of support plates 14 are fixedly connected with the top end of the first spur gear 9, and a tray 15 is rotatably connected with the top end of the first spur gear 9.

The electric wire is inserted into the shell 1 through the limit pipe 2 and is in conflict with the top of the tray 15, then the motor 7 is started, the motor 7 drives the worm 8 to rotate in the running process, the worm 8 rotates to drive the first spur gear 9 to rotate clockwise from the view angle shown in fig. 4, the first spur gear 9 is supported to rotate along the supporting plate 14, and because the tray 15 is rotationally connected with the top of the first spur gear 9, when the first spur gear 9 rotates, the tray 15 is extruded by the electric wire and can be kept motionless, so that the electric wire is ensured to be in a static state, at the moment, the first spur gear 9 rotates to synchronously drive the arc-shaped groove to extrude the transmission rod 13, the transmission rod 13 is stressed to move, the transmission rod 13 moves to drive the limit block 12 to move along the limit round rod 11, and the three groups of transmission rods 13 drive the cutting wheels 5 at the top of the limit round rod to move towards the tray 15 at the moment, so as to be close to the electric wire, when three groups of cutting wheels 5 are required to be far away from the electric wire, the motor 7 only needs to be reversely operated, the motor 7 drives the worm 8 to reversely rotate, and the first spur gear 9 reversely rotates, and the first spur gear 9 can synchronously drive the arc-shaped groove to extrude the transmission rod 13, and the transmission rod 13 can be far away from the arc-shaped groove 13.

As shown in fig. 4 and 5, the rotation mechanism includes three sets of second spur gears 16, the three sets of second spur gears 16 are fixedly connected to the outer sides of the three sets of transmission rods 13, the second spur gears 16 are located below the cutting wheel 5, the diameters of the second spur gears 16 and the transmission rods 13 are the same, a third spur gear 66 is disposed on the outer side of the tray 15, and the third spur gear 66 is fixedly connected to the top end of the first spur gear 9.

When the cutting wheel 5 is attached to the electric wire, the second spur gear 16 is just meshed with the third spur gear 66 at the outermost edge, along with the continuous rotation of the first spur gear 9, the first spur gear 9 also drives the third spur gear 66 to rotate, the third spur gear 66 drives the second spur gear 16 to rotate, the second spur gear 16 further drives the cutting wheel 5 to rotate through the transmission rod 13, the cutting wheel 5 continues to rotate and squeeze the electric wire, the insulating layer of the electric wire can be cut, the limit of movement of the cutting wheel 5 only slightly squeezes the insulating layer of the electric wire, when the cutting wheel 5 moves to the limit, the motor 7 stops running, so that the power output to the worm 8 is finished, the first spur gear 9 is in a static state, the cutting wheel 5 slightly squeezes the insulating layer of the electric wire, the cutting wheel 5 only cuts the squeezed part of the electric wire, and a core inside the insulating layer cannot be damaged.

As shown in fig. 6-8, the peeling mechanism comprises a clamping assembly and a transmission assembly, the clamping assembly comprises a fourth spur gear 17, a square rack 18 is meshed with the outer side of the fourth spur gear 17, a pair of connecting blocks 19 are fixedly connected to the top ends of the square rack 18, a pair of limit square rods 20 penetrate through the inside of the connecting blocks 19, one ends of the limit square rods 20 are fixedly connected with a fixed plate 21, the fixed plate 21 is fixedly connected with the top end of the inner wall of the shell 1, one ends of the limit square rods 20, far away from the fixed plate 21, are fixedly connected with the inner side wall of the shell 1, one ends of the square rack 18, far away from the fourth spur gear 17, are fixedly connected with a linkage plate 22, special-shaped gears 23 are respectively arranged at two ends of the linkage plate 22, a connecting plate 24 is hinged between the special-shaped gears 23 and the linkage plate 22, a pair of special-shaped gears 23 are respectively meshed with a pair of L-shaped racks 6, a pair of L-shaped racks 6 are glued on one sides of the L-shaped racks 6, a pair of L-shaped racks 26 are respectively meshed with the inner side walls of the shell 1, and two ends of the L-shaped racks 26 are respectively connected with two limiting plates 26 are fixedly connected with the inner walls of the shell 1.

In order to solve the above problem, in the embodiment of the invention, when in use, the motor 7 synchronously drives the fourth spur gear 17 to rotate clockwise with the view angle of fig. 7 through the transmission component, the fourth spur gear 17 rotates clockwise to drive the square rack 18 to move in the direction away from the L-shaped rack 6, at the moment, the square rack 18 drives the connecting block 19 to stably move along the limit square rod 20, the square rack 18 moves to drive the connecting plate 24 to swing, the connecting plate 24 swings to drive the special-shaped gear 23 to rotate, the special-shaped gear 23 rotates at the moment to drive the L-shaped rack 6 to move, the pair of L-shaped racks 6 are mutually close to each other, so as to clamp the wire insulation layer, and the clamping force of the pair of L-shaped racks 6 on the wire insulation layer is larger than the clamping force of the cutting wheel 5, but the pair of L-shaped racks 6 move to the clamping direction away from the L-shaped rack 6, so that the wire is lifted up, and the wire core of the wire can be cut through the L-shaped racks 6, and the wire core can not be cut down along the L-shaped racks 6, and the density of the wire can not be reduced when the wire core is cut down, and the wire core of the wire can not be cut down along the L-shaped insulation layer.

As shown in fig. 6 and 7, the transmission assembly includes a first sprocket 27 and a second sprocket 28, the first sprocket 27 is fixedly connected to the outer side of the output end of the motor 7, a chain 29 is wound around the outer sides of the first sprocket 27 and the second sprocket 28, a supporting rod 30 is fixedly connected to the inner side of the second sprocket 28, the fourth spur gear 17 is fixedly connected to the outer side of the supporting rod 30, and two ends of the supporting rod 30 are both rotatably connected to the inner side wall of the housing 1.

When the motor 7 operates, the first sprocket 27 is driven to rotate, the first sprocket 27 drives the second sprocket 28 to synchronously rotate through the chain 29, the second sprocket 28 rotates to drive the supporting rod 30 to rotate, and the supporting rod 30 rotates to apply a power source to the fourth spur gear 17 to drive the fourth spur gear 17 to rotate.

As shown in fig. 9 and 10, the outer side of the limiting plate 26 is fixedly connected with a first supporting block 31, a guide plate 32 is arranged below the first supporting block 31, the guide plate 32 is obliquely arranged, and a supporting mechanism is arranged between the first supporting block 31 and the guide plate 32 and used for supporting and limiting when the guide plate 32 moves.

In order to solve the above problems, when the electric wire to be cut is positioned at the top end of the tray 15, the electric wire needs to pass through the guide plate 32 first, at this moment, the electric wire extrudes the guide plate 32 to enable the guide plate 32 to rotate, the guide plate 32 rotates to drive the supporting mechanism to operate, at this moment, the electric wire passes through the guide plate 32, the guide plate 32 is attached to the outer side of the electric wire, after the electric wire is slightly cut, the electric wire moves upwards to end the extrusion of the guide plate 32, the supporting mechanism drives the guide plate 32 to reset to be obliquely placed, and after the electric wire is separated by the peeling mechanism, the separated electric wire falls on the guide plate 32 by gravity and slides down along the inclined plane of the guide plate 32 to be collected.

As shown in fig. 9 and 10, the supporting mechanism comprises a cylindrical rod 33, the cylindrical rod 33 is fixedly connected with the inner side wall of the guide plate 32, the outer side of the cylindrical rod 33 is rotationally connected with a guide rod 34, one end of the guide rod 34, which is far away from the cylindrical rod 33, is provided with a hollow tube 35, the guide rod 34 is slidably connected inside the hollow tube 35, an extension spring 36 is fixedly connected between the guide rod 34 and the hollow tube 35, one end of the hollow tube 35, which is far away from the guide rod 34, is hinged with the bottom end of the first supporting block 31, two sides of the guide plate 32 are fixedly connected with side plates 37, one end of the side plates 37, which is far away from the guide plate 32, is rotationally connected with a bearing rod 38, two ends of the bearing rod 38 are fixedly connected with the inner wall of the shell 1, a skin collecting groove is formed in the bottom end of the shell 1, the skin collecting groove is communicated with the inner part of the shell 1, a storage box 39 is slidably connected inside the skin collecting groove, and one end, which is close to the guide plate 32, is hinged with the inner part of the shell 1.

When the wire extrudes the guide plate 32, the guide plate 32 drives the side plate 37 to rotate along the bearing rod 38, and the cylindrical rod 33 rotates along with the rotation of the guide plate 32 at the moment, so that the stretching spring 36 in the hollow tube 35 is pulled to deform and store potential, the wire has certain hardness because of the core body in the wire, when the guide plate 32 is extruded, the hardness of the wire is higher than the elastic potential energy of the stretching spring 36, so that the wire cannot deform, the straightness of the wire can be ensured, at the moment, the guide plate 32 rotates to enable the wire to pass through the guide plate 32, the guide plate 32 is attached to the wire, when the wire is cut, the upward movement is finished, the stretching spring 36 is stressed, the elastic potential energy is released instantaneously, the cylindrical rod 33 is pulled to reset through the hollow tube 35, the cylindrical rod 33 resets to drive the guide plate 32 to reset, so that the guide plate 32 is inclined and swings, then, the separated insulating layer falls on the surface of the guide plate 32 under the clamping of the L-shaped rack 6, and falls inside the storage box 39 along with the inclined plane of the guide plate 32, when the collected insulating layer inside the storage box 39 needs to be collected, the storage box 39 is pulled to separate from the leather collecting groove formed in the top end of the shell 1, the insulating layer collected inside the storage box 39 can be taken out, through the structural design, the guide plate 32 is matched with the supporting mechanism, when the electric wire falls down, the guide plate 32 is pressed to rotate, so that the electric wire passes through, when the electric wire rises to separate the insulating layer, the supporting mechanism drives the guide plate 32 to be in an initial state, and the insulating layer can be collected by sliding the guide plate 32 to a designated area, the problem that the separated insulating layer falls at will to possibly cause the device to be blocked and malfunction is solved, and meanwhile, the subsequent collection and cleaning problems are inconvenient.

As shown in fig. 9 and 10, one end of the guide plate 32 far away from the storage box 39 is rotatably connected with a supporting plate 40, one end of the supporting plate 40 far away from the guide plate 32 is in a semicircular design, a second supporting block 41 is fixedly connected with the bottom end of the guide plate 32, and an arc-shaped spring 42 is fixedly connected between the second supporting block 41 and the supporting plate 40.

When the electric wire falls and extrudes the deflector 32, the support plate 40 is extruded first, the support plate 40 is stressed and rotates at the moment, so that the arc spring 42 is extruded, the arc spring 42 is deformed to generate elastic potential energy, the electric wire is still in a vertical state and cannot deform when extruding the support plate 40, the support plate 40 is in an inclined state, the deflector 32 can be extruded more conveniently, the end, close to the storage box 39, of the deflector 32 is lower than the end, far away from the storage box 39, of the deflector 32, the direction of the storage box 39 can be possibly caused to deviate when the wire extrudes the deflector 32, the arrangement of the support plate 40 can change the problem, the fact that the electric wire applies smaller force can be through the support plate 40 is ensured, under the condition of insufficient distance, the force can be applied to the deflector 32 through the support plate 40, the deflector 32 is forced to slightly rotate, after the electric wire is up-moved to the extrusion of the support plate 40, the stress of the arc spring 42 is over, the elastic potential energy is released instantaneously, the support plate 40 is pushed to reset, the separated insulating layer can be dropped on the surface of the support plate 40, and the insulating layer can be slipped into the storage box 39 through the storage box 39, and the insulating layer can not rotate on the surface 40 when the support plate 40 is required to be slightly dropped.

Working principle: firstly, detecting whether an electric wire core is electrified or not by using a test pencil, stripping an insulating layer on the outer side of an electric wire when the electric wire core is not electrified to expose the inner core, then inserting the electric wire core into the shell along the inner part of a limiting pipe 2 through a plug-in groove, rotating a nut through a bolt of the plug-in groove 3 to enable the nut to extrude and fix the electric wire core, and then stirring a breaker switch, wherein when the electric wire core is short-circuited, a magnetic field generated by high current (generally 10 to 12 times) overcomes a counter-force spring, a release pulls an operating mechanism to act, the switch is instantaneously tripped, when the electric wire core is overloaded, the current is increased, the heating value is increased, and a bimetallic strip is deformed to a certain degree to push the mechanism to act, so that the switch trips; the larger the current is, the shorter the action time is, thus completing the working process of the circuit breaker, however, when the existing circuit breaker is used for fixing the electric wire, the staff is required to detect the core body inside the electric wire insulation layer by means of a test pencil and the like, when the core body is not in a non-energized state, the operation such as stripping the electric wire insulation layer can be performed, the staff can neglect and miss detection, at the moment, the situation such as short circuit exists in the core body happens, the direct contact of the staff is easy to cause electric leakage, and further, the personal safety of the staff is threatened, meanwhile, when the electric wire insulation layer is stripped, the staff is required to use special tools, thus bringing a certain degree of trouble to stripping work, in order to solve the above problems, when the embodiment of the invention is used, firstly, the electric wire passes through the inside of the limiting tube 2 and moves downwards to the inside of the shell 1, at this time, the attaching mechanism is started, the three groups of cutting wheels 5 are driven to attach to the electric wire when the attaching mechanism operates, the rotating mechanism is synchronously driven to operate by the attaching mechanism when the cutting wheels 5 attach to the electric wire, the three groups of cutting wheels 5 are synchronously driven to rotate by the rotating mechanism, and the three groups of cutting wheels 5 synchronously cut the insulating layer of the electric wire along with the outer side of the electric wire extruded by the three groups of cutting wheels 5, and the fact that the three groups of cutting wheels 5 only slightly extrude the electric wire under the action of the attaching mechanism is needed to be explained, therefore, the three groups of cutting wheels 5 are driven by the rotating mechanism, only the insulating layer of the wire is slightly cut, then the operation of the laminating mechanism is stopped, the rotating mechanism synchronously stops to pull up the wire upwards, when the laminating mechanism operates, the peeling mechanism drives the peeling mechanism to clamp the two sides of the insulating layer of the wire, the clamping force of the peeling mechanism to the wire can deform the insulating layer of the wire, the friction during the movement of the wire is increased, the movement of the wire is not influenced, the wire can smoothly pass through the peeling mechanism at the upper part of the cutting wheel 5 along with the upward movement of the wire, and the connection part of the upper part and the lower part of the cutting of the wire is fragile due to the influence during the cutting, when the cutting part of the electric wire moves to the position of the peeling mechanism, the peeling mechanism can block the cutting part of the electric wire, the lower part of the electric wire cut cannot pass through the peeling mechanism, so that the core body is separated to achieve the function of separating an insulating layer, finally, the core body of the electric wire is moved to the same horizontal plane of the inserting groove 3, the electric wire core body and the limiting tube 2 are fixed by using nuts, the limiting tube 2 is made of metal conductive materials, the limiting tube 2 can replace the electric wire core body to carry out electric power transmission, finally, the laminating mechanism is reset, the rotating mechanism and the peeling mechanism are synchronously driven to reset, thus being convenient for the next use, the three groups of cutting wheels 5 can be driven to approach the electric wire through the attaching mechanism without direct contact of personnel, and the attaching mechanism and the rotating mechanism are matched, so that the rotating mechanism drives the cutting wheels 5 to cut the insulating layer of the electric wire, finally, the insulating layer of the electric wire is clamped and separated through the peeling mechanism, the ingenious matching among the three is realized, the connectivity of the device is improved, the safety of the electric wire when peeled is also improved, the electric wire is inserted into the shell 1 through the limiting pipe 2 and is in contact with the top end of the tray 15, then the motor 7 is started, the worm 8 is driven to rotate during operation, the worm 8 rotates to drive the first spur gear 9 to rotate clockwise with the view angle as shown in figure 4, the first spur gear 9 rotates along the support plate 14, and as the tray 15 is rotationally connected with the top end of the first spur gear 9, when the first spur gear 9 rotates, the tray 15 is extruded by the electric wire and can keep still, so that the electric wire is ensured to be in a static state, at the moment, the rotation of the first spur gear 9 synchronously drives the arc-shaped groove to extrude the transmission rod 13, the transmission rod 13 is stressed to move, the transmission rod 13 moves to drive the limiting block 12 to move along the limiting round rod 11, the three groups of transmission rods 13 drive the cutting wheels 5 at the top ends of the three groups of transmission rods to move towards the tray 15 at the moment, so as to be close to the electric wire, the cutting wheels 5 are attached to the electric wire, when three sets of cutting wheels 5 are required to be far away from the electric wire, only the motor 7 is required to be operated reversely, at the moment, the motor 7 drives the worm 8 to rotate reversely, the first spur gear 9 rotates reversely, the other side of the arc-shaped groove in the first spur gear 9 presses the transmission rod 13, the cutting wheels 5 can be driven to be far away from the electric wire through the transmission rod 13, when the cutting wheels 5 are attached to the electric wire, the second spur gear 16 is just meshed with the third spur gear 66 at the outermost edge, along with the continuous rotation of the first spur gear 9, the first spur gear 9 also drives the third spur gear 66 to rotate, the third spur gear 66 rotates to drive the second spur gear 16 to rotate, the second spur gear 16 rotates to drive the cutting wheels 5 to rotate through the transmission rod 13, the cutting wheel 5 continues to rotate to extrude the wire, so that the insulating layer of the wire can be cut, and it is noted that the movement limit of the cutting wheel 5 only slightly extrudes the insulating layer of the wire, when the cutting wheel 5 moves to the limit, the motor 7 stops running, so that the power output to the worm 8 is finished, the first spur gear 9 is in a static state, the cutting wheel 5 slightly extrudes the insulating layer of the wire, the cutting wheel 5 only cuts the extruded part and does not damage the core body inside the insulating layer, and the clamping force of the cutting wheel 5 on the wire is insufficient to separate the insulating layer of the wire because the cutting wheel 5 slightly cuts the insulating layer of the wire, in order to solve the above problems, when the embodiment of the invention is in use, the motor 7 synchronously drives the fourth spur gear 17 to rotate clockwise from the view angle of fig. 7 through the transmission component, the fourth spur gear 17 rotates clockwise to drive the square rack 18 to move away from the L-shaped rack 6, at this time, the square rack 18 drives the connecting block 19 to move stably along the limit square rod 20, the square rack 18 moves to drive the connecting plate 24 to swing, the connecting plate 24 swings to drive the special-shaped gear 23 to rotate, the special-shaped gear 23 rotates at this time to drive the L-shaped rack 6 to move, the pair of L-shaped racks 6 approach each other, thus, the wire insulation layer is clamped, the clamping force of the pair of L-shaped racks 6 on the wire insulation layer is larger than the clamping force of the cutting wheel 5 on the wire insulation layer, but the clamping force of the pair of L-shaped racks 6 on the wire does not affect the movement of the wire, the wire is pulled up, the insulation layer at the upper part of the wire cut is tightly attached to the core body, so that the insulation layer at the upper part can pass through the L-shaped racks 6, when the wire cut is in the same plane with the L-shaped racks 6, the cutting of the insulation layer below the wire cut occurs, the connection density is reduced, the insulation layer below the wire cut is blocked by the L-shaped racks 6, and the insulation layer cannot pass through the L-shaped racks 6, and then falls along the core, the motor 7 will drive the first sprocket 27 to rotate when running, the first sprocket 27 will drive the second sprocket 28 to rotate synchronously through the chain 29, and the second sprocket 28 rotates and then drives the support bar 30 to rotate, the support bar 30 rotates and will apply the power source to the fourth spur gear 17 to drive the fourth spur gear 17 to rotate, the separated insulating layer will directly fall on the surface of the first spur gear 9 under the action of gravity, possibly causing the device to have the situation of jam failure, and meanwhile, the subsequent collection and cleaning are inconvenient, in order to solve the above problem, when the embodiment of the invention is used, firstly the wire to be cut is positioned at the top end of the tray 15, the electric wire needs to pass through the guide plate 32, at this moment, the electric wire extrudes the guide plate 32 to enable the guide plate 32 to rotate, the guide plate 32 rotates to drive the supporting mechanism to operate, at this moment, the electric wire passes through the guide plate 32, the guide plate 32 is attached to the outer side of the electric wire, after the electric wire is slightly cut, the electric wire moves upwards to end extrusion of the guide plate 32, the supporting mechanism drives the guide plate 32 to reset to be obliquely placed, after the insulation layer of the electric wire is separated by the peeling mechanism, the separated insulation layer can fall on the guide plate 32 by gravity, and meanwhile, the electric wire slides down along the inclined plane of the guide plate 32 to be collected, when the electric wire extrudes the guide plate 32, the guide plate 32 drives the side plate 37 to rotate along the bearing rod 38, and the cylindrical rod 33 rotates along with the rotation of the guide plate 32 at the moment, so that the extension spring 36 in the hollow tube 35 is pulled to deform and store potential, it is required that the electric wire has certain hardness due to the core body in the electric wire, when the guide plate 32 is extruded, the hardness of the electric wire is larger than the elastic potential energy of the extension spring 36, so that the electric wire cannot deform, the straightness of the electric wire can be ensured, at the moment, the guide plate 32 rotates to enable the electric wire to pass through the guide plate 32, the guide plate 32 is attached to the electric wire, after the electric wire is cut, when the upward movement is finished to squeeze the guide plate 32, the tension spring 36 is stressed and releases elastic potential energy instantly, the cylindrical rod 33 is pulled to reset through the hollow tube 35, the cylindrical rod 33 is reset and drives the guide plate 32 to reset, so that the guide plate 32 is in inclined swing, then, the separated insulating layer falls on the surface of the guide plate 32 under the clamping of the L-shaped rack 6, along with the inclined plane of the guide plate 32 and falls inside the storage box 39, when the collected insulating layer inside the storage box 39 is required to be collected, the storage box 39 is only required to be pulled, the storage box 39 is separated from a skin collecting groove formed in the top end of the shell 1, the insulation layer collected in the storage box 39 can be taken out, through the structural design, the guide plate 32 is pressed to rotate under the cooperation of the supporting mechanism when the electric wire falls down, so that the electric wire passes through the guide plate 32, when the electric wire rises to separate the insulation layer, the supporting mechanism drives the guide plate 32 to be in an initial state, the insulation layer can slide to a designated area through the guide plate 32 to collect, the problem that the separated insulation layer can be randomly dropped to cause the device to have a jam failure is solved, the subsequent collection and cleaning problems are inconvenient, when the electric wire falls down to press the guide plate 32, the supporting plate 40 is firstly pressed, the supporting plate 40 is stressed to rotate at the moment, therefore, the arc springs 42 are extruded, so that the arc springs 42 deform to generate elastic potential energy, and it is required to say that when the supporting plate 40 is extruded, the electric wire is still in a vertical state and cannot deform, and the supporting plate 40 is in an inclined state, so that the guide plate 32 can be extruded more conveniently, and because one end of the guide plate 32 close to the storage box 39 is lower than one end of the guide plate 32 far away from the storage box 39, the electric wire can possibly cause the direction deflection of the storage box 39 when the guide plate 32 is extruded, and the arrangement of the supporting plate 40 can change the problems, so that the electric wire can be ensured to apply smaller force to pass through the supporting plate 40, and under the condition of insufficient distance, the force can be applied to the guide plate 32 through the support plate 40 to force the guide plate 32 to slightly rotate, after the electric wire moves upwards to press the support plate 40, the arc spring 42 is stressed to finish, elastic potential energy is released instantaneously, the support plate 40 is pushed to reset, the separated insulating layer can be ensured to fall on the surface of the support plate 40, and accordingly the guide plate 32 slides into the storage box 39, and the falling insulating layer is light and cannot be released to rotate when falling on the surface of the support plate 40.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a repeatedly usable's of thing networking intelligent circuit breaker, includes casing (1), the top rigid coupling of casing (1) inner wall has spacing pipe (2), spacing pipe (2) link up with the inside of casing (1), spliced groove (3) have been seted up in the outside of casing (1), the bottom rigid coupling of casing (1) inner wall has base (4), the top of base (4) is provided with three group's cutting wheel (5), the inside of casing (1) is provided with a pair of L shape rack (6), its characterized in that; also comprises;

the laminating mechanism is arranged in the shell (1) and is used for driving the three groups of cutting wheels (5) to be close to the electric wires;

A rotating mechanism arranged below the three groups of cutting wheels (5), wherein the rotating mechanism is used for driving the three groups of cutting wheels (5) to cut electric wires;

And the peeling mechanism is arranged between the first spur gear (9) and the attaching mechanism and is used for removing the insulating layer of the electric wire.

2. The intelligent circuit breaker capable of being repeatedly used according to claim 1, characterized in that the attaching mechanism comprises a motor (7), the motor (7) is fixedly connected with the inner wall of the shell (1), a worm (8) is fixedly connected with the output end of the motor (7), a first spur gear (9) is meshed with the outer side of the worm (8), three groups of arc grooves are formed in the first spur gear (9), three groups of sliding grooves (10) are formed in the top end of the base (4), limit round rods (11) are fixedly connected with the inner wall of each sliding groove (10), limiting blocks (12) are slidably connected with the outer sides of the limit round rods (11), a transmission rod (13) is rotatably connected with the top ends of the limiting blocks, the transmission rod (13) is positioned in the inner portions of the arc grooves, the top ends of the transmission rod (13) are fixedly connected with the bottom ends of the cutting wheels (5), a pair of supporting plates (14) are fixedly connected with the top ends of the base (4), the pair of the supporting plates (14) are all fixedly connected with the bottom ends of the first spur gear (9), and the top ends of the first spur gear (9) are slidably connected with a rotary disc (15).

3. The intelligent circuit breaker capable of being reused in the internet of things according to claim 2, wherein the rotating mechanism comprises three groups of second spur gears (16), the three groups of second spur gears (16) are fixedly connected to the outer sides of the three groups of transmission rods (13) respectively, the second spur gears (16) are located below the cutting wheels (5), the diameters of the second spur gears (16) and the transmission rods (13) are the same, a third spur gear (66) is arranged on the outer side of the tray (15), and the third spur gear (66) is fixedly connected to the top end of the first spur gear (9).

4. The intelligent circuit breaker capable of being repeatedly used in the Internet of things according to claim 3, wherein the peeling mechanism comprises a clamping assembly and a transmission assembly, the clamping assembly comprises a fourth spur gear (17), a square rack (18) is meshed with the outer side of the fourth spur gear (17), a pair of connecting blocks (19) are fixedly connected to the top ends of the square rack (18), a limit square rod (20) penetrates through the inside of the connecting blocks (19), a fixed plate (21) is fixedly connected to one end of the limit square rod (20), the fixed plate (21) is fixedly connected with the top end of the inner wall of the shell (1), one end of the limit square rod (20) far away from the fixed plate (21) is fixedly connected with the inner side wall of the shell (1), one end of the square rack (18) far away from the fourth spur gear (17) is fixedly connected with a linkage plate (22), special-shaped gears (23) are respectively arranged at two ends of the linkage plate (22), connecting plates (24) are hinged between the special-shaped gears (23) and the linkage plate (22), the bottom ends of the special-shaped gears (23) are respectively rotatably connected with a fixed plate (21), the special-shaped gears (25) are respectively meshed with a pair of rubber pads (6) on one side of the inner side walls (6), the bottom ends of the pair of L-shaped racks (6) are respectively and slidably connected with a limiting plate (26), and two ends of the limiting plates (26) are respectively and fixedly connected with the inner side wall of the shell (1).

5. The intelligent circuit breaker capable of being reused for the Internet of things according to claim 4, wherein the transmission assembly comprises a first sprocket (27) and a second sprocket (28), the first sprocket (27) is fixedly connected to the outer side of the output end of the motor (7), a chain (29) is wound on the outer sides of the first sprocket (27) and the second sprocket (28), a supporting rod (30) is fixedly connected to the inner side of the second sprocket (28), a fourth spur gear (17) is fixedly connected to the outer side of the supporting rod (30), and two ends of the supporting rod (30) are rotatably connected with the inner side wall of the shell (1).

6. The reusable intelligent circuit breaker according to claim 5, wherein the outer side of the limiting plate (26) is fixedly connected with a first supporting block (31), a guide plate (32) is arranged below the first supporting block (31), the guide plate (32) is obliquely arranged, a supporting mechanism is arranged between the first supporting block (31) and the guide plate (32), and the supporting mechanism is used for supporting and limiting the guide plate (32) during movement.

7. The intelligent circuit breaker capable of being repeatedly used according to claim 6, wherein the supporting mechanism comprises a cylindrical rod (33), the cylindrical rod (33) is fixedly connected with the inner side wall of the guide plate (32), the guide rod (34) is rotatably connected with the outer side of the cylindrical rod (33), one end of the guide rod (34) away from the cylindrical rod (33) is provided with a hollow tube (35), the guide rod (34) is slidably connected in the hollow tube (35), an extension spring (36) is fixedly connected between the guide rod (34) and the hollow tube (35), one end of the hollow tube (35) away from the guide rod (34) is hinged with the bottom end of the first supporting block (31), two sides of the guide plate (32) are fixedly connected with side plates (37), one end of the side plates (37) away from the guide plate (32) is rotatably connected with a bearing rod (38), two ends of the bearing rod (38) are fixedly connected with the inner wall of the shell (1), a skin collecting groove is formed in the bottom end of the shell (1), one end of the shell (1) is connected with the inner side of the shell (39), and the inner side of the shell (39) is connected with the inner side of the shell (39).

8. The intelligent circuit breaker capable of being reused in the internet of things according to claim 7, wherein one end of the guide plate (32) far away from the storage box (39) is rotationally connected with the supporting plate (40), one end of the supporting plate (40) far away from the guide plate (32) is in a semicircular design, a second supporting block (41) is fixedly connected to the bottom end of the guide plate (32), and an arc-shaped spring (42) is fixedly connected between the second supporting block (41) and the supporting plate (40).