Intelligence power box cabinet lock
Technical Field
The invention relates to the field of intelligent cabinets, in particular to an intelligent power box cabinet lock.
Background
The power box is used for loading various precision machines, and the material of power box is mostly aluminium alloy ex-trusions, because need guarantee the tightness of power box, will be applicable to multiple complicated environment and weather simultaneously, and aluminium alloy ex-trusions has the advantage of sound construction, good heat dissipation, has consequently obtained the wide use.
To present intelligent power box cabinet lock, made relative scheme to the problem that exists below:
because the precision machinery in the electric power box is too much, the material is expensive, it is complicated to load, consequently, can suffer easily to steal, especially some lawless persons' means of stealing is very violent, make the electric power box seriously destroyed easily, and steal the most convenient mode of electric power box and just destroy the cabinet lock of electric power box, and prize the cabinet door, the cabinet door pins through the mid portion, both ends are just fragile relatively about consequently, pry from upper end or lower extreme when the thief, then make the guard gate warp easily, make the thief reach the purpose easily.
Disclosure of Invention
The invention mainly aims to overcome the defects of the prior art and provides an intelligent power box cabinet lock.
The invention is realized by adopting the following technical scheme: an intelligent power box cabinet lock structurally comprises a shell and a box body, wherein the shell is connected to the outside of the box body through bolts, the box body is embedded in the shell, the shell is provided with a side door and heat dissipation holes, the side door is connected to the side face of the shell through hinges, and the heat dissipation holes are uniformly distributed on the surface of the side door; the box is equipped with bottom plate, roof, guard gate, the bottom plate passes through bolted connection in the bottom half, bolted connection is passed through at the box top to the roof, guard gate passes through bolted connection on the box surface.
As optimization, the bottom plate is equipped with spring groove, spring hook, spring groove evenly distributed is in the bottom plate upper surface, spring hook inlays and locates between guard gate and the bottom plate, spring groove is circular recess, spring groove is 4, spring hook is J type structure, spring hook is the metal material.
Preferably, the spring groove is provided with springs, the springs are arranged inside the spring groove and are made of metal, and the number of the springs is 4.
As the optimization, the spring hook is equipped with briquetting, card strip, the briquetting welds in the spring hook top, the card strip distributes on the spring hook inner wall, the briquetting is the long strip-shaped structure of platelike, the briquetting is the metal material, the card strip is the trapezium structure, the card strip is the metal material.
As an optimization, the roof is equipped with magnetism and inhales groove, magnetism and inhales the hook, magnetism inhales groove evenly distributed in the roof lower surface, magnetism inhales the groove and is circular recess, magnetism inhales the groove and is 4, magnetism inhales the hook and is the J type structure, magnetism inhales the hook and the spring hook is the same shape and material.
Preferably, the magnetic absorption groove is provided with magnetic stripes, the magnetic stripes are embedded in the magnetic absorption groove, the magnetic stripes are of rectangular plate-shaped structures, and the number of the magnetic stripes is 1.
As the optimization, the guard gate is equipped with guide rail groove, electronic slider, slot, the guide rail groove inlays to be located on the guard gate inner wall, electronic slider inlays to be located on the guide rail groove, the slot inlays to be located both ends about the guard gate, the guide rail groove is stainless steel, electronic slider is rectangle platelike structure, the slot looks sideways at the section and is the U font structure, the slot distributes in both ends about the guard gate.
Preferably, the guide rail groove is provided with a lock hole, and the lock hole is embedded in the middle of the guide rail groove.
As optimization, electronic slider is equipped with motor, magnet, adsorption tank, the motor inlays and locates inside electronic slider, magnet inlays and locates inside the adsorption tank, the adsorption tank is located electronic slider top, magnet is the rectangle platelike structure, the adsorption tank is the rectangle recess.
As optimization, the slot is equipped with the draw-in groove, the draw-in groove inlays to be located on the slot inner wall, the draw-in groove is the trapezium structure, the draw-in groove is 5, and 1 locates the guard gate top, and all the other 4 distribute in the guard gate bottom.
Advantageous effects
The invention discloses an intelligent power box cabinet lock, which is characterized in that when the intelligent power box cabinet lock works:
when the protective door is in a locking state, the magnetic attraction hook is absorbed in the absorption groove of the electric slider through magnetic attraction force, so that the electric slider and the magnetic attraction hook are absorbed together through the magnet, when the electric slider and the magnetic attraction hook are absorbed together, the magnetic attraction hook is embedded in the clamping groove of the protective door, so that the top of the protective door is locked, when the door is opened, the key is inserted into the lock catch to unlock the door, the motor is triggered to work in the unlocking process, and the electric slider is driven by the motor to slide downwards on the guide rail groove;
the magnetic attraction groove is provided with the magnetic strip, when the motor drives the electric slider to slide downwards on the guide rail groove, the magnetic attraction hook is separated from the magnet, the adsorption force of the magnet is smaller than that of the magnetic strip, so that when the magnetic attraction hook is separated from the magnet, the magnetic attraction hook is adsorbed by the magnetic strip and is retracted into the magnetic attraction groove, and when the magnetic attraction hook is retracted into the magnetic attraction groove, the magnetic attraction hook is driven to be separated from the clamping groove, so that the top of the protective door is unlocked;
through being equipped with a spring hook, spring hook is equipped with briquetting, card strip, and when electronic slider down pushed up spring hook, the briquetting at spring hook top was down extruded to promote spring hook extrusion downwards, thereby extrude the spring, drive the card strip and break away from the draw-in groove, and then break away from the slot, carry out the unblock to the guard gate bottom.
Compared with the prior art, the invention has the beneficial effects that: can inhale mutually supporting of hook and spring hook through magnetism, roof carries out locking work about the guard gate respectively, trigger work to the motor through the lockhole, drive electronic slider carries out from the unblock work of top to bottom, the unblock process is simple convenient, lock through the three stage about in the last of guard gate, can prevent that the thief from prizing from guard gate top or bottom plate, lead to the guard gate to warp, the problem that precision machinery loses, the inertia of locking is carried out to the middle part only to ordinary guard gate has been changed, strengthen the locking function and the pick-proof effect of guard gate.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of an intelligent power box cabinet lock according to the present invention.
Fig. 2 is a schematic structural diagram of the protective door of the present invention in a locked state.
FIG. 3 is a schematic structural diagram of the protective door of the present invention in an unlocked state.
Fig. 4 is a top view of the base plate of the present invention.
Fig. 5 is an enlarged structural view of the spring pocket of the present invention.
Fig. 6 is a schematic bottom structure view of the top plate of the present invention.
FIG. 7 is an enlarged schematic view of the magnetic attraction groove of the present invention.
Fig. 8 is an enlarged structural view of the spring hook of the present invention.
FIG. 9 is a schematic side sectional view of the protective door of the present invention.
FIG. 10 is a schematic view of the inside structure of the protective door of the present invention.
Fig. 11 is a schematic view of the internal structure of the electric slider according to the present invention.
FIG. 12 is an enlarged view of the trench structure of the present invention.
In the figure: the magnetic suction type door comprises a shell 1, a box body 2, a side door 10, a heat dissipation hole 11, a bottom plate 20, a top plate 21, a protective door 22, a spring groove 200, a spring hook 201, a spring A, a pressing block C, a clamping strip D, a magnetic suction groove 210, a magnetic suction hook 211, a guide rail groove 220, an electric slider 221, a groove 222, a lock hole E, a motor F, a magnet G, a suction groove H and a clamping groove I.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 12, the present invention provides a technical solution of an intelligent power cabinet lock: the structure of the energy-saving door comprises a shell 1 and a box body 2, wherein the shell 1 is connected to the outer part of the box body 2 through bolts, the box body 2 is embedded in the shell 1, the shell 1 is provided with a side door 10 and heat dissipation holes 11, the side door 10 is connected to the side surface of the shell 1 through hinges, and the heat dissipation holes 11 are uniformly distributed on the surface of the side door 10; the box body 2 is provided with a bottom plate 20, a top plate 21 and a protective door 22, the bottom plate 20 is connected to the bottom of the box body 2 through bolts, the top plate 21 is connected to the top of the box body 2 through bolts, the protective door 22 is connected to the outer surface of the box body 2 through bolts, the bottom plate 20 is provided with a spring groove 200 and a spring hook 201, the spring groove 200 is uniformly distributed on the upper surface of the bottom plate 20, the spring hook 201 is embedded between the protective door 22 and the bottom plate 20, the spring groove 200 is used for placing the spring hook 201, assisting the spring hook 201 to work, the spring hook 201 is used for locking the bottom of the protective door 22 and preventing the bottom of the protective door 22 from being pried open, the spring groove 200 is provided with a spring A, the spring A is arranged inside the spring groove 200 and used for pushing the spring hook 201 to pop out the spring groove 200 so as to lock the protective door 22, the pressing block C is welded at the top of the spring hook 201, the clamping strips D are distributed on the inner wall of the spring hook 201, the pressing block C is used for pushing the spring hook 201 to be embedded into the spring groove 200 under the pushing of the electric slider 221 so as to unlock the protective door 22, the clamping strips D are used for reinforcing the locking strength of the spring hook 201, the top plate 21 is provided with a magnetic absorption groove 210 and a magnetic absorption hook 211, the magnetic absorption groove 210 is uniformly distributed on the lower surface of the top plate 21, the magnetic absorption groove 210 is used for assisting the magnetic absorption hook 211 to work, the magnetic absorption hook 211 is absorbed into the magnetic absorption groove 210 under the absorption action of the magnetic strip B so as to unlock the top of the protective door 22, the magnetic absorption groove 210 is provided with a magnetic strip B, the magnetic strip B is embedded inside the magnetic absorption groove 210, the magnetic strip B is used for absorbing the magnetic absorption hook 211 through the magnetic absorption force so as to drive the magnetic absorption hook 211 to retract into the magnetic absorption groove 210, the protective door 22 is provided with a guide rail groove 220, an electric slider 221 and a groove 222, the guide rail groove 220 is embedded in the inner wall of the protective door 22, the electric slider 221 is embedded in the guide rail groove 220, the groove 222 is embedded in the upper end and the lower end of the protective door 22, the guide rail groove 220 is used for assisting in driving the electric slider 221 to slide up and down, the electric slider 221 is used for driving the spring hook 201 and the magnetic hook 211 to work when the guide rail groove 220 slides up and down, the groove 222 is used for matching and locking with the spring hook 201 and the magnetic hook 211, the guide rail groove 220 is provided with a lock hole E, the lock hole E is embedded in the middle of the guide rail groove 220 and used for assisting in triggering the motor F to work, the electric slider 221 is provided with the motor F, the magnet G and the adsorption groove H, the motor F is embedded in the electric slider 221, the magnet G is embedded in the, adsorption tank H locates electronic slider 221 top, motor F is used for driving electronic slider 221 and slides from top to bottom on guide rail groove 220, magnet G is used for adsorbing magnetism to inhale hook 211 to lock, adsorption tank H is used for inhaling magnetism to inhale hook 211 and adsorbing on electronic slider 221, slot 222 is equipped with draw-in groove I, draw-in groove I inlays and locates on slot 222 inner wall, draw-in groove I is used for cooperateing with card strip D and locks.
When the door is used, when the protective door 22 is in a locked state, the magnetic hook 211 is absorbed in the absorption groove H of the electric slider 221 through magnetic attraction, so that the electric slider 221 and the magnetic hook 211 are absorbed together through the magnet G, when the electric slider 221 and the magnetic hook 211 are absorbed together, the magnetic hook 211 is embedded in the clamping groove 222 of the protective door 22, so that the top of the protective door 22 is locked, when the door is opened, the door is unlocked by inserting a key into the lock catch E, the motor F is triggered to work in the unlocking process, and the electric slider 221 is driven by the motor E to slide downwards on the guide rail groove 220; when the motor E drives the electric slider 221 to slide downward on the guide rail groove 220, the magnetic hook 211 is separated from the magnet G, and the attraction force of the magnet G is smaller than that of the magnet B, so that when the magnetic hook 211 is separated from the magnet G, the magnetic hook 211 is attracted by the magnet B to be retracted into the magnetic suction groove 210, and when the magnetic hook 211 is retracted into the magnetic suction groove 210, the magnetic hook 211 is driven to be separated from the clamping groove 222, so that the top of the protective door 22 is unlocked; when electronic slider 221 down, when pushing up spring hook 201, briquetting C at spring hook 201 top is down extruded to promote spring hook 201 and extrude downwards, thereby extrusion spring A drives card strip D and breaks away from draw-in groove I, and then breaks away from slot 222, carries out the unblock to guard gate 22 bottom.
Compared with the prior art, the invention has the technical progress that:
can inhale mutually supporting of hook and spring hook through magnetism, roof carries out locking work about the guard gate respectively, trigger work to the motor through the lockhole, drive electronic slider carries out from the unblock work of top to bottom, the unblock process is simple convenient, lock through the three stage about in the last of guard gate, can prevent that the thief from prizing from guard gate top or bottom plate, lead to the guard gate to warp, the problem that precision machinery loses, the inertia of locking is carried out to the middle part only to ordinary guard gate has been changed, strengthen the locking function and the pick-proof effect of guard gate.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.