A kind of key duplicating machine
Technical field
The present invention relates to a kind of saltation layer machinery, particularly to a kind of electronics key duplicating machine.
Background technology
There is the key that a kind of theftproof performance is good in the market, if it is to carve arterial highway on the face of cylinder of key not advise
Key slot then, is unblanked with mating of pellet by key slot, and this key does not has mutual opening rate, really improves the antitheft of lockset
Performance, but this key self has a key code, the key slot data corresponding with key code to be stored in manufacturer, mesh
Front key duplicating machine can not join this key, if after key loss, can only look for production firm's bitting of correspondence, and bitting is not
Convenient.
Summary of the invention
In order to overcome the deficiencies in the prior art, the present invention provides a kind of simple in construction, compact, working (machining) efficiency high joining
Key machine.
The technical solution adopted for the present invention to solve the technical problems is:
A kind of key duplicating machine, including board and controller, described board is provided with cutter shaft component, clamp assembly and location group
Part, described clamp assembly and described positioning component concentric, the axle center of described cutter shaft component is vertical with the axle center of described clamp assembly
Directly, described cutter shaft component is arranged on described board by planar motion mechanism, and described clamp assembly is installed by rotating mechanism
On described board, described controller internal memory contains key code and the cutter shaft component corresponding with this key code and clamp assembly
Motion trace data.
Described planar motion mechanism includes the first guide rail, the second guide rail and cutter shaft motor, described first guide rail and described the
Two guide rails are vertical, and described second guide rails assembling is on described first guide rail, and described cutter shaft motor is arranged on described second guide rail,
Described second guide rail connects its first actuating unit moved along described first guide rail of drive, and described cutter shaft motor connects band
Its second actuating unit moved along described second guide rail dynamic, described cutter shaft component is fixing with the rotating shaft of described cutter shaft motor to be connected
Connecing, described controller electrically connects with described first actuating unit, the second actuating unit and cutter shaft motor.
Described cutter shaft motor is arranged on the first slide unit, and the bottom of described first slide unit is provided with and described second guide rail phase
First slide block of coupling, described second guide rails assembling is fixed on groove first, and described first slide unit is fixedly connected with the first screw thread
Set, described first thread bush is threaded to be had and circumferentially rotates the first screw rod not being axially movable only, described first screw rod
Rear end connects to be had and is arranged on the described first the second actuating unit fixing in groove, and described first front end fixing groove is fixedly connected with
Clutch shaft bearing seat, the front end of described first screw rod is connected with described clutch shaft bearing seat;The described first fixing peace in bottom fixing groove
Equipped with the second slide block matched with described first guide rail, described first guide rails assembling is fixed on groove second, and described first is solid
The bottom determining groove is also associated with the second thread bush, and described second thread bush is threaded to be had to circumferentially rotate only and be not axially movable
The second screw rod, the rear end of described second screw rod connects to have and is arranged on the described second the first actuating unit fixing in groove, institute
Stating the second front end connection fixing groove has the second bearing block, the front end of described second screw rod to be connected with described second bearing block.
Described clamp assembly includes lower fixture block and upper fixture block, and described rotating mechanism includes the second motor, described lower fixture block
Rear end is fixing with the rotating shaft of described second motor to be connected, and described lower fixture block is provided with screwed hole, and described upper fixture block is provided with and institute
Stating the screw that screwed hole matches, described upper fixture block is fixed on described lower fixture block by described screw, described upper fixture block and institute
State the jaws formed between lower fixture block for fixing key.
Described positioning component include the 3rd bearing block, described 3rd bearing block be provided with circumferentially rotate only and can not be axial
The thimble of movement, the indent that described thimble is just tapered to the end face of described clamp assembly one end.
The invention has the beneficial effects as follows: the cutter shaft component of the present invention can all around move, clamp assembly can circumference
Rotating, during bitting, clamp assembly fixes one end of key to be processed, and positioning component withstands the other end of key, controller
Key code according to input calls the cutter shaft component stored in advance and clamp assembly motion trace data, control cutter shaft component and
The kinestate of clamp assembly, has simple in construction, easy to operate, machining accuracy advantages of higher.
Accompanying drawing explanation
The present invention is further described with embodiment below in conjunction with the accompanying drawings.
Fig. 1 is the overall structure schematic diagram of the present invention;
Fig. 2 is structure enlarged diagram at A of the present invention;
Fig. 3 is one of partial structurtes schematic diagram of the present invention;
Fig. 4 is the two of the partial structurtes schematic diagram of the present invention;
Fig. 5 is the structural representation of positioning component.
Detailed description of the invention
Referring to figs. 1 through Fig. 5, a kind of key duplicating machine, including board 1 and controller 2, described board 1 is provided with cutter shaft group
Part 3, clamp assembly and positioning component, described clamp assembly and described positioning component concentric, the axle center of described cutter shaft component with
The axis perpendicular of described clamp assembly, described cutter shaft component 3 is arranged on described board 1 by planar motion mechanism, described folder
Tool assembly is arranged on described board 1 by rotating mechanism, and clamp assembly fixes one end of key to be processed, positioning component top
Living the other end of key, described controller 2 internal memory contains key code and the cutter shaft component 3 corresponding with this key code and fixture
Component movement track data, cutter shaft component is mainly the milling cutter of high speed rotating, has an advantage that machining accuracy is high, simple in construction,
Etc. advantage.
Described planar motion mechanism includes the first guide rail the 18, second guide rail 10 and cutter shaft motor 4, described first guide rail 18 with
Described second guide rail 10 is vertical, and described second guide rail 10 is arranged on described first guide rail 18, and described cutter shaft motor 4 is arranged on institute
Stating on the second guide rail 10, described second guide rail 10 connects its first actuating unit moved along described first guide rail 18 of drive
22, described cutter shaft motor 3 connects its second actuating unit 13 moved along described second guide rail 10 of drive, described cutter shaft component
3 fixing with the rotating shaft of described cutter shaft motor 4 are connected, described controller 2 and described first actuating unit the 22, second actuating unit 13
Electrically connect with cutter shaft motor 4.
In the present embodiment, described cutter shaft motor 4 is arranged on the first slide unit 9, and the bottom of described first slide unit 9 is provided with
The first slide block 16 matched with described second guide rail 10, described second guide rail 10 is arranged on first and fixes on groove 15, and described
One slide unit 9 is fixedly connected with the first thread bush 11, and described first thread bush 11 is threaded that circumferentially rotate only can not be axial
First screw rod 12 of movement, the rear end of described first screw rod 12 connects to have and is arranged on the described first the second power fixing in groove 15
Mechanism 13, described first front end fixing groove 15 is fixedly connected with clutch shaft bearing seat 14, the front end of described first screw rod 12 and institute
State clutch shaft bearing seat 14 to connect;Described first bottom fixing groove 15 is installed with matched with described first guide rail 18
Two slide blocks 17, described first guide rail 18 is arranged on second and fixes on groove 19, and described first bottom fixing groove 15 is also associated with
Two thread bush 20, described second thread bush 20 is threaded to be had and circumferentially rotates the second screw rod 21 not being axially movable, institute only
Stating the rear end of the second screw rod 21 to connect and have and be arranged on the described second the first actuating unit 22 fixing in groove 19, described second is solid
The front end connection determining groove 19 has the second bearing block 23, the front end of described second screw rod 21 to be connected with described second bearing block 23.
Described clamp assembly includes lower fixture block 24 and upper fixture block 25, and described rotating mechanism includes the second motor 8, described lower folder
The rear end of block 24 is fixing with the rotating shaft of described second motor 8 to be connected, and described lower fixture block 24 is provided with screwed hole, described upper fixture block 25
Being provided with the screw 26 matched with described screwed hole, described upper fixture block 25 is fixed on described lower fixture block 24 by described screw 26
On, formed for fixing the jaws 29 of key between described upper fixture block 25 and described lower fixture block 24, described positioning component includes the
Three bearing blocks 7, described 3rd bearing block 7 is provided with the thimble 6 circumferentially rotated only and be not axially movable, and described thimble 6 is just
The indent tapered to the end face of described clamp assembly one end.
When fixing key to be processed, unclamping screw 26, part key is put in jaws 29, and key is sandwiched in upper concave hole 27
With in the accommodating hole of lower shrinkage pool 28 composition, the front end of spoon body heads into inner position at the conical indentation of thimble 6, furbuckles 26, treats
The key of processing just fixedly secures on clamp assembly, and controller calls, according to the key code of input, the cutter shaft group stored in advance
Part and clamp assembly motion trace data, control cutter shaft component and the kinestate of clamp assembly, have simple in construction, operation side
Just, machining accuracy advantages of higher.