CN213794327U - Automatic machining device for anti-theft lock cylinder - Google Patents

Abstract

The utility model relates to a lock core processingequipment, especially theftproof lock core automatic processing device, include: processing a bottom plate; the pressing-in device is fixed on the processing bottom plate and used for pressing in pins; the punching device is fixed on the processing bottom plate and used for punching the lock cylinder; the clamping device is positioned below the press-in device and the punching device and is used for clamping the lock cylinder; the transposition device is fixed on the machining bottom plate, the clamping device is installed on the transposition device, and the transposition device is used for switching the clamping device between the pressing-in device and the punching device. The utility model provides an automatic processing device of theftproof lock core can realize that automatic brill pin, pin are automatic to be impressed, degree of automation is high, work efficiency is high, the location is accurate, the pin hangs down straightness good, the pin is packed into stably.

Description

Automatic machining device for anti-theft lock cylinder

Technical Field

The utility model relates to a lock core processingequipment, especially theftproof lock core automatic processing device.

Background

In order to improve the anti-theft performance of the lock cylinder, high-strength pins are arranged at two ends of the lock cylinder, and the pins can prevent a drill bit from damaging the lock cylinder, so that the anti-theft effect is realized.

After the lower lock cylinder of the anti-theft lock cylinder is machined, pin holes are machined at two ends of the lock cylinder, and then pins are pressed into the pin holes, so that the anti-theft lock cylinder can be machined.

At present, the lock cylinder is punched manually, the lock cylinder is usually placed on a V-shaped block and then punched, and due to the fact that the lock cylinder is not fixed, a pin hole is prone to being inclined, subsequent pin assembling is difficult, the position of the lock cylinder needs to be manually corrected, and working efficiency is low.

At present, the pins are all installed manually, a worker takes the pins with one hand and aligns the pins with the pin holes in the lock cylinder, and then the pins are knocked into the pin holes through a hammer. The pin assembling speed is low in the mode, the pin is inclined when the pin is knocked easily, so that the pin cannot be inserted into the pin hole, the pin needs to be taken out and repaired, and the pin can be continuously installed after the hole is repaired. The existing manual pin installation has low working efficiency, and the pin is easy to block, so that more reworking is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides a can realize automatic brill pin, the pin is automatic to be impressed, degree of automation is high, work efficiency is high, the pin hangs down straightness good, the pin is packed into stable theftproof lock core automatic processing device, and concrete technical scheme is:

theftproof lock core automatic processing device includes: processing a bottom plate; the pressing-in device is fixed on the processing bottom plate and used for pressing in pins; the punching device is fixed on the processing bottom plate and used for punching the lock cylinder; the clamping device is positioned below the press-in device and the punching device and is used for clamping the lock cylinder; the transposition device is fixed on the machining bottom plate, the clamping device is installed on the transposition device, and the transposition device is used for switching the clamping device between the pressing-in device and the punching device.

Furthermore, the two clamping devices and the two punching devices are respectively arranged on two sides of the pressing-in device and are both installed on the transposition device.

Further, the transposition device includes: the transposition bottom plate is fixed on the processing bottom plate; the clamping device is slidably mounted on the transposition bottom plate; the transposition air cylinder is fixed on the transposition bottom plate, and a piston rod of the transposition air cylinder is connected with the clamping device; the first transposition positioning column is fixed on the transposition bottom plate, is positioned on one side of the punching device, and is used for positioning the clamping device during punching; and the second transposition positioning column is fixed on the transposition bottom plate, is positioned on one side of the pressing-in device and is used for positioning the clamping device when the pin is pressed in.

Further, the clamping device includes: the clamping bottom plate is arranged on the transposition device; the clamping seat is provided with a positioning groove; one end of the clamping rod is hinged to the top of the clamping seat, and a clamping groove corresponding to the positioning groove is formed in the clamping rod; the clamping shaft is fixed at the other end of the clamping rod; the clamping connecting rod is provided with a waist-shaped clamping hole, and the clamping shaft is movably inserted into the clamping hole; the clamping cylinder is fixed on the clamping bottom plate, and a piston rod of the clamping cylinder is provided with the clamping connecting rod; and the rear positioning block is fixed on the clamping bottom plate and is positioned at one end of the positioning groove, and the rear positioning block is used for axially positioning the lock cylinder.

Further, the punching device comprises: an electric drill; the punching seat is provided with an electric drill; the punching seat is slidably mounted on the punching frame, and the punching frame is mounted on the processing bottom plate; the punching motor is fixed on the punching frame; one end of the ball screw is connected with the punching motor; and the screw rod nut is movably arranged on the ball screw and is connected with the punching seat.

The drilling device further comprises a drilling positioning plate, wherein the drilling positioning plate is positioned below the electric drill bit, a drilling positioning hole is formed in the drilling positioning plate, and the drill bit on the electric drill bit is movably inserted into the drilling positioning hole.

Further, the press-in device includes: the vibration feeding device is fixed on the processing bottom plate; the pressing-in frame is fixed on the processing bottom plate; the press-in driving device is fixed at the top of the press-in frame; the press-in rod is fixed on the press-in driving device; the pressing positioning plate is provided with a pressing feeding hole, and the pressing feeding hole is connected with the vibration feeding device; the feeding plate is slidably mounted on the press-in frame and located below the press-in feeding hole, a material storage hole and a press-in hole are formed in the feeding plate, the material storage hole and the press-in hole are coaxially arranged, the diameter of the material storage hole is larger than that of the pin, and the straight line of the material storage hole is smaller than that of the pin; the feeding driving device is fixed on the press-in frame and connected with the feeding plate; the press-in device comprises a feeding state and a press-in state: when the feeding state is realized, the feeding driving device drives the feeding plate to be in a retraction state, the vibration feeding device feeds the pin into the material storage hole by pressing the pin into the feeding hole, and the lock cylinder is arranged in the clamping device; when the material is pressed into the material storage hole, the feeding driving device drives the feeding plate to be in an extending state, the clamping device clamps the lock cylinder tightly, and the pressing driving device drives the pressing rod to be pressed into the material storage hole to press the pin into the lock cylinder from the pressing hole.

Further, the press-in driving device includes: the pressing-in air cylinder is fixed at the top of the pressing-in frame, and a pressing-in rod is arranged at the tail end of a piston rod of the pressing-in air cylinder; the pressing-in guide plate is fixed on a piston rod of the pressing-in air cylinder; the press-in guide rod is movably inserted into the top of the press-in frame, and one end of the press-in guide rod is fixed on the press-in guide plate; and the pressing-in positioning ring is fixed at the other end of the pressing-in guide rod and is used for adjusting the pressing-in position of the pressing-in rod.

Further, the feeding driving device comprises: the feeding bottom plate is fixed on the press-in frame; the feeding cylinder is fixed on the feeding bottom plate, and a piston rod of the feeding cylinder is connected with the feeding plate; the feeding positioning columns are fixed on the feeding bottom plate and are provided with two feeding positioning columns; the feeding positioning rod is arranged on the feeding positioning column through threads; the feeding positioning block is arranged on one side of the feeding plate and located between the two feeding positioning rods, the feeding positioning rods and the feeding positioning block are used for enabling the material storage hole to be coaxial with the press-in rod when the feeding plate extends out, and enabling the material storage hole to be coaxial with the press-in feeding hole when the feeding plate retracts.

Further, the method also comprises the following steps: the pressing block is provided with a material storage hole and a pressing hole, positioning fixing grooves are formed in two sides of the pressing block, and the pressing block is movably arranged in an insert hole of the feeding plate; and the positioning fixing shaft is fixed on the feeding plate, positioned on two sides of the insert block hole and movably inserted into the positioning fixing groove.

Compared with the prior art the utility model discloses following beneficial effect has:

the utility model provides an automatic processing device of theftproof lock core can realize that automatic brill pin, pin are automatic to be impressed, degree of automation is high, work efficiency is high, the location is accurate, the pin hangs down straightness good, the pin is packed into stably.

Drawings

FIG. 1 is a schematic structural diagram of an automatic machining device for an anti-theft lock cylinder;

FIG. 2 is a front view of the automatic anti-theft lock cylinder machining device;

FIG. 3 is a schematic view of the structure of the index device;

FIG. 4 is a schematic view of the structure of the punching apparatus;

FIG. 5 is a front view of the opening device;

FIG. 6 is a schematic view of a punching positioning plate;

FIG. 7 is a schematic view of the structure of the clamping device;

FIG. 8 is a front view of the clamping device;

FIG. 9 is a top view of the clamping device;

FIG. 10 is a schematic view of the clamp link configuration;

FIG. 11 is a schematic view of the structure of the clamping seat;

FIG. 12 is a schematic view of the pressing device;

FIG. 13 is a front view of the press-in device;

FIG. 14 is a schematic view of the feed plate and feed drive;

FIG. 15 is a front view of the feed plate and feed drive;

FIG. 16 is a schematic view of a press-in alignment plate;

fig. 17 is a sectional view of the press-in block.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings.

Example one

As shown in fig. 1 to 17, the automatic machining device for the anti-theft lock cylinder comprises a machining base plate 10; the pressing-in device is fixed on the processing bottom plate 10 and used for pressing in pins; the punching device is fixed on the processing bottom plate 10 and is used for punching the lock cylinder; the clamping device is positioned below the press-in device and the punching device and is used for clamping the lock cylinder; the transposition device is fixed on the machining bottom plate 10, the clamping device is installed on the transposition device, and the transposition device is used for switching the clamping device between the pressing-in device and the punching device.

Specifically, the transposition device includes: the transposition bottom plate 41 is fixed on the processing bottom plate 10; the clamping device is slidably mounted on the transposition bottom plate 41; the transposition air cylinder 43 is fixed on the transposition bottom plate 41, and a piston rod of the transposition air cylinder 43 is connected with the clamping device; the first transposition positioning column 48 is fixed on the transposition bottom plate 41, is positioned on one side of the punching device, and is used for positioning the clamping device during punching; and the second transposition positioning column 47 is fixed on the transposition bottom plate 41 and positioned on one side of the press-in device, and is used for positioning the clamping device when the pin is pressed in.

A clamping device, comprising: the clamping bottom plate 11 is arranged on the transposition device; the clamping seat 12 is provided with a positioning groove 131; one end of the clamping rod 14 is hinged to the top of the clamping seat 12, and a clamping groove 151 corresponding to the positioning groove 131 is formed in the clamping rod 14; a clamp shaft 141, the clamp shaft 141 being fixed to the other end of the clamp rod 14; a clamping connecting rod 16, wherein the clamping connecting rod 16 is provided with a waist-shaped clamping hole 161, and the clamping shaft 141 is movably inserted in the clamping hole 161; the clamping cylinder 17 is fixed on the clamping bottom plate 11, and a piston rod of the clamping cylinder 17 is provided with a clamping connecting rod 16; and the rear positioning block 18, the rear positioning block 18 is fixed on the clamping bottom plate 11 and is located at one end of the positioning groove 131, and the rear positioning block 18 is used for axially positioning the lock cylinder 10.

The clamping bottom plate 11 is installed on the clamping slider 422, the clamping slider 422 is slidably installed on the clamping linear guide rail 421, and the clamping linear guide rail 421 is installed on the transposition bottom plate 41.

The clamping cylinder 17 is fast, can drive the quick lift of clamping bar 14, when clamping bar 14 is in the state of rising, conveniently packs into lock core 10, when clamping bar 14 compresses tightly on lock core 10, lock core 10 is pressed from both sides tightly by constant head tank 131 and clamping groove 151, realizes the location, and lock core 10 presss from both sides tightly stably, and the position is difficult for changing.

The positioning slot 131, the clamping slot 151 and the rear positioning block 18 realize the position fixation of the lock cylinder 10.

The positioning groove 131 is an arc groove or a V-shaped groove matched with the lock cylinder 10, and the clamping groove 151 is an arc groove or a V-shaped groove matched with the lock cylinder 10.

Positioning posts 122 are disposed on both sides of positioning slot 131. Positioning column 122 can carry out assistance-localization real-time to lock core 10, avoids taking place when lock core 10 is put into constant head tank 131 and empties the circumstances such as, guarantees effectual clamp, reduces accident.

The positioning device further comprises a first adjusting screw 19, and the first adjusting screw 19 is mounted on the rear positioning block 18. The first adjusting screw 19 facilitates the adjustment of the axial position of the lock cylinder 10, thereby ensuring the accurate position of the pin hole.

The punching device comprises: an electric drill; the punching seat 23 is provided with an electric drill bit; the punching frame 21 is characterized in that the punching seat 23 is slidably mounted on the punching frame 21, and the punching frame is mounted on the processing bottom plate 10; the punching motor 24, the punching motor 24 is fixed on the punching frame 21; one end of the ball screw 25 is connected with the punching motor 24; and the screw nut is movably arranged on the ball screw 25 and is connected with the punching seat 23.

Because the lifting speed of automatic control punching, avoid the inconsistent condition that causes the pinhole to be extruded into oval hole or aperture grow of feed speed, guaranteed the quality of pinhole, can carry out the tight fit with the pin.

The electric drill comprises a drill motor 26, a chuck and a drill 27, wherein the drill 27 is arranged on the chuck, and the chuck is fixed on a motor shaft of the drill motor 26.

Further comprising: the punching linear guide rail 221, the punching linear guide rail 221 is fixed on the punching frame 21; the punching slider 222 is slidably mounted on the punching linear guide 221, and the punching slider 222 is fixed to the punching base 23.

The press-in device includes: the vibration feeding device is fixed on the processing bottom plate 10; a press-in frame 61, wherein the press-in frame 61 is fixed on the processing base plate 10; the press-in driving device is fixed at the top of the press-in frame 61; the press-in rod 67, the press-in rod 67 is fixed on the press-in driving device, the clamping device is located below the press-in rod 67; a press-in positioning plate 68 is arranged, a press-in feeding hole 691 is formed in the press-in positioning plate 68, and the press-in feeding hole 691 is connected with a vibration feeding device; the feeding plate 53 is slidably mounted on the press-in frame 61 and located below the press-in feeding hole 691, a material storage hole 571 and a press-in hole 572 are formed in the feeding plate 53, the material storage hole 571 and the press-in hole 572 are arranged coaxially, the diameter of the material storage hole 571 is larger than that of the pin, and the straight line of the material storage hole 571 is smaller than that of the pin; the feeding driving device is fixed on the press-in frame 61 and connected with the feeding plate 53; the press-in device comprises a feeding state and a press-in state: when in a feeding state, the feeding driving device drives the feeding plate 53 to be in a retraction state, the vibration feeding device feeds the pin into the material storage hole 571 by pressing into the feeding hole 691, and the lock cylinder 10 is installed in the clamping device; when the lock core is pressed in, the feeding driving device drives the feeding plate 53 to be in an extending state, the clamping device clamps the lock core 10, the pressing driving device drives the pressing rod 67 to be pressed into the material storage hole 571, and the pin is pressed into the lock core 10 from the pressing hole 572.

The vibration feeding device sequentially sends pins into the press-in feeding hole 691, then the pins enter the material storage hole 571, the material storage hole 571 is coaxial with the pin hole in the lock cylinder 10 after the feeding plate 53 extends out, the pins are pressed into the pin hole in the lock cylinder 10 under the action of the press-in driving device, the assembly of the pins is completed, the assembly efficiency is high, the pins are automatically pressed in by adopting equipment, and the pins are pressed in under the guiding of the press-in hole 572 and always keep coaxial with the pin hole, so that the pins are not prone to being skewed when being pressed, the pins are stably and reliably inserted, the rework is less, and the working efficiency is high.

The vibration feeding device is an existing mature product and feeds materials through a circular vibration disc. The vibration feeding device is connected with the press-in feeding hole 691 through a hose. The vibration feeding device is installed on the vibration frame 91, and the vibration frame 91 is fixed on the processing bottom plate 10.

The press-in driving device includes: the pressing-in air cylinder 62 is fixed at the top of the pressing-in frame 61, and the tail end of a piston rod of the pressing-in air cylinder 62 is provided with a pressing-in rod 67; a press-in guide plate 65, the press-in guide plate 65 being fixed to the piston rod of the press-in cylinder 62; the pressing-in guide rod 63 is movably inserted at the top of the pressing-in frame 61, and one end of the pressing-in guide rod 63 is fixed on the pressing-in guide plate 65; and a press-in positioning ring 64, the press-in positioning ring 64 being fixed to the other end of the press-in guide bar 63, for adjusting the press-in position of the press-in bar 67.

The press-in cylinder 62 may be a booster cylinder having a large pressure, or may be a cylinder having a large cylinder diameter. The press-in cylinder 62 is fast and stable. The press-in positioning ring 64 is used to adjust the position of the press-in rod 67 to ensure the press-in position of the pin.

The press-in hole 572 is slightly smaller than the diameter of the pin, and the pin is prevented from automatically falling in the feeding process. The press-in hole 572 may be smaller than the pin by 0.1mm or less, and if the press-in hole 572 is too small, the pin cannot be pressed out and is stuck in the press-in hole 572.

The material storage hole 571 may be a tapered hole or a tapered surface or an arc surface is provided between the material storage hole 571 and the press-in hole 572, and the pin can be smoothly pressed into the press-in hole 572.

The feeding driving device comprises: the feeding bottom plate 51, the feeding bottom plate 51 is fixed on the press-in frame 61; the feeding cylinder 56, the feeding cylinder 56 is fixed on the feeding bottom plate 51, and a piston rod of the feeding cylinder 56 is connected with the feeding plate 53; the feeding positioning columns 54 are fixed on the feeding bottom plate 51, and two feeding positioning columns 54 are arranged; the feeding positioning rod 55 is arranged on the feeding positioning column 54 through threads; the feeding positioning block 531 is arranged on one side of the feeding plate 53 and located between the two feeding positioning rods 55, and the feeding positioning rods 55 and the feeding positioning block 531 are used for enabling the material storage hole 571 to be coaxial with the press-in rod 67 when the feeding plate 53 extends out, and enabling the feeding plate 53 to be coaxial with the press-in feeding hole 691 when the feeding plate 53 retracts.

The feeding plate 53 is slidably mounted on the feeding bottom plate 51 through a linear guide rail pair, and the feeding bottom plate 51 facilitates the mounting of the feeding driving device, so that the assembly is simple. The feeding plate 53 is installed on the feeding slide block 522, the feeding slide block 522 is installed on the feeding linear guide rail 521 in a sliding mode, and the feeding linear guide rail 521 is fixed on the feeding bottom plate 51.

The feeding press-in positioning plate 68 is used for controlling the position of the feeding plate 53, so that the feeding plate 53 can always keep coaxial lines with the press-in feeding hole 691 and the press-in rod 67, the normal operation of feeding and press-in is ensured, and the positioning is accurate and reliable.

In at least one embodiment, the positioning device further comprises a positioning insert 29, the positioning insert 29 is provided with a hole-drilling positioning hole, and the positioning insert 29 is fixed on the hole-drilling positioning plate 283. The hole-drilling positioning hole can be reamed after being used for a period of time, and needs to be replaced, and the positioning insert 29 is convenient to replace.

In at least one embodiment, the method further comprises: a lower positioning block 13, wherein the lower positioning block 13 is provided with a positioning groove 131, and the lower positioning block 13 is fixed on the clamping seat 12; the upper positioning block 15 is provided with a clamping groove 151 on the upper positioning block 15, and the upper positioning block 15 is fixed on the clamping rod 14.

The upper positioning block 15 and the lower positioning block 13 can be replaced according to different lock cylinders 10, so that the application range is improved, and the adjustment according to different lock cylinders 10 is convenient.

The clamping base 12 is provided with a first fixing groove 121, and the lower positioning block 13 is installed in the first fixing groove 121. A set screw is installed at one side of the first fixing groove 121, and the set screw fixes the lower positioning block 13 in the first fixing groove 121.

The clamping rod 14 is provided with a second fixing groove, and the upper positioning block 15 is installed in the second fixing groove. The bottom of the second fixing groove is provided with a screw hole, and the upper positioning block 15 is fixed in the second fixing groove through a screw.

When the lock core clamping mechanism works, the clamping cylinder 17 is in an extending state, the lock core 10 is placed in the positioning groove 131, one end of the lock core 10 is in contact with the rear positioning block 18, then the clamping cylinder 17 retracts, the clamping connecting rod 16 drives the clamping rod 14 to press the lock core 10 through the clamping shaft 141, the clamping groove 151 is pressed on the lock core 10, and the lock core 10 is pressed in the positioning groove 131 and the clamping groove 151. After the lock core 10 is clamped tightly, the punching motor 24 is started, the punching motor 24 drives the ball screw 25 to rotate, the ball screw 25 drives the punching seat 23 to descend through a screw nut, the punching seat 23 drives the electric drill to punch, and the punching motor 24 reversely rotates to lift the electric drill after punching is completed, so that punching is completed. Then the transposition air cylinder 43 is started, the transposition air cylinder 43 moves the clamping device provided with the lock cylinder 10 to the position below the press-in device, the vibration feeding device sequentially sends out pins, the pins enter the press-in feeding hole 691 through a hose, at the moment, the feeding air cylinder 56 is in a retraction state, the material storage hole 571 in the feeding plate 53 is positioned right below the press-in feeding hole 691, the pins enter the feeding hole and are in a vertical state and then enter the material storage hole 571, then the feeding air cylinder 56 pushes the feeding plate 53 to extend, the material storage hole 571 moves to the position right below the press-in rod 67, the press-in air cylinder 62 extends, the press-in rod 67 is inserted into the material storage hole 571 and presses the top of the pins, the pins are pressed into the press-in hole 572 and then enter the pin hole of the lock cylinder 10, when the pins are completely pressed into the pin holes, the automatic press-in of the pins is completed, the press-in air cylinder 62 retracts first, and then the feeding air cylinder 56 retracts, the next pin press-fitting is performed. Then the transposition air cylinder 43 retracts, the clamping device moves to the lower part of the punching device, the clamping air cylinder 17 extends, the lock cylinder 10 is replaced, and automatic punching and pin installation of the next lock cylinder 10 are carried out.

Example two

On the basis of the first embodiment, two clamping devices and two punching devices are arranged and are respectively positioned on two sides of the pressing-in device, and the clamping devices are arranged on the transposition device.

The two clamping devices and the two opening devices are arranged, so that the machining efficiency can be improved, and when pins are installed, the lock cylinders are synchronously replaced and the lock cylinders with holes are replaced, so that continuous production is realized, the preparation time is shortened, and the machining efficiency is greatly improved.

EXAMPLE III

On the basis of any one of the above embodiments, the drilling device further comprises a drilling positioning plate 283, the drilling positioning plate 283 is located below the electric drill, a drilling positioning hole is formed in the drilling positioning plate 283, and the drill 27 on the electric drill is movably inserted into the drilling positioning hole.

Because the punching surface of the lock cylinder 10 is a circular arc surface, the drill 27 is easy to skew when punching is started, so that the quality of the pin hole is poor, and the pin hole is changed into an inclined hole, so that the roundness is poor. The punching positioning plate 283 is close to the top of the lock cylinder 10, so that the drill 27 can be positioned, and the deformation of the drill 27 is limited when the drill 27 contacts with the arc surface of the lock cylinder 10, so that the verticality of the pin hole is ensured, and the roundness of the pin hole is good.

The punching positioning plate 283 is fixed on the punching positioning seat 281, the punching positioning seat 281 is fixed on the punching positioning frame 282, and the punching positioning frame 282 is fixed on the punching bottom plate. The punching positioning seat 281, the punching positioning plate 283 and the punching positioning frame 282 are connected through a waist-shaped hole, so that the position can be conveniently adjusted.

Example four

On the basis of any one of the above embodiments, the pressing-in positioning device further comprises a pressing-in positioning block 682, the pressing-in positioning block 682 is fixed on the pressing-in positioning plate 68, a pressing-in positioning hole 681 is formed in the pressing-in positioning block 682, and the pressing-in rod 67 is movably inserted into the pressing-in positioning hole 681.

The press-in positioning block 682 can perform auxiliary positioning on the press-in rod 67, reduce the deformation of the press-in rod 67, and ensure stable and reliable press-in of the pin.

The press-in positioning device further comprises a feeding column 69, wherein the feeding column 69 is fixed on the press-in positioning block 682, and a press-in feeding hole 691 is formed in the feeding column 69. The feeding column 69 is conveniently connected to the vibrating feeder and can provide a certain length to facilitate the pins to enter the stock holes 571 in a vertical state.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the claims of the present invention.

Claims (10)

1. The automatic processing device for the anti-theft lock cylinder is characterized by comprising

Processing a bottom plate;

the pressing-in device is fixed on the processing bottom plate and used for pressing in pins;

the punching device is fixed on the processing bottom plate and used for punching the lock cylinder;

the clamping device is positioned below the press-in device and the punching device and is used for clamping the lock cylinder;

the transposition device is fixed on the machining bottom plate, the clamping device is installed on the transposition device, and the transposition device is used for switching the clamping device between the pressing-in device and the punching device.

2. The automatic processing device of anti-theft lock cylinder according to claim 1,

the clamping devices and the punching devices are respectively arranged at two sides of the pressing-in device, and the clamping devices are installed on the transposition device.

3. The automatic processing device of anti-theft lock cylinder according to claim 1,

the transposition device includes:

the transposition bottom plate is fixed on the processing bottom plate;

the clamping device is slidably mounted on the transposition bottom plate;

the transposition air cylinder is fixed on the transposition bottom plate, and a piston rod of the transposition air cylinder is connected with the clamping device;

the first transposition positioning column is fixed on the transposition bottom plate, is positioned on one side of the punching device, and is used for positioning the clamping device during punching;

and the second transposition positioning column is fixed on the transposition bottom plate, is positioned on one side of the pressing-in device and is used for positioning the clamping device when the pin is pressed in.

4. The automatic processing device of anti-theft lock cylinder according to claim 1,

the clamping device includes:

the clamping bottom plate is arranged on the transposition device;

the clamping seat is provided with a positioning groove;

one end of the clamping rod is hinged to the top of the clamping seat, and a clamping groove corresponding to the positioning groove is formed in the clamping rod;

the clamping shaft is fixed at the other end of the clamping rod;

the clamping connecting rod is provided with a waist-shaped clamping hole, and the clamping shaft is movably inserted into the clamping hole;

the clamping cylinder is fixed on the clamping bottom plate, and a piston rod of the clamping cylinder is provided with the clamping connecting rod;

and the rear positioning block is fixed on the clamping bottom plate and is positioned at one end of the positioning groove, and the rear positioning block is used for axially positioning the lock cylinder.

5. The automatic processing device of anti-theft lock cylinder according to claim 1,

the punching device includes:

an electric drill;

the punching seat is provided with an electric drill;

the punching seat is slidably mounted on the punching frame, and the punching frame is mounted on the processing bottom plate;

the punching motor is fixed on the punching frame;

one end of the ball screw is connected with the punching motor;

and the screw rod nut is movably arranged on the ball screw and is connected with the punching seat.

6. The automatic processing device of anti-theft lock cylinder according to claim 5,

the drilling device is characterized by further comprising a drilling positioning plate, wherein the drilling positioning plate is located below the electric drill bit, a drilling positioning hole is formed in the drilling positioning plate, and the drill bit on the electric drill bit is movably inserted into the drilling positioning hole.

7. The automatic processing device of anti-theft lock cylinder according to claim 1,

the press-in device includes:

the vibration feeding device is fixed on the processing bottom plate;

the pressing-in frame is fixed on the processing bottom plate;

the press-in driving device is fixed at the top of the press-in frame;

the press-in rod is fixed on the press-in driving device;

the pressing positioning plate is provided with a pressing feeding hole, and the pressing feeding hole is connected with the vibration feeding device;

the feeding plate is slidably mounted on the press-in frame and located below the press-in feeding hole, a material storage hole and a press-in hole are formed in the feeding plate, the material storage hole and the press-in hole are coaxially arranged, the diameter of the material storage hole is larger than that of the pin, and the straight line of the material storage hole is smaller than that of the pin;

the feeding driving device is fixed on the press-in frame and connected with the feeding plate;

the press-in device comprises a feeding state and a press-in state:

when the feeding state is realized, the feeding driving device drives the feeding plate to be in a retraction state, the vibration feeding device feeds the pin into the material storage hole by pressing the pin into the feeding hole, and the lock cylinder is arranged in the clamping device;

when the material is pressed into the material storage hole, the feeding driving device drives the feeding plate to be in an extending state, the clamping device clamps the lock cylinder tightly, and the pressing driving device drives the pressing rod to be pressed into the material storage hole to press the pin into the lock cylinder from the pressing hole.

8. The automatic processing device of anti-theft lock cylinder according to claim 7,

the press-in driving device includes:

the pressing-in air cylinder is fixed at the top of the pressing-in frame, and a pressing-in rod is arranged at the tail end of a piston rod of the pressing-in air cylinder;

the pressing-in guide plate is fixed on a piston rod of the pressing-in air cylinder;

the press-in guide rod is movably inserted into the top of the press-in frame, and one end of the press-in guide rod is fixed on the press-in guide plate;

and the pressing-in positioning ring is fixed at the other end of the pressing-in guide rod and is used for adjusting the pressing-in position of the pressing-in rod.

9. The automatic processing device of anti-theft lock cylinder according to claim 7,

the feeding driving device comprises:

the feeding bottom plate is fixed on the press-in frame;

the feeding cylinder is fixed on the feeding bottom plate, and a piston rod of the feeding cylinder is connected with the feeding plate;

the feeding positioning columns are fixed on the feeding bottom plate and are provided with two feeding positioning columns;

the feeding positioning rod is arranged on the feeding positioning column through threads;

the feeding positioning block is arranged on one side of the feeding plate and located between the two feeding positioning rods, the feeding positioning rods and the feeding positioning block are used for enabling the material storage hole to be coaxial with the press-in rod when the feeding plate extends out, and enabling the material storage hole to be coaxial with the press-in feeding hole when the feeding plate retracts.

10. The automatic processing device of anti-theft lock cylinder according to claim 7,

further comprising:

the pressing block is provided with a material storage hole and a pressing hole, positioning fixing grooves are formed in two sides of the pressing block, and the pressing block is movably arranged in an insert hole of the feeding plate;

and the positioning fixing shaft is fixed on the feeding plate, positioned on two sides of the insert block hole and movably inserted into the positioning fixing groove.

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