CN112719033B - Efficient automatic lock making equipment - Google Patents

Abstract

The invention discloses efficient automatic lock making equipment, which comprises a shell, supporting legs and self-pairing lock making equipment, wherein the shell is provided with a locking mechanism; the self-pairing locking equipment comprises a first chute arranged above the shell, a feed block capable of moving back and forth in the first chute, a first accommodating cavity arranged on the feed block, an accommodating block arranged in the first accommodating cavity, a plurality of blanking pipelines arranged on the accommodating block, a first groove arranged above the shell, a material taking structure arranged in the first groove and a stamping structure arranged in the shell and matched with the material taking structure; according to the invention, a plurality of blanking channels are arranged in the accommodating blocks, and the material taking structure is used for taking materials in a certain blanking pipeline in each accommodating block, so that each arrangement is unique, the quality of finally manufactured locks is ensured, the good safety protection capability of the locks is ensured, meanwhile, the cooperation between keys and the locks is ensured through the cooperation between the punching structure and the material taking structure, and the subsequent manual detection cost is reduced.

Description

Efficient automatic lock making equipment

Technical Field

The invention belongs to the technical field of curtain wall installation, and particularly relates to efficient automatic lock making equipment.

Background

In the manufacturing process of the lock, the marbles inside the lock are arranged differently, so that different locks can be manufactured, and the uniqueness of the lock to a key is guaranteed. Meanwhile, if the lock and the key are manufactured separately, the matching between the lock and the key is easy to generate the situation of no matching, the situation of confusion is easy to generate, and the manufacturing labor cost of the lock is high.

Disclosure of Invention

The invention provides efficient automatic lock making equipment for overcoming the defects of the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme: an efficient automatic lock making device comprises a shell, support legs arranged below the shell and self-pairing lock making equipment arranged in the shell; the self-pairing locking equipment comprises a first chute arranged above the shell, a feeding block capable of moving back and forth in the first chute, a first accommodating cavity arranged on the feeding block, an accommodating block arranged in the first accommodating cavity, a plurality of blanking pipelines arranged on the accommodating block, a first groove arranged above the shell, a material taking structure arranged in the first groove and a stamping structure arranged in the shell and matched with the material taking structure; by arranging a plurality of discharging pipelines in the accommodating blocks, placing the same type of marble in the discharging pipelines, placing different types of marble between the discharging pipelines in the same accommodating block, namely, when taking materials, taking materials from the marble in different accommodating blocks in a system mode, namely, when the discharging pipelines in the accommodating block at the most corner all finish taking materials once in the taking process, the adjacent accommodating blocks switch the discharging pipelines, thereby effectively ensuring the uniqueness of the arrangement of the marble arranged in each lock in the process of installing the marble, ensuring the uniqueness of the lock cylinder after the final manufacturing is finished, avoiding the possibility that the lock can be opened by a plurality of keys, thereby increasing the safety of the lock, and switching the accommodating blocks above through the arrangement that the material supply block can move back and forth in the first chute, thereby adding new marble types, further increasing the diversity of locks, guaranteeing the uniqueness of the final product, increasing the randomness of marble arrangement, simultaneously, through the cooperation between the punching structure and the material taking structure, so that when selecting the marble, the punching structure simultaneously processes the key corresponding to the lock cylinder, on one hand, ensuring that the key can be timely paired with the lock cylinder, avoiding a series of troubles caused by confusion between the subsequent lock and the key, simultaneously, the structure can be inserted into the lock cylinder after processing the key, thereby jacking up the marble upwards, and at the moment, if the marble is on the same plane, the lock cylinder is paired with the key, thereby effectively facilitating subsequent pairing detection, ensuring the pairing between the lock cylinder and the key at a glance through detection, the manual detection cost is reduced.

The material taking structure comprises a box body arranged in the first groove, a plurality of through holes formed in the distribution box, a distribution block rotatably arranged in the through holes, a discharging hole formed in the distribution block, a first convex tooth arranged on the distribution block, a first gear matched with the first convex tooth, a motor rod arranged below the first gear, a first motor used for driving the motor rod to rotate, a sensor arranged on the side wall of the discharging hole, a material separation plate controlled by the sensor to move back and forth, a first transmission structure used for linking two adjacent distribution blocks, an adjusting structure arranged below the first groove and a mounting structure arranged in the shell; the rotation of the first motor drives the motor rod to rotate so as to drive the first gear to rotate, then the rotation of the first gear drives the distribution blocks meshed with the first gear through the first convex teeth to rotate, the distribution blocks rotate to enable the blanking holes to be continuously switched to be in butt joint with the blanking pipelines above, the material separating plate is opened after a certain distance is rotated, then the material separating plate falls downwards along the blanking holes and is detected through the sensor in the falling process, after one material separating plate passes through the material separating plate, the sensor drives the material separating plate to move so as to seal the blanking holes, only one falling at a time is guaranteed, each distribution block takes one material separating plate, corresponding arrangement is carried out, so that an arrangement combination is formed, after one combination is completed, the distribution blocks rotate and correspond to the adjacent other blanking pipelines, blanking is carried out again, after the distribution blocks driven by the first gear rotate, the distribution blocks adjacent to the distribution blocks are switched to the adjacent blanking pipelines on the corresponding material separating plate under the driving of the first transmission structure, and therefore, the unique arrangement of the material separating plates is guaranteed through the different round of binary system, and the unique arrangement of the lock cylinders is guaranteed.

The first transmission structure comprises a first rotating block sleeved on the distribution block, a plurality of second grooves formed in the first rotating block, a first arc-shaped groove formed between two adjacent second grooves, a second rotating block sleeved on the adjacent distribution block, a second arc-shaped groove formed in the second rotating block, a convex column arranged in the second arc-shaped groove, and a cushion block used for adjusting the height between the first rotating block and the second rotating block; when rotating, the second rotating block will be clamped in the first arc-shaped groove, thereby fix the first rotating block, thereby guaranteed the butt joint between distribution block and the unloading hole in the rotation process, after rotating to a certain extent, the projection on the second rotating block will gradually the joint get into the second recess, immediately the initiative of second rotating block will drive first rotating block and rotate, rotation angle corresponds with the quantity of unloading pipe, thereby the second block again the joint is fixed in the first arc-shaped groove after the rotation is accomplished, thereby control the concatenation between unloading hole and the adjacent unloading pipe, guaranteed the stability that unloading pipe was switched, thereby guaranteed the stability of pivoted, guaranteed the stability of equipment, thereby guaranteed the stability of pellet shot from a slingshot unloading, through the setting of this structure, the uniqueness of arranging has effectively been guaranteed through the mode of making a slingshot, the stability of pellet shot from a slingshot unloading has been effectively guaranteed simultaneously, the production efficiency of equipment has been improved.

The adjusting structure comprises an adjusting cavity arranged below the distributing block, a first blanking channel arranged below the adjusting cavity, a partition plate arranged on the side wall of the adjusting cavity, a first cavity arranged on the side wall of the first blanking channel, a baffle plate capable of moving back and forth in the first cavity, a first elastic piece arranged in the first cavity and used for resetting the baffle plate, a blanking through hole arranged on the baffle plate, a first through groove arranged on the baffle plate, a cam sleeved on the motor rod and a reversing structure arranged in the adjusting cavity; the adjusting cavity is arranged to be funnel-shaped, when materials fall from the blanking hole, the materials are attached to the side wall of the adjusting cavity and slide downwards in an inclined mode, and the materials can fall in a vertical mode when entering the first blanking channel due to the fact that the materials are clamped between the interface partition plates in the falling process, so that sliding fluency of the materials is guaranteed, the possibility that the materials rotate in the sliding process is avoided, the condition that the materials are blocked is avoided, the materials entering the first blanking channel are blocked by the baffle plate and temporarily stored, when the motor rod drives the cam to rotate and squeeze the inner wall of the first through groove, the baffle plate is pushed to move in the first cavity, the blanking through hole is enabled to be connected with the first blanking channel relatively, the materials can fall downwards through the blanking through hole, the materials can enter the first blanking channel simultaneously, and the condition that the follow-up machining fluency is avoided.

The reversing structure comprises a step arranged on the side wall of the adjusting cavity, a chamfer arranged on the step, a limiting block arranged on the partition plate, an air cavity arranged on the side wall of the adjusting cavity, a second through groove used for communicating the air cavity with the adjusting cavity, a first center rod arranged in the second through groove, a push plate sleeved on the first center rod, a second elastic piece arranged in the air cavity and used for resetting the push plate, a total air passage arranged in the shell, a first air passage used for communicating the total air passage with the air cavity, an air pump arranged above the shell and a second air passage used for communicating the total air passage with the air pump; when the marble falls downwards with the rounded end, the lower end of the marble is lifted up through the fit between the rounded corner and the chamfer, so that the marble is not scratched by any resistance from the position between the step and the limiting block, if the marble falls down with the flat end at the other end, the movement of the marble is stopped under the action of the step, then the air pump is used for inflating the air in the main air channel, then the internal air pressure is increased, part of the marble enters the air cavity along the first air channel, so that the push plate is pushed to rotate by sleeving the first central rod, the second elastic piece is extruded to deform, the upper end of the marble is pushed by the overturning of the push plate, the marble is pushed to overturn, then the lower end of the marble is limited by the limiting block and the bottom of the marble is moved to the position above the chamfer from the bevel of the step, the marble is supported by the bevel, at the moment, the upper end of the push plate is pushed by the push plate, so that the marble rotates around the limiting block, finally the round circular ring formed by the round corner end is downwards, the air pressure is outwards ejected from the push plate, the push plate is guided to move upwards, and then the marble is rebounded to form downward wind, so that the marble is pushed to move downwards, the marble is accelerated, the marble is pushed to move downwards, the marble is pushed to overturn along the first central rod and the first central rod is not easy to rotate, and the material falling device is guaranteed, and the quality is guaranteed.

The mounting structure comprises a second cavity arranged below the shell, a first air cylinder arranged at the top of the second cavity, a first block arranged below the first air cylinder, a second blanking channel arranged on the first block, a material guide pipe arranged below the first block, a soft pipe used for communicating the first blanking channel and the second blanking channel, a third cavity arranged on the side wall of the second blanking channel, a contact pin capable of moving back and forth in the third cavity, a third elastic piece arranged in the third cavity and used for resetting the contact pin, a rope body with two ends connected with the contact pin and the top wall of the second cavity respectively, and a third air flow channel arranged on the side wall of the first blanking channel; the marble will be along first unloading passageway, through the direction of soft pipe, finally get into in the second unloading passageway, and because the setting of third air current way opening slope downward this moment, thereby the in-process that falls will receive the acceleration of atmospheric pressure in the third air current way when the marble, thereby the speed that has accelerated the marble and fall, simultaneously avoided the marble when passing through soft pipe, because the frictional force between the inner wall is great, or the material that the contained angle between soft pipe and the level is too little probably produced blocks, the marble finally falls into the passage, and received the spacing of contact pin, then first cylinder will drive first block and move down, thereby carry out the packing of marble to the lock core, will pull the mode of contact pin through the rope body in the in-process of first block down, thereby will be retracted into in the third cavity with the contact pin, thereby the marble will move down under the effect of gravity and atmospheric pressure, finally, installation effectiveness of equipment has been accelerated through this mode, simultaneously avoided the inside blocking problem of equipment has been improved.

The stamping structure comprises a fourth cavity arranged in the shell, a second cylinder arranged above the fourth cavity, a bracket arranged in the fourth cavity, a second chute arranged on the bracket, a second block arranged between the brackets and moving up and down, extension blocks fixedly connected to two sides of the second block and capable of moving back and forth in the second chute, a fourth elastic piece arranged in the second chute and used for resetting the extension blocks, a second center rod arranged on the second block, a swivel sleeved on the second center rod, a first notch arranged on the swivel, a cutter arranged on the swivel, a clamping block arranged below the cylinder, a conveying crawler belt arranged below the second block, a clamp arranged on the conveying crawler belt, a friction block arranged on the second block, a driving structure used for driving the swivel to rotate and a second transmission structure arranged between two adjacent swivel; the clamping block is driven to move downwards through the second cylinder, the clamping block moves downwards to be clamped in the first notch on the rotating ring, so that the rotating ring is fixed to a certain extent, the rotating ring is prevented from rotating in the downward moving process, the second block is pushed to move downwards along with the continuous descending of the clamping block, the extending blocks arranged on two sides of the second block move downwards along the second sliding groove in the downward moving process of the second block, the fourth elastic piece is extruded, the whole second block is pushed to move downwards, the rotating ring sleeved on the rotating ring is controlled to move downwards, cutters corresponding to the balls are arranged on the rotating ring, the number of cutters on each rotating ring is identical to the number of blanking pipelines on the containing block and corresponds to the number of the blanking pipelines on the containing block, the rotating ring rotates synchronously with the rotating of the distributing block, the clamp on the conveying track is cut through the downward moving of the cutters, the corresponding key is manufactured, the friction block is set to stop the rotating ring to a certain extent, the rotating ring is prevented from rotating on the second center rod, the rotating block is prevented from rotating on the corresponding center rod, the rotating ring is prevented from moving downwards due to the positioning of the clamping block, and the key is guaranteed to be smooth in the production process, and the displacement is guaranteed, and the displacement of the key is guaranteed, and the displacement is guaranteed, and the production process is smooth.

The driving structure comprises a fifth cavity arranged in the shell, a first bevel gear sleeved on the motor rod, a second bevel gear arranged in the fifth cavity and matched with the first bevel gear, a second gear arranged on the side wall of the fourth cavity, a connecting rod used for connecting the second bevel gear and the second gear, a third gear arranged below the second gear, a second convex tooth arranged on the third gear, a conveying belt sleeved on the third gear and the second gear, a third rotating block used for driving the rotating ring to rotate and a third convex tooth arranged on the third rotating block; the first motor rotates and drives the first bevel gear to rotate, the second bevel gear meshed with the first bevel gear drives the second gear to rotate, the second gear and the third gear are linked through the conveying belt, so that synchronous rotation is achieved, the third rotating block is driven to rotate through meshing between the second convex teeth arranged on the third gear and the third convex teeth on the third rotating block, finally the rotating ring is driven to rotate, switching of a cutter on the rotating ring is achieved, when the second block moves downwards, the third rotating block and the second convex teeth are separated, reset is achieved after cutting is achieved, in the process, the clamping block effectively ensures full and good meshing between the third rotating block and the second convex teeth, abrasion of equipment is reduced, the service life of the equipment is prolonged, synchronism of the distribution block and the rotating ring rotation is effectively guaranteed, and production smoothness of the equipment is improved.

The second transmission structure comprises third grooves formed in two sides of the swivel, a sleeve block arranged in the third groove on one side, fourth convex teeth arranged on the sleeve block, a fixing column arranged in the third groove on the other side, a fourth swivel block sleeved on the fixing column, fifth convex teeth arranged on the fourth swivel block and matched with the fourth convex teeth, a second notch arranged on the fourth swivel block, a clamping column arranged in the second notch, a transmission block arranged in the third groove, a third arc-shaped groove arranged on the transmission block and a clamping interface arranged between two adjacent third arc-shaped grooves; the rotation of swivel will be through the engagement between fourth dogtooth on the cover piece and the fifth dogtooth on the fourth swivel to drive the fourth swivel and rotate, in rotating the in-process fourth swivel will joint in the arc wall, thereby fix adjacent transmission piece, along with continuing to rotate, the joint post will joint in the joint mouth, drive adjacent swivel and rotate afterwards, the fourth swivel is fixed in the third arc wall again joint after rotating certain angle, thereby the stability of swivel's rotation has been ensured through the setting of this structure, with distribution piece pivoted synchronism, the smooth degree of operation of equipment has been improved, the quality of final product has been guaranteed simultaneously.

According to the invention, a plurality of blanking channels are arranged in the accommodating blocks, and the material taking structure is used for taking materials in a certain blanking pipeline in each accommodating block, so that each arrangement is unique, the quality of finally manufactured locks is ensured, the good safety protection capability of the locks is ensured, meanwhile, the cooperation between keys and the locks is ensured through the cooperation between the punching structure and the material taking structure, and the subsequent manual detection cost is reduced.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a right side view of the present invention.

Fig. 3 is a schematic perspective cross-sectional view of fig. 2 taken along line A-A.

Fig. 4 is an enlarged schematic view at a in fig. 3.

Fig. 5 is an enlarged partial schematic view of fig. 4.

Fig. 6 is an enlarged schematic view of the structure of the step.

Fig. 7 is an enlarged schematic view at B in fig. 3.

Fig. 8 is a schematic structural view of the pin.

Fig. 9 is an enlarged schematic view at C in fig. 3.

Fig. 10 is a front view of the present invention.

Fig. 11 is a schematic perspective sectional view taken along line B-B of fig. 10.

Fig. 12 is an enlarged partial schematic view of fig. 11.

Fig. 13 is a schematic perspective sectional view taken along line C-C of fig. 10.

Fig. 14 is an enlarged partial schematic view of fig. 13.

Fig. 15 is a schematic perspective cross-sectional view of fig. 10 taken along line D-D.

Fig. 16 is an enlarged partial schematic view of fig. 15.

Fig. 17 is a schematic perspective cross-sectional view of fig. 10 taken along line E-E.

Fig. 18 is an enlarged partial schematic view of fig. 17.

Fig. 19 is a schematic view of the structure of the swivel to conceal the cutter.

Fig. 20 is a schematic diagram showing the structure of the cutter hidden by the swivel

Detailed Description

As shown in fig. 1-20, an efficient automatic locking device comprises a shell 1, a supporting leg 11 and a self-pairing locking device 2; the support leg 11 is arranged below the shell, and the self-pairing locking device 2 is arranged in the shell; the self-pairing locking equipment comprises a first chute 21, a feed block 22, a first accommodating cavity 23, an accommodating block 24, a blanking pipeline 25, a first groove 26, a material taking structure 3 and a stamping structure 4; the first spout 21 set up in the casing top, feed piece 22 can be in round trip movement in the first spout, first hold the chamber 23 set up in on the feed piece, hold the piece 24 and locate in the first hold the intracavity, hold the piece and be a cylinder type structure, hold the intracavity and end the commentaries on classics setting in first, the unloading pipeline 25 is provided with a plurality of, sets up to 6 here and adjusts as required, set up in on the hold the piece, first recess 26 set up in the casing top, get material structure 3 and locate in the first recess, stamping structure 4 locates in the casing with get material structure matched with.

The material taking structure 3 comprises a box body 31, a through hole 32, a distributing block 33, a blanking hole 34, a first convex tooth 35, a first gear 36, a motor rod 37, a first motor 38, a sensor 39, a material separating plate 310, a first transmission structure 5, an adjusting structure 6 and a mounting structure 7; the box body 31 is located in the first recess, and the through-hole 32 is provided with a plurality of, and here set up to 4, set up in on the distribution box, the through-hole set up quantity equals with the quantity of pellet shot from a slingshot, here set up to 4, the distribution piece 33 rotatable set up in the through-hole, the unloading hole 34 set up in on the distribution piece, first dogtooth 35 is located on the distribution piece, first gear 36 with first dogtooth cooperatees, and motor rod 37 is located first gear below, first motor 38 is used for the drive motor rod rotates, and sensor 39 is located on the unloading hole lateral wall, first motor with the sensor is that prior art is no longer described here, and baffle 310 passes through sensor control round trip movement, and first transmission structure 5 is used for linking two adjacent distribution pieces, and adjustment structure 6 is located first recess below, mounting structure 7 is located in the casing.

The first transmission structure 5 comprises a first rotating block 51, a second groove 52, a first arc-shaped groove 53, a second rotating block 54, a second arc-shaped groove 55, a convex column 56 and a cushion block 57; the first rotating block 51 is sleeved on the distributing block, the second grooves 52 are provided with a plurality of grooves, 6 grooves are formed in the first rotating block, the first arc grooves 53 are formed between two adjacent second grooves, 6 grooves are also formed in the second rotating block, the second rotating block 54 is sleeved on the adjacent distributing block, the second arc grooves 55 are formed in the second rotating block, the convex columns 56 are arranged in the second arc grooves, and the cushion blocks 57 are used for adjusting the heights between the first rotating block and the second rotating block, so that mutual touching is reduced, and abrasion is reduced.

The adjusting structure 6 comprises an adjusting cavity 61, a first discharging channel 62, a partition 63, a first cavity 64, a baffle 65, a first elastic piece 66, a discharging through hole 67, a first through groove 68, a cam 69 and a reversing structure 8; the adjusting cavity 61 is arranged below the distributing block and is a funnel-shaped cavity, the first blanking channel 62 is arranged below the adjusting cavity, the partition 63 is arranged on the side wall of the adjusting cavity, the first cavity 64 is arranged on the side wall of the first blanking channel, the baffle 65 can move back and forth in the first cavity, the first elastic piece 66 is arranged in the first cavity and is used for resetting the baffle, the first elastic piece is arranged in an elastic piece structure, the blanking through hole 67 is arranged on the baffle, the first through groove 68 is arranged on the baffle, the cam 69 is sleeved on the motor rod, and the reversing structure 8 is arranged in the adjusting cavity.

The reversing structure 8 comprises a step 81, a chamfer 82, a limiting block 83, an air cavity 84, a second through groove 85, a first center rod 86, a push plate 87, a second elastic piece 88, a total air passage 89, a first air flow passage 810, an air pump 811 and a second air flow passage 812; the step 81 is located on the adjustment chamber lateral wall, chamfer 82 is located on the step, stopper 83 is located on the baffle, air cavity 84 is seted up on the adjustment chamber lateral wall, second through groove 85 is used for the intercommunication the air cavity with the adjustment chamber, first center pole 86 is located in the second through groove, push pedal 87 cover is located on the first center pole, second elastic component 88 is located be used for resetting in the air cavity the push pedal, the second elastic component, here set up to the elastic sheet structure, total air flue 89 is located in the casing, first air flue 810 is used for the intercommunication total air flue with the air cavity, air pump 811 is located the casing top, the air pump is commercially available prior art here and does not need to repeat, second air flue 812 is used for the intercommunication total air flue with the air pump.

The mounting structure 7 comprises a second cavity 71, a first cylinder 72, a first block 73, a second blanking channel 74, a material guiding pipe 75, a soft pipe 76, a third cavity 77, a pin 78, a third elastic member 79, a rope 710 and a third air flow channel 711; the second cavity 71 is disposed below the housing, the first cylinder 72 is disposed at the top of the second cavity, the first cylinder is a commercially available prior art, and not described herein, the first block 73 is disposed below the first cylinder, the second blanking channel 74 is disposed on the first block, the material guiding tube 75 is disposed below the first block, the flexible tube 76 is used for communicating the first blanking channel with the second blanking channel, the flexible tube is disposed as a plastic tube, the third cavity 77 is disposed on a sidewall of the second blanking channel, the contact pin 78 can move back and forth in the third cavity, the third elastic member 79 is disposed in the third cavity for resetting the contact pin, the third elastic member is disposed herein as a spring member, two ends of the rope 710 are respectively connected with the contact pin and a top wall of the second cavity, and the third air flow channel 711 is disposed on a sidewall of the first blanking channel.

The punching structure 4 comprises a fourth cavity 41, a second cylinder 42, a bracket 43, a second chute 44, a second block 45, an extension block 46, a fourth elastic piece 47, a second center rod 48, a swivel 49, a first notch 410, a cutter 411, a clamping block 412, a conveying track 413, a clamp 414, a friction block 415, a driving structure 9 and a second transmission structure 10; the fourth cavity 41 is arranged in the housing, the second air cylinder 42 is arranged above the fourth cavity, the second air cylinder is the prior art purchased in the market and is not described in detail here, the bracket 43 is arranged in the fourth cavity, the second sliding groove 44 is arranged on the bracket, the second block 45 is arranged between the brackets to move up and down, the extension block 46 is fixedly connected to two sides of the second block and can move back and forth in the second sliding groove, the fourth elastic piece 47 is arranged in the second sliding groove and is used for resetting the extension block, the fourth elastic piece is arranged as a spring piece here, the second center rod 48 is arranged on the second block, the swivel 49 is sleeved on the second center rod, the first notch 410 is arranged on the swivel, the cutter 411 is arranged on the swivel, the cutter is in the form of a stamping die in the prior art, the cutter corresponds to the length of the marble, the clamping block 412 is arranged below the cylinder, the conveying track 413 is arranged below the second block, the clamp 414 is arranged on the conveying track, the friction block 415 is arranged on the second block, the driving structure 9 is used for driving the swivel to rotate, and the second transmission structure 10 is arranged between two adjacent swivel.

The driving structure 9 comprises a fifth cavity 91, a first helical gear 92, a second helical gear 93, a second gear 94, a connecting rod 95, a third gear 96, a second convex tooth 97, a conveying belt 98, a third rotating block 99 and a third convex tooth 910; the fifth cavity 91 is arranged in the shell, the first bevel gear 92 is sleeved on the motor rod, the second bevel gear 93 is arranged in the fifth cavity and matched with the first bevel gear, the second gear 94 is arranged on the side wall of the fourth cavity, the connecting rod 95 is used for connecting the second bevel gear with the second gear, the third gear 96 is arranged below the second gear, the second convex tooth 97 is arranged on the third gear, the conveying belt 98 is sleeved on the third gear and the second gear, the third rotating block 99 is used for driving the rotating ring to rotate, and the third convex tooth 910 is arranged on the third rotating block.

The second transmission structure 10 includes a third groove 101, a sleeve block 102, a fourth tooth 103, a fixing column 104, a fourth rotating block 105, a fifth tooth 106, a second notch 107, a clamping column 108, a transmission block 109, a third arc-shaped groove 110, and a clamping interface 111; the third recess 101 is offered in the swivel both sides, and cover piece 102 is located in one of them side third recess, and fourth dogtooth 103 is located cover piece is last, and fixed column 104 is located in the opposite side third recess, and fourth swivel 105 cover is located on the fixed column, fifth dogtooth 106 is located on the fourth swivel with fourth dogtooth cooperatees, and second notch 107 is located on the fourth swivel, joint post 108 is located in the second notch, transmission piece 109 is located in the third recess, and third arc wall 110 is located on the transmission piece, joint 111 is located between two adjacent third arc walls, third arc wall with the joint all sets up to 6.

The specific operation flow is as follows:

by arranging a plurality of blanking pipelines 25 in the accommodating block 24, placing the same type of marble in the blanking pipelines, placing different types of marble between the blanking pipelines in the same accommodating block, rotating the first motor 38 drives the motor rod 37 to rotate so as to drive the first gear 36 to rotate, then rotating the first gear drives the distribution block meshed with the first gear through the first convex teeth 35 to rotate, rotating the distribution block 33 continuously switches the butt joint between the blanking hole 34 and the upper blanking pipeline, detecting the marble through the sensor 39 in the process that the marble is opened by a certain distance and then falls down along the blanking hole, driving the partition plate through the sensor after one marble passes, thereby closing the blanking hole 34, ensuring that only one marble falls down at a time, each distribution block is continuously switched to the butt joint between the blanking hole 34 and the upper blanking pipeline, when the first rotary block is rotated, the second rotary block is clamped in the first arc-shaped groove 53, so that the first rotary block 51 is fixed, the butt joint between the discharging pipeline 25 and the discharging hole of the distribution block 33 is ensured in the rotation process, after the first rotary block is rotated to a certain extent, the convex column 56 on the second rotary block 54 is gradually clamped into the second groove 52, then the initiative of the second rotary block 54 drives the first rotary block 51 to rotate, the rotation angle corresponds to the number of the discharging pipelines, after the rotation is completed, the second block is clamped in the first arc-shaped groove 53 again, so that the first rotary block 51 is fixed, the distribution block driven by the first gear 36 rotates for 6 circles to be adjacent to the first rotary block, the distribution block is regulated in a 6-system mode, so that unique number columns are obtained, the uniqueness of arrangement of the marble is ensured, the falling marble is adhered to the side wall of the regulating cavity 61, the sliding down in an inclined manner and the blocking interface baffle plates are clamped in the falling process, so that the sliding down in a vertical manner is ensured when the sliding down in the first blanking channel is ensured, when the marble falls down in a round angle end, the lower end of the marble is lifted up through the joint between the round angle and the chamfer 82, no resistance is exerted to the lower end of the marble from the space between the step and the limiting block 83, if the marble falls down in a flat end at the other end, the sliding down is stopped under the action of the step, then the air pump 811 inflates the air in the total air channel 89, then the internal air pressure is increased, and part of the air pump is led into the air cavity along the first air channel 810, so that the push plate is pushed to rotate around the first center rod 86, the second elastic piece 88 is extruded to deform, the upper end of the marble is pushed by the turnover of the push plate 87, thereby pushing the pins to turn over and finally fall into the first block downwards, limiting the pins by the pins 78 until the first cylinder 72 drives the first block to move downwards, retracting the pins into the third cavity 77, thereby releasing the blocking of the pins, the pins move downwards under the action of gravity and air pressure and finally fall into the lock cylinder, simultaneously the swivel is synchronously rotated with the distribution block by the driving structure, the clamping block 412 is driven to move downwards by the second cylinder 42, the downward movement of the clamping block is clamped in the first notch 410 on the swivel, thereby fixing the swivel to a certain extent, avoiding the swivel from rotating in the downward movement process, pushing the second block 45 to move downwards along with the continued descent of the clamping block 412, and the extending blocks arranged at two sides of the second block move downwards along the second chute 44 in the downward movement process of the second block, and the fourth elastic member 47 is extruded to push the whole second block to move downwards, so that the swivel 49 sleeved on the second block is controlled to move downwards, cutters corresponding to the marble are arranged on the swivel, the number of the cutters on each swivel is the same as and corresponding to the number of the blanking pipelines on the containing block, the rotation of the swivel is synchronous with the rotation of the distributing block, and the clamp 414 on the conveying track 413 is cut by the downward movement of the cutters, so that a corresponding key is manufactured. And carrying out pairing collection on the corresponding key and lock cylinder.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. An efficient automatic lock making device comprises a shell (1), support legs (11) arranged below the shell and self-pairing lock making devices (2) arranged in the shell; the method is characterized in that: the self-pairing locking equipment comprises a first chute (21) arranged above the shell, a feeding block (22) capable of moving back and forth in the first chute, a first accommodating cavity (23) arranged on the feeding block, an accommodating block (24) arranged in the first accommodating cavity, a plurality of discharging pipelines (25) arranged on the accommodating block, a first groove (26) arranged above the shell, a material taking structure (3) arranged in the first groove, and a punching structure (4) arranged in the shell and matched with the material taking structure;

the material taking structure (3) comprises a box body (31) arranged in the first groove, a plurality of through holes (32) formed in the box body, a distribution block (33) rotatably arranged in the through holes, a blanking hole (34) formed in the distribution block, first convex teeth (35) formed in the distribution block, first gears (36) matched with the first convex teeth, a motor rod (37) arranged below the first gears, a first motor (38) for driving the motor rod to rotate, a sensor (39) arranged on the side wall of the blanking hole, a material separating plate (310) which is controlled to move back and forth by the sensor, a first transmission structure (5) for linking two adjacent distribution blocks, an adjusting structure (6) arranged below the first groove and a mounting structure (7) arranged in the shell;

the first transmission structure (5) comprises a first rotating block (51) sleeved on the distribution block, a plurality of second grooves (52) formed in the first rotating block, a first arc-shaped groove (53) formed between two adjacent second grooves, a second rotating block (54) sleeved on the adjacent distribution block, a second arc-shaped groove (55) formed in the second rotating block, a convex column (56) formed in the second arc-shaped groove, and a cushion block (57) used for adjusting the height between the first rotating block and the second rotating block;

the adjusting structure (6) comprises an adjusting cavity (61) arranged below the distributing block, a first blanking channel (62) arranged below the adjusting cavity, a partition plate (63) arranged on the side wall of the adjusting cavity, a first cavity (64) arranged on the side wall of the first blanking channel, a baffle plate (65) capable of moving back and forth in the first cavity, a first elastic piece (66) arranged in the first cavity and used for resetting the baffle plate, a blanking through hole (67) arranged on the baffle plate, a first through groove (68) arranged on the baffle plate, a cam (69) sleeved on the motor rod and a reversing structure (8) arranged in the adjusting cavity;

the mounting structure (7) comprises a second cavity (71) arranged below the shell, a first air cylinder (72) arranged at the top of the second cavity, a first block (73) arranged below the first air cylinder, a second blanking channel (74) arranged on the first block, a material guide pipe (75) arranged below the first block, a soft pipe (76) used for communicating the first blanking channel with the second blanking channel, a third cavity (77) arranged on the side wall of the second blanking channel, a contact pin (78) capable of moving back and forth in the third cavity, a third elastic piece (79) arranged in the third cavity and used for resetting the contact pin, a rope body (710) with two ends respectively connected with the contact pin and the top wall of the second cavity, and a third air flow channel (711) arranged on the side wall of the first blanking channel.

2. An efficient automated locking apparatus according to claim 1, wherein: the reversing structure (8) comprises a step (81) arranged on the side wall of the adjusting cavity, a chamfer (82) arranged on the step, a limiting block (83) arranged on the baffle, an air cavity (84) arranged on the side wall of the adjusting cavity, a second through groove (85) used for communicating the air cavity with the adjusting cavity, a first center rod (86) arranged in the second through groove, a push plate (87) sleeved on the first center rod, a second elastic piece (88) arranged in the air cavity and used for resetting the push plate, a total air channel (89) arranged in the shell, a first air channel (810) used for communicating the total air channel with the air cavity, an air pump (811) arranged above the shell and a second air channel (812) used for communicating the total air channel with the air pump.

3. An efficient automated locking apparatus according to claim 1, wherein: the punching structure (4) comprises a fourth cavity (41) arranged in the shell, a second air cylinder (42) arranged above the fourth cavity, a support (43) arranged in the fourth cavity, a second sliding groove (44) arranged on the support, a second block (45) arranged between the supports and moving up and down, an extension block (46) fixedly connected to two sides of the second block and capable of moving back and forth in the second sliding groove, a fourth elastic piece (47) arranged in the second sliding groove and used for resetting the extension block, a second center rod (48) arranged on the second block, a swivel (49) sleeved on the second center rod, a first notch (410) arranged on the swivel, a cutter (411) arranged on the swivel, a clamping block (412) arranged below the air cylinder, a conveying track (413) arranged below the second block, a clamp (414) arranged on the conveying belt, a friction block (415) arranged on the second block, a second track (415) used for driving the swivel, and a driving structure (10) arranged between two adjacent rotating structures.

4. A high efficiency automated locking apparatus as set forth in claim 3 wherein: the driving structure (9) comprises a fifth cavity (91) arranged in the shell, a first bevel gear (92) sleeved on the motor rod, a second bevel gear (93) arranged in the fifth cavity and matched with the first bevel gear, a second gear (94) arranged on the side wall of the fourth cavity, a connecting rod (95) used for connecting the second bevel gear and the second gear, a third gear (96) arranged below the second gear, a second convex tooth (97) arranged on the third gear, a conveying belt (98) sleeved on the third gear and the second gear, a third rotating block (99) used for driving the rotating ring to rotate, and a third convex tooth (910) arranged on the third rotating block.

5. A high efficiency automated locking apparatus as set forth in claim 3 wherein: the second transmission structure (10) comprises a third groove (101) formed in two sides of the swivel, a sleeve block (102) arranged in the third groove on one side of the third groove, a fourth convex tooth (103) arranged on the sleeve block, a fixing column (104) arranged in the third groove on the other side of the third groove, a fourth swivel block (105) sleeved on the fixing column, a fifth convex tooth (106) arranged on the fourth swivel block and matched with the fourth convex tooth, a second notch (107) arranged on the fourth swivel block, a clamping column (108) arranged in the second notch, a transmission block (109) arranged in the third groove, a third arc-shaped groove (110) arranged on the transmission block and a clamping interface (111) arranged between two adjacent third arc-shaped grooves.