CN213560901U - Blade lock courage assembly machine - Google Patents

Abstract

The utility model discloses a blade lock courage assembly machine, including frame, key device, unloader and assembly device, the workstation is installed at the frame top, and the workstation top surface is equipped with the slip table, and the key device is installed to the preceding side surface of slip table, and assembly device is installed in the left side of key device, and the left side of assembly device installs the display screen, and the top of display screen is connected with spring vibration dish, and laser displacement probe is installed respectively at both ends about the front side of key device, and laser displacement probe links to each other with the slip table, and unloader is installed to assembly device's rear side, and the blade vibration dish of unloader and rear side all links to each other with the slip table. The utility model discloses blade lock courage assembly machine can reach the effect that reduces the cost of labor and improve work efficiency.

Description

Blade lock courage assembly machine

Technical Field

The utility model relates to an assembly machine technical field specifically is a blade lock courage assembly machine.

Background

The blade lock courage assembles the blade of corresponding tartar sign indicating number according to the tartar sign indicating number on the key to realize the rotatory lock of opening of lock core, the lock courage of blade lock will assemble the multi-disc blade and every the lock core blade place the order different when assembling, if adopt manual assembly, need pass through specific training, and require that assembly workman reaction rate is fast, memory is good, its labour cost is high, low in production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a blade lock courage assembly machine has the advantage that reduces the cost of labor and improve work efficiency, has solved the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: a workbench is mounted at the top of a rack, a sliding table is arranged on the top surface of the workbench, a key device is mounted on the front side surface of the sliding table, an assembling device is mounted on the left side of the key device, a display screen is mounted on the left side of the assembling device, a spring vibration disc is connected to the top of the display screen, laser displacement probes are mounted at the upper end and the lower end of the front side of the key device respectively, the laser displacement probes are connected with the sliding table, a discharging device is mounted on the rear side of the assembling device, and the discharging device and a blade vibration disc on the rear side are connected with the sliding table;

the key device comprises a key device, a cylinder A, a bottom plate A, a main body clamp, a lower movable block, a spring A, an upper movable block, a spring B, a key clamp, an upper probe and a lower probe, wherein the cylinder A is machined at the bottom of the key device, the bottom plate A is installed at the top of the cylinder A, the main body clamp is installed at the top of the bottom plate A, the lower movable block is installed on the front side surface of the main body clamp, the spring A is machined on the inner side of the upper end of the lower movable block, the upper movable block is installed at the top of the main body clamp, the spring B is installed inside the front side of the upper movable;

the assembly device comprises an assembly device, and is characterized in that an air cylinder B is mounted at the bottom of the assembly device, a bottom plate B is connected to the top of the air cylinder B, a main clamp A is mounted on the surface of the top of the bottom plate B, a front down-punching needle is machined on the front side of the main clamp A, a lock cylinder is arranged at the upper end of the front down-punching needle, a rear down-punching needle is machined at the upper end of the inner side of the main clamp A, the top of the main clamp A is connected with a panel, a synthesis clamp is mounted on the surface of the top of the panel, a lower blade clamp is machined at the top of the synthesis clamp, an air cylinder C is connected to the right side of the lower blade clamp, a spring clamp is arranged at the top of the lower blade clamp, an upper blade clamp is arranged at the top of the spring clamp, a rear up-down sliding block and a front; the optical fiber detection device comprises a spring clamp, an upper blade clamp and a lower blade clamp, wherein optical fiber detection heads A are respectively processed on the left side and the right side of the spring clamp, the upper blade clamp, the lower blade clamp and the upper blade clamp;

lower blade export is installed to unloader's bottom, and the spring export is installed to the upper end of lower blade export, and the top of spring export is connected with the blade export, goes up the top of blade export and installs main anchor clamps B, and main anchor clamps B's front side surface processing has optical fiber detection head B, and main anchor clamps B's top is connected with the silo fixed block down, and the right-hand member of silo fixed block down is connected with cylinder E, and the top is equipped with silo A under blade and silo B under blade.

Preferably, the bottom of the key device, the bottom of the assembling device and the bottom of the display screen are respectively provided with a fixing plate, and the key device, the assembling device and the display screen are fixed on the top surface of the workbench through the fixing plates.

Preferably, the blade vibration discs are fixed to the rear side of the blanking device through nuts, and the number of the blade vibration discs is four.

Preferably, the hole positions of the lower blade outlet, the spring outlet, the upper blade outlet and the lower blade clamp correspond to the hole positions of the upper blade clamp and the spring clamp.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses blade lock courage assembly machine, put into the lock courage through manual, cylinder B will be preceding down the needle down pass lock courage blade slotted hole up to stand upright to with the same level of panel surface after contacting proximity switch, then cylinder C promotes synthetic anchor clamps straight-line motion to preceding up-stroke needle, preceding down-stroke needle and the same central line position of panel slotted hole, then the needle down of going up before cylinder D promotes, after that cylinder D promotes around upper and lower sliding block and preceding upper and lower sliding block drive before up-stroke needle and preceding down-stroke needle down move in place together, blade and spring A all are pushed in the lock courage slotted hole this moment, then insert the key and take out, then synthetic anchor clamps get back to the normal position with the punch needle, the completion assembly, thereby reach the effect that reduces the cost of labor and improve work efficiency.

Drawings

FIG. 1 is a three-dimensional structure of the present invention;

FIG. 2 is a perspective view of the key device of the present invention;

FIG. 3 is a three-dimensional structure diagram of the blanking device of the present invention;

FIG. 4 is an internal structure view of the assembling device of the present invention;

fig. 5 is a partial structure view of the assembling apparatus of the present invention.

In the figure: 1. a frame; 2. a work table; 3. a sliding table; 4. a key device; 41. a cylinder A; 42. a base plate A; 43. a body clamp; 44. a lower movable block; 441. a spring A; 442. an upper movable block; 443. a spring B; 45. a lower probe; 46. a key clamp; 47. a key; 48. a proximity switch; 49. an upper probe; 5. assembling the device; 51. an optical fiber detection head A; 52. an upper blade left groove; 53. a spring wide groove; 54. a lower blade right slot; 55. an intermediate spacer; 501. a cylinder B; 502. a base plate B; 503. a main clamp A; 504. a lock liner; 505. punching the needle forwards and downwards; 506. a cylinder C; 507. punching a needle at the back; 508. a panel; 509. synthesizing a clamp; 510. a lower blade clamp; 511. a spring clamp; 512. an upper blade clamp; 513. a rear up-down slider; 514. a front up-down slider; 515. punching a needle on the back; 516. punching the needle upwards; 517. a cylinder D; 6. a display screen; 7. a spring vibration plate; 8. a blade vibration disk; 9. a laser displacement probe; 10. a blanking device; 101. a lower blade outlet; 102. a spring outlet; 103. an upper vane outlet; 104. a main clamp B; 105. an optical fiber detection head B; 106. a blanking groove fixing block; 107. a cylinder E; 108. a blade blanking groove A; 109. and a blade blanking groove B.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, a blade lock core assembly machine, a working table 2 is installed on the top of a frame 1, a sliding table 3 is installed on the top surface of the working table 2, a key device 4 is installed on the front side surface of the sliding table 3, an assembly device 5 is installed on the left side of the key device 4, a display screen 6 is installed on the left side of the assembly device 5, a spring vibration disc 7 is connected to the top of the display screen 6, laser displacement probes 9 are respectively installed on the upper and lower ends of the front side of the key device 4, the laser displacement probes 9 are connected to the sliding table 3, a blanking device 10 is installed on the rear side of the assembly device 5, the blanking device 10 and a blade vibration disc 8 on the rear side are both connected to the sliding table 3, an air cylinder a41 is processed on the bottom of the key device 4, a bottom plate a42 is installed on the top of an air cylinder a41, a main body clamp 43, a spring A441 is processed on the inner side of the upper end of the lower movable block 44, an upper movable block 442 is mounted at the top of the main body clamp 43, a spring B443 is mounted inside the front side of the upper movable block 442, a key clamp 46 is mounted between the upper movable block 442 and the lower movable block 44, an upper probe 49 and a lower probe 45 are placed on the inner side of the key clamp 46, a key 47 is placed in the middle of the key clamp 46, a proximity switch 48 is mounted at the left end of the key clamp 46, an air cylinder B501 is mounted at the bottom of the assembly device 5, a bottom plate B502 is connected to the top of the air cylinder B501, a main clamp A503 is mounted on the top surface of the bottom plate B502, a front lower punch pin 505 is processed on the front side of the main clamp A503, a lock cylinder 504 is arranged at the upper end of the front lower punch pin 505, a rear lower punch 507 is processed on the inner side of the main clamp A503, a panel 508 is connected to the top, a composite clamp, the right side of the lower blade clamp 510 is connected with a cylinder C506, the top of the lower blade clamp 510 is provided with a spring clamp 511, the top of the spring clamp 511 is provided with an upper blade clamp 512, the back side of the top of the panel 508 is respectively provided with a back up-down sliding block 513 and a front up-down sliding block 514, the tops of the back up-down sliding block 513 and the front up-down sliding block 514 are respectively provided with a cylinder D517, the bottom of the spring clamp 511 is respectively provided with a back upper punch 515 and a front upper punch 516, the spring clamp 511, the upper blade clamp 512, the left and right sides of the lower blade clamp 510 are respectively provided with an optical fiber detection head A51, the upper blade clamp 512, the surfaces of the spring clamp 511 and the lower blade clamp 510 are respectively provided with an upper blade left groove 52, a spring wide groove 53 and a lower blade right groove 54, the upper blade left groove 52, the interiors of the spring wide groove 53 and the lower blade right groove 54 are respectively provided with an intermediate spacer 55, a spring outlet 102 is arranged at the upper end of the lower blade outlet 101, an upper blade outlet 103 is connected with the top of the spring outlet 102, a main clamp B104 is arranged at the top of the upper blade outlet 103, an optical fiber detection head B105 is processed on the front side surface of the main clamp B104, the top of the main clamp B104 is connected with a blanking groove fixing block 106, the right end of the blanking groove fixing block 106 is connected with an air cylinder E107, the top is provided with a blade blanking groove A108 and a blade blanking groove B109, the bottoms of the key device 4, the assembling device 5 and the display screen 6 are respectively processed with a fixing plate, the key device 4, the assembling device 5 and the display screen 6 are fixed on the top surface of the workbench 2 through the fixing plate, the blade vibrating disk 8 is fixed on the rear side of the blanking device 10 through nuts, the number of the blade vibration discs 8 is four, and the hole positions of the lower blade outlet 101, the spring outlet 102 and the upper blade outlet 103 correspond to the hole positions of the lower blade clamp 510, the spring clamp 511 and the upper blade clamp 512.

In summary, the following steps: the utility model discloses blade lock courage assembly machine, through inserting key 47, after contacting proximity switch 48, go up movable block 442 and lower movable block 44 and press down key anchor clamps 46 under the promotion of cylinder A41, spring A441 and spring B443 in the movable block slot seam are also pressed on probe 49 and lower probe 45 thereupon, the probe props up on the tartar of key 47 so also present the shape of being the same with key 47 tartar height end is not consistent, then remove laser displacement probe 9 through slip table 3 and go to survey the degree of depth value of each probe so as to obtain the tartar sign indicating number of each tartar on the key 47, control system will send the instruction to cylinder E107 on unloader 10 after obtaining key 47 tartar sign indicating number, cylinder E107 impels the blade corresponding to upper and lower key 47 tartar in the interior inclined hole of main clamp B104 promptly, it detects in addition optical fiber detection head B105 before getting into interior inclined hole, ensure that the blade has got into interior inclined hole, then the materials are converged to the same outlet through an inner inclined hole for discharging, the spring outlet 102 independently discharges from the middle, the blades and the spring outlet 102 automatically drop into the assembly device 5 after discharging, the lower blade drops into the right groove of the lower blade clamp 510, the spring A441 drops into the side width groove of the spring clamp 511, the upper blade drops into the left groove of the upper blade clamp 512, the three stations are all separated by a middle spacer 55 to prevent the blades and the spring A441 from overlapping, the two ends of the clamp are provided with optical fiber detection heads A51 to ensure that the parts drop into the clamp, then the corresponding blade springs A441 are sequentially placed into the corresponding grooves through the displacement of a sliding table 3, then the lower needle 507 is pushed by a cylinder B501 to be upwards pushed, the surface of the punching needle is at the same level with the surface of the synthesis clamp 509, then the cylinder C506 pushes the lower blade clamp 510 to move forwards in a straight line, the spring clamp 511 and the upper blade clamp 512 also move forwards under the drive of the lower blade clamp 510, until the center lines of the inner holes of the rear upper punch pin 515, the rear lower punch pin 507 and the composite fixture 509 coincide, then the cylinder D517 pushes the rear upper punch pin 515 downwards, then the cylinder D517 pushes the rear upper and lower slide block 513 to drive the rear upper punch pin 515 and the rear lower punch pin 507 to move downwards together in place, at this time, the upper and lower blades and the spring A441 are both pushed into the composite fixture 509, then the punch pins return to the original positions, then the lock bladder 504 is manually placed, the cylinder B501 contacts with the proximity switch 48 to push the front lower punch pin 505 upwards through the blade slot of the lock bladder 504 to be pushed upwards to the same level with the surface of the panel 508, then the cylinder C506 pushes the composite fixture 509 to move forwards linearly to the front upper punch pin 516, the front lower punch pin 505 and the panel 508 to the same center line position, then the cylinder D517 pushes the front upper punch pin 516 downwards, then the cylinder D517 pushes the front upper and lower slide block 513 and the front upper and lower slide block 514 to drive the front upper punch pin 516 and the, at this time, the blade and the spring a441 are pushed into the slot of the cylinder 504, the key 47 is inserted and taken out, and then the combination clamp 509 and the punch pin are returned to the original positions, thereby completing the assembly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a blade lock courage assembly machine, includes frame (1), key device (4), unloader (10) and assembly device (5) its characterized in that: the automatic blanking machine is characterized in that a workbench (2) is installed at the top of the rack (1), a sliding table (3) is arranged on the top surface of the workbench (2), a key device (4) is installed on the front side surface of the sliding table (3), an assembling device (5) is installed on the left side of the key device (4), a display screen (6) is installed on the left side of the assembling device (5), a spring vibration disc (7) is connected to the top of the display screen (6), laser displacement probes (9) are installed at the upper end and the lower end of the front side of the key device (4) respectively, the laser displacement probes (9) are connected with the sliding table (3), a blanking device (10) is installed on the rear side of the assembling device (5), and the blanking device (10) and a blade vibration disc (8) on;

the bottom of the key device (4) is provided with a cylinder A (41), the top of the cylinder A (41) is provided with a bottom plate A (42), the top of the bottom plate A (42) is provided with a main body clamp (43), the front side surface of the main body clamp (43) is provided with a lower movable block (44), the inner side of the upper end of the lower movable block (44) is provided with a spring A (441), the top of the main body clamp is provided with an upper movable block (442), the inner part of the front side of the upper movable block (442) is provided with a spring B (443), a key clamp (46) is arranged between the upper movable block (442) and the lower movable block (44), the inner side of the key clamp (46) is provided with an upper probe (49) and a lower probe (45), the middle of the key clamp (46) is provided with a key (47), and the left end of the key;

the bottom of the assembling device (5) is provided with a cylinder B (501), the top of the cylinder B (501) is connected with a bottom plate B (502), the top surface of the bottom plate B (502) is provided with a main clamp A (503), the front side of the main clamp A (503) is processed with a front down punch pin (505), the upper end of the front down punch pin (505) is provided with a lock container (504), the upper end of the inner side of the main clamp A (503) is processed with a rear down punch pin (507), the top is connected with a panel (508), the top surface of the panel (508) is provided with a synthetic clamp (509), the top of the synthetic clamp (509) is processed with a lower blade clamp (510), the right side of the lower blade clamp (510) is connected with a cylinder C (506), the top of the lower blade clamp (510) is provided with a spring clamp (511), the top of the spring clamp (511) is provided with an upper blade clamp (512), and the rear side of the top of the panel (508) is respectively provided with a rear up, the top parts of the rear up-down sliding block (513) and the front up-down sliding block (514) are respectively provided with a cylinder D (517), and the bottom parts of the rear up-down sliding block (513) and the front up-down sliding block (514) are respectively provided with a rear up-punching needle (515) and a front up-punching needle (516); the optical fiber detection device is characterized in that the left side and the right side of the spring clamp (511), the upper blade clamp (512) and the lower blade clamp (510) are respectively provided with an optical fiber detection head A (51), the surfaces of the upper blade clamp (512), the spring clamp (511) and the lower blade clamp (510) are respectively provided with an upper blade left groove (52), a spring wide groove (53) and a lower blade right groove (54), the interiors of the upper blade left groove (52), the spring wide groove (53) and the lower blade right groove (54) are respectively provided with a middle spacer (55);

lower blade export (101) is installed to the bottom of unloader (10), spring export (102) are installed to the upper end of lower blade export (101), the top of spring export (102) is connected with blade export (103), main anchor clamps B (104) are installed to the top of going up blade export (103), the front side surface processing of main anchor clamps B (104) has optical fiber detection head B (105), and the top of main anchor clamps B (104) is connected with silo fixed block (106) down, the right-hand member of silo fixed block (106) is connected with cylinder E (107), the top is equipped with silo A (108) under the blade and silo B (109) under the blade.

2. The blade lock cylinder assembling machine according to claim 1, wherein the bottom of the key device (4), the assembling device (5) and the display screen (6) are respectively provided with a fixing plate, and the key device (4), the assembling device (5) and the display screen (6) are fixed on the top surface of the workbench (2) through the fixing plate.

3. The blade lock core assembling machine according to claim 1, wherein the blade vibration discs (8) are fixed to the rear side of the blanking device (10) through nuts, and the number of the blade vibration discs (8) is four.

4. The blade lock cylinder assembly machine as claimed in claim 1, wherein the lower blade outlet (101), the spring outlet (102) and the upper blade outlet (103) are corresponding to the hole positions of the lower blade clamp (510), the spring clamp (511) and the upper blade clamp (512).

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