CN214057086U - Special automatic steel seal machine for diamond saw blade - Google Patents

Special automatic steel seal machine for diamond saw blade Download PDF

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Publication number
CN214057086U
CN214057086U CN202022707729.6U CN202022707729U CN214057086U CN 214057086 U CN214057086 U CN 214057086U CN 202022707729 U CN202022707729 U CN 202022707729U CN 214057086 U CN214057086 U CN 214057086U
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China
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feeding
plate
saw blade
diamond saw
cylinder
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CN202022707729.6U
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Chinese (zh)
Inventor
张聪聪
于华锋
刘胜利
任海霞
谷延龙
王灿
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Hebei Xmf Tools Group Co ltd
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Hebei Xmf Tools Group Co ltd
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Abstract

The utility model discloses a special automatic steel seal machine for diamond saw blades, which comprises a feeding device, a material taking device, a multi-station rotating device, a discharging device, a conveying device, a storing device and a man-machine controller which are arranged on a frame according to design, wherein the stamping device is arranged on one side of the frame and is matched with the multi-station rotating device; a man-machine controller is arranged on one side of the feeding device, the man-machine controller is installed on the base through a supporting frame, and a power distribution control cabinet for power supply and control is arranged on the rear side of the developing device. The utility model discloses think about ingenious, the reasonable compactness of structural arrangement, through the touch-sensitive screen control on the human-machine controller, convenient operation is swift, accomplishes diamond saw bit's material loading in proper order, removes, stamp, unloads, the automatic operation of transmission and unloading process for stamp work is more high-efficient, and the outward appearance of product is more unanimous and exquisite, has significantly reduced the cost of labor, has improved the production security.

Description

Special automatic steel seal machine for diamond saw blade
Technical Field
The utility model relates to an automatic embossed seal marking machine field especially relates to a special automatic embossed seal machine of diamond saw bit.
Background
When a manufacturer produces the diamond saw blade, permanent characters need to be engraved on the diamond saw blade: such as detail type, date, lot number, serial number, etc., which requires the use of a steel stamp marking machine. The embossed seal marking machine that uses at present structure is fairly simple, is manual operation mostly, and the saw bit need be got earlier to the during operation, then prevents to print the embossed seal on marking machine, then gets the saw bit again, and is more troublesome, extravagant artifical, and work efficiency is lower. How to develop a multi-station automatic steel stamping machine special for diamond saw blades to improve the working efficiency becomes a technical problem to be solved urgently by technical personnel in the field.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a special automatic embossed seal machine of diamond saw bit solves the manual work of prior art and gets and put the sola diamond saw bit and accomplish the embossed seal operation, and work efficiency is low, the problem that intensity of labour is big.
In order to solve the technical problem, the utility model adopts the following technical scheme:
the utility model relates to a special automatic embossed seal machine of diamond saw bit, including frame, loading attachment, extracting device, multistation rotary device, stamp device, discharge apparatus, conveyor and strorage device, man-machine controller and distribution control cabinet, loading attachment, extracting device, multistation rotary device, discharge apparatus, conveyor, strorage device carry out the course of working arrangement of embossed seal and install on the frame according to the diamond saw bit, stamp device install in one side of the frame and with multistation rotary device cooperatees; a man-machine controller is arranged on one side of the feeding device, the man-machine controller is installed on the base through a support frame, and a power distribution control cabinet for power supply and control is arranged on the rear side of the developing device;
the diamond saw blades are placed on the feeding device in groups, the single diamond saw blade is adsorbed and transferred onto the multi-station rotating device through the material taking device, the multi-station rotating device rotates to convey the diamond saw blade onto the stamping device to complete stamping operation, the multi-station rotating device continues to rotate to convey the diamond saw blade subjected to stamping operation to the position right above the conveying device and realize separation and falling through the discharging device, and the conveying device horizontally outputs the diamond saw blade falling to the storage device; the feeding device, the taking device, the multi-station rotating device, the stamping device, the discharging device, the conveying device and the storage device are electrically connected with the human-machine controller, and the automatic operation of the feeding, moving, stamping, discharging, conveying and discharging processes of the diamond saw blade is completed in sequence.
Furthermore, the feeding device comprises a feeding turntable, a plurality of feeding rods, a stepping motor and an ejection assembly, wherein the plurality of feeding rods are uniformly distributed on the feeding turntable in a circumferential manner, the bottom of the feeding turntable is in transmission connection with the stepping motor through a main shaft of the feeding turntable, the stepping motor is arranged on a bottom plate of the lifting table, and the bottom plate of the lifting table is connected to the base through bolts; the bottom of the feeding station is provided with a material ejecting assembly, and the material ejecting assembly ejects the diamond saw blade to gradually move upwards along the feeding rod; a return-to-zero switch is arranged at a feeding station of the feeding turntable and is installed on the bottom plate of the lifting table through a connecting bracket; the rotary table positioning device comprises a feeding rotary table positioning sleeve, a positioning optical axis and a positioning air cylinder, wherein the positioning air cylinder is installed on the bottom surface of the lifting table bottom plate, the working end of the positioning air cylinder is connected with the positioning optical axis, a plurality of feeding rotary table positioning sleeves are circumferentially and uniformly distributed and connected on the feeding rotary table, and the positioning optical axis is matched with the feeding rotary table positioning sleeves; after the feeding turntable rotates in place, the positioning cylinder drives the positioning optical axis to extend out and be embedded into a central hole of the feeding turntable positioning sleeve to realize positioning.
Still further, the material ejecting assembly comprises an optical shaft and a lifting motor, the optical shaft is provided with three feeding rods which are uniformly distributed around a feeding station, three through holes matched with the optical shaft are formed in the periphery of each feeding rod, the bottom of the optical shaft is connected onto an optical shaft fixing plate, a group of matched ball nuts and ball screws are arranged in the center of the optical shaft fixing plate, the bottom of each ball screw is rotatably connected onto a screw positioning plate, the lifting motor is installed on a lifting motor installing plate through a bolt assembly, the lifting motor installing plate is installed at the bottom of the base, synchronizing wheels are installed at the bottom end of each ball screw and on a working rod of the lifting motor, and the two synchronizing wheels are in transmission connection through a belt; three first linear bearings are arranged on the bottom plate of the lifting platform, and the three optical axes penetrate through the three first linear bearings when moving up and down; and a lifting motor induction sheet for limiting is connected to one side edge of the optical axis fixing plate.
Furthermore, the material taking device comprises a supporting plate, an electromagnet, swing arms, an alignment disc and a material loading plate, wherein the supporting plate is connected to the two parallel swing arms through bolts, the two swing arms are connected to two synchronous belt wheels through swing arm shafts, the swing arm shafts are connected into swing arm bearing seats in a penetrating manner, the two synchronous belt wheels are in transmission connection with lower driving synchronous belt wheels through synchronous belts, the driving synchronous belt wheels are in transmission connection with swing arm driving motors, the swing arm driving motors are installed in the machine base through swing arm driving motor positioning plates, three second proximity switches are correspondingly arranged above the synchronous belt wheels, the second proximity switches are installed on a cylinder bottom plate through second proximity switch positioning plates, and the cylinder bottom plate is installed on the machine base;
the device comprises a support plate, electromagnets, a saw blade aligning shaft, a cylinder bottom plate, a cylinder, a motor positioning seat, a saw blade aligning shaft, a cylinder bottom plate, a motor positioning seat, a saw blade positioning shaft, a saw blade positioning seat and a motor, wherein the number of the electromagnets is two, every two electromagnets are one, the electromagnets are installed on the support plate through a guide sleeve, the top of the electromagnets are connected with electromagnet guide rods through electromagnet connecting plates, the positions of the two electromagnets are in one-to-one correspondence with the aligning plate and the upper material plate below the two electromagnets, the aligning plate is installed on the saw blade aligning shaft, the bottom of the saw blade aligning shaft penetrates through the cylinder bottom plate and then is connected into the motor positioning seat, and the bottom of the motor positioning seat is provided with the motor;
the feeding plate is installed on a working rod of a jacking cylinder through a feeding rod transition sleeve, the jacking cylinder is installed at the bottom of a cylinder bottom plate, guide optical axes are symmetrically arranged on two sides of the jacking cylinder, the top end of each guide optical axis penetrates through a second linear bearing and then is connected to a feeding cylinder guide plate, and the middle of the feeding cylinder guide plate is connected with the working rod of the jacking cylinder; a first proximity switch is arranged on one side of the feeding disc, and the feeding disc is positioned right below one station of the multi-station rotating device;
the automatic diamond saw blade positioning device is characterized in that a photoelectric switch support is arranged on one side, close to the feeding device, of the cylinder bottom plate, an optical fiber switch is arranged at the middle position of the cylinder bottom plate, the optical fiber switch is installed on an optical fiber switch adjusting plate through a proximity switch support, and the motor drives the saw blade aligning shaft to be matched with the optical fiber switch to enable the diamond saw blade to be accurately positioned.
Furthermore, the multi-station rotating device comprises a turntable and a plurality of arms, one ends of the plurality of arms are connected to the turntable through bolts, and the other ends of the arms extend outwards to reach the working positions of the material taking device, the developing device and the discharging device; the other end of the arm is provided with a U-shaped opening, a plurality of powerful magnets for adsorption are arranged on the U-shaped opening, and the turntable is connected with a rotating motor arranged at the bottom and driven by the rotating motor; the material taking device comprises a plurality of arms, and is characterized in that a plurality of proximity switches are arranged below the arms and comprise a third proximity switch, a fourth proximity switch and a fifth proximity switch, the third proximity switch is located at the previous station of the material taking device, the fourth proximity switch is located at the previous station of the stamping device, and the fifth proximity switch is located under one of the arms of the stamping device.
The stamping device comprises a punch body and a stamping die, wherein the punch body is provided with a platform, the stamping die comprises an upper die part and a lower die part, the upper die part comprises a die handle and a word head which are assembled together, the die handle is arranged on a sliding block of the punch body, the lower die part comprises a stamping positioning pin, a base plate, a stamping die holder and a stamping base plate which are assembled together, and two sides of the stamping base plate are pressed and fixed on the platform through a pressing screw, a pressing plate and the punch base plate; after the diamond saw blade is placed on the stamping positioning pin, the slider above the punch body operates to drive the character head to move downwards to complete the stamping operation;
still include fisheye joint, cylinder and clutch base, the one end of fisheye joint is connected on punch press pedal connecting rod clutch, the fisheye joint other end is connected the working rod end of cylinder, the cylinder is installed on the clutch base, the during operation the cylinder drives fisheye joint, punch press pedal connecting rod motion drive go up mould part work.
Furthermore, the discharging device comprises a discharging cylinder and a first discharging disc, the discharging cylinder is installed on an L-shaped discharging support, the bottom of the discharging support is connected to a discharging bottom plate on the top of the base through a bolt, and the first discharging disc is connected to the end part of a working rod of the discharging cylinder; when the arm drives the diamond saw blade after finishing printing to reach under the first blanking disc, the fifth proximity switch transmits a sensing signal and issues an instruction to the blanking cylinder through the man-machine controller, and the working rod of the blanking cylinder stretches out to drive the first blanking disc to move downwards so that the diamond saw blade and the powerful magnet on the arm are separated and fall onto the conveying device.
Furthermore, the conveying device comprises a conveying belt support, a driving roller, a driven roller and a conveying motor, the bottom of the conveying belt support is mounted on a blanking bottom plate at the top of the base, the top of the conveying belt support is connected with an adjusting plate and a second conveying supporting plate, the driving roller and the driven roller are respectively mounted on the adjusting plate and the second conveying supporting plate, the driving roller and the driven roller are in transmission connection through a conveying belt, the conveying motor is mounted inside the conveying belt support through a motor mounting plate, the output end of the conveying motor is in transmission connection with one end of the driving roller through a belt, and a protective cover is arranged on the periphery of the belt; the top of transmission band is provided with the conveyer belt baffle, the conveyer belt baffle passes through bolted connection and is in on the top surface of regulating plate, the top of driven voller is provided with the compression roller, the compression roller is installed on the compression roller axle, the compression roller axle is connected through carrying the extension board one carry on the extension board two, carry and be provided with the compression roller arm on the extension board one.
Furthermore, the storage device comprises a plurality of blanking rods, a second blanking disc and a divider, the blanking rods are uniformly distributed and connected to the second blanking disc in a circumferential manner, the bottom of the second blanking disc is in transmission connection with the divider, the divider is connected with a divider driving motor, the divider driving motor is installed on a blanking bottom plate through a divider motor plate, and the blanking bottom plate is installed on the base through bolts; when the diamond saw blade collecting device works, the divider driving motor drives the second blanking disc to rotate at a fixed angle through the divider, so that the blanking rods are driven to change positions to realize the diamond saw blade collecting operation.
Still further, the frame specifically sets up to the L type, the bottom of frame is provided with the adjustment lower margin, is located on two lower margins of loading attachment set up the lower margin fixed plate, the lower margin fixed plate is made through thick iron plate and four directions all are furnished with the screw of adjusting usefulness.
Compared with the prior art, the utility model discloses a beneficial technological effect:
the utility model relates to a special automatic steel seal machine for diamond saw blades, which comprises a machine base, a feeding device, a material taking device, a multi-station rotating device, a stamping device, a discharging device, a conveying device, a storage device, a man-machine controller and a power distribution control cabinet, a plurality of diamond saw blades are placed on the feeding device in groups, a single diamond saw blade is adsorbed and transferred onto the multi-station rotating device through the material taking device, the multi-station rotating device rotates to convey the diamond saw blade to a die of the developing device through rotating operation to complete the developing operation, then the multi-station rotating device continues to rotate to convey the diamond saw blade which is processed and printed to the position right above the conveying device, and the diamond saw blade is separated and falls through the discharging device, the conveying device horizontally outputs the falling diamond saw blade to the storage device, and finally, the operator takes away the whole pile of diamond saw blades printed on the storage device. The feeding device and the storage device are provided with a plurality of feeding rods and discharging rods, only one of the rods participates in operation, and the rest rods are in a non-working state, so that the feeding and discharging operations under a non-stop state can be realized, the working efficiency is high, and the developing and printing efficiency is not influenced; in addition, the diamond saw blade of the developing device is placed through the multi-station rotating device, so that the developing device is safer and has higher automation degree. Generally speaking, the utility model discloses think about ingenious, the reasonable compactness of structural arrangement, through the touch-sensitive screen control on the human-computer controller, convenient operation is swift, accomplishes diamond saw blade's material loading, removal, stamp, the automation mechanized operation of unloading, transmission and unloading process in proper order for stamp work is more high-efficient, and the outward appearance of product is more unanimous and exquisite, the cost of labor that has significantly reduced has improved the production security.
Drawings
The present invention will be further explained with reference to the following description of the drawings.
FIG. 1 is a schematic structural view of an automatic steel stamping machine for diamond saw blades of the present invention;
FIG. 2 is a main view of the automatic steel seal machine for diamond saw blade of the present invention;
FIG. 3 is a top view of the automatic steel stamping machine for diamond saw blade of the present invention;
FIG. 4 is a left side view of the automatic steel stamping machine for diamond saw blade of the present invention;
FIG. 5 is a schematic view of the structure of the feeding device of the present invention;
FIG. 6 is a front view of the structure of the feeding device of the present invention;
fig. 7 is a cross-sectional view taken at a position a-a of fig. 6 according to the present invention;
fig. 8 is a schematic structural view of the material taking device of the present invention;
fig. 9 is a schematic structural view of the material taking device of the present invention; (upward view)
Fig. 10 is a side view of the structure of the material taking device of the present invention;
fig. 11 is a cross-sectional view taken at the position B-B of fig. 10 according to the present invention;
FIG. 12 is a schematic view of the developing device of the present invention;
FIG. 13 is a schematic view of the storage device of the present invention;
FIG. 14 is a schematic structural view of the conveying device of the present invention;
fig. 15 is a schematic view of the structure of the base of the present invention;
fig. 16 is a schematic view of a plurality of proximity switches under the arm of the present invention;
description of reference numerals: 1. a machine base; 2. a feeding device; 3. a material taking device; 4. a multi-station rotating device; 5. a developing device; 6. a discharge device; 7. a conveying device; 8. a storage device; 9. a human-machine controller; 10. A power distribution control cabinet; 11. a diamond saw blade; 12. a fisheye joint; 13. a cylinder; 14. a clutch base;
101. adjusting the ground feet; 102. a ground margin fixing plate;
201. a feeding turntable; 202. a feeding rod; 203. a feeding turntable locating sleeve; 204. a loading turntable main shaft; 205. an optical axis; 206. a first linear bearing; 207. a return-to-zero switch; 208. a stepping motor; 209. a lifting platform base plate; 210. an optical axis fixing plate; 211. a ball screw nut; 212. a ball screw; 213. a lifting motor; 214. a lifting motor mounting plate; 215. a belt; 216. a lifting motor induction sheet; 217. a lead screw positioning plate; 218. a synchronizing wheel; 219. positioning an optical axis; 220. positioning the air cylinder;
301. a support plate; 302. an electromagnet guide bar; 303. an electromagnet connecting plate; 304. a guide sleeve; 305. an electromagnet; 306. swinging arms; 307. a swing arm shaft; 308. a cylinder bottom plate; 309. a photoelectric switch bracket; 310. a swing arm driving motor; 311. the swing arm drives the motor positioning plate; 312. a swing arm bearing seat; 313. aligning the disc; 314. Aligning the saw blade with the shaft; 315. jacking a cylinder; 316. feeding a material plate; 317. a feeding rod transition sleeve; 318. guiding the optical axis; 319. a second linear bearing; 320. a feeding cylinder guide plate; 321. an optical fiber switch; 322. an optical fiber switch adjusting plate; 323. a proximity switch post; 324. a synchronous pulley; 325. a synchronous belt; 326. a first proximity switch; 327. a second proximity switch; 328. a second proximity switch positioning plate; 329. a motor; 330. A motor positioning seat;
401. a turntable; 402. an arm; 403. a strong magnet; 404. a third proximity switch; 405. a fourth proximity switch; 406. a fifth proximity switch;
501. a punch body; 502. a platform; 503. a die shank; 504. a header; 505. punching a positioning pin; 506. A base plate; 507. a die holder; 508. a compression screw; 509. pressing a plate; 510. a cushion plate of a punching machine; 511. stamping a base plate;
601. a blanking cylinder; 602. a first blanking disc; 603. a blanking support;
701. a conveyor belt support; 702. a drive roll; 703. a driven roller; 704. a first conveying support plate; 705. a conveyor belt; 706. a transfer motor; 707. a shield; 708. a motor mounting plate; 709. an adjusting plate; 710. a second conveying support plate; 711. a compression roller shaft; 712. a conveyor belt baffle; 713. a press roller arm; 714. a compression roller;
801. a blanking rod; 802. a second blanking disc; 803. a divider; 804. a splitter motor plate; 805. a blanking bottom plate; 806: the divider drives the motor.
Detailed Description
As shown in fig. 1-15, an automatic steel stamping machine special for diamond saw blades comprises a machine base 1, a feeding device 2, a material taking device 3, a multi-station rotating device 4, a stamping device 5, a discharging device 6, a conveying device 7, a storage device 8, a human-machine controller 9 and a power distribution control cabinet 10, wherein the feeding device 2, the material taking device 3, the multi-station rotating device 4, the discharging device 6, the conveying device 7 and the storage device 8 are arranged and installed on the machine base 1 according to the processing process of steel stamping of the diamond saw blades, and the stamping device 5 is installed on one side of the machine base 1 and matched with the multi-station rotating device 4; a man-machine controller 9 is arranged on one side of the feeding device 2, the man-machine controller 9 is installed on the machine base 1 through a support frame, and a power distribution control cabinet 10 for power supply and control is arranged on the rear side of the developing device 5. The automatic control of the special automatic steel stamping machine for the diamond saw blade can be completely realized by combining the description of the assembly principle with the prior PLC programming technology, so the description is omitted.
During work, a plurality of diamond saw blades 11 are placed on the feeding device 2 in groups, the single diamond saw blade 11 is adsorbed and transferred onto the multi-station rotating device 4 through the material taking device 3, the multi-station rotating device 4 rotates to convey the diamond saw blade 11 onto the developing device 5 to complete the developing operation, the multi-station rotating device 4 continues to rotate to convey the diamond saw blade 11 which is subjected to the developing operation to the position right above the conveying device 7 and realize separation and falling through the discharging device 6, and the conveying device 7 horizontally outputs the diamond saw blade 11 which falls onto the storage device 8; the feeding device 2, the material taking device 3, the multi-station rotating device 4, the developing device 5, the discharging device 6, the conveying device 7 and the storage device 8 are electrically connected with the man-machine controller 9, and the automatic operation of the feeding, moving, developing, discharging, conveying and discharging processes of the diamond saw blade is completed in sequence. Meanwhile, the feeding and discharging operations can be completed firstly without stopping the machine, and the working efficiency is greatly improved.
As shown in fig. 5, 6, and 7, the feeding device 2 includes a feeding turntable 201, a plurality of feeding rods 202, a stepping motor 208, and an ejection assembly, the plurality of feeding rods 202 are uniformly circumferentially connected to the feeding turntable 201, the bottom of the feeding turntable 201 is in transmission connection with the stepping motor 208 through a feeding turntable spindle 204, the stepping motor 208 is installed on a lifting table bottom plate 209, and the lifting table bottom plate 209 is connected to the base 1 through bolts; the bottom of the feeding station is provided with a material ejecting assembly, and the material ejecting assembly ejects the diamond saw blade 11 up along the feeding rod 202 and gradually moves upwards; specifically, step motor 208 chooses for use the dividing motor, and step motor 208 starts to drive material loading carousel 201 rotatory through material loading carousel main shaft 204, and the number of degrees of rotation at every turn is 60 for six material loading poles 202 realize the adjustment of position, and the material loading pole that will place the saw bit rotates to material loading station department, realizes the conversion operation of material loading pole fast, and the material loading pole that vacates can be at the state of not shutting down and reload, with the suit of multi-disc diamond saw bit on empty material loading pole. A return-to-zero switch 207 is arranged at a feeding station of the feeding turntable 201, the return-to-zero switch 207 is mounted on the lifting platform bottom plate 209 through a connecting support, and the return-to-zero switch 207 acts to enable the arm 402 to return to a safe position during initial work and not to be damaged by stamping of the stamping device.
Specifically, the feeding device further comprises a turntable positioning device, and the turntable positioning device effectively ensures the stability of the feeding turntable 201 during working; the turntable positioning device comprises a feeding turntable positioning sleeve 203, a positioning optical axis 219 and a positioning cylinder 220, the positioning cylinder 220 is installed on the bottom surface of the lifting platform bottom plate 209, the working end of the positioning cylinder 220 is connected with the positioning optical axis 219, a plurality of feeding turntable positioning sleeves 203 are circumferentially and uniformly distributed and connected on the feeding turntable 201, and the positioning optical axis 219 is matched with the feeding turntable positioning sleeves 203; after the feeding turntable 201 rotates in place, the positioning cylinder 220 drives the positioning optical axis 219 to extend out and be embedded into a central hole of the feeding turntable positioning sleeve 203 to realize positioning. After the diamond saw blades on the feeding rod are all taken away, the material ejecting assembly is retracted to the lower part of the feeding turntable, and then the working rod of the positioning cylinder 220 retracts to drive the positioning optical axis 219 to move downwards to be separated from the feeding turntable positioning sleeve 203.
Specifically, the material ejecting assembly comprises an optical axis 205 and a lifting motor 213, the optical axis 205 is provided with three and evenly distributed around the feeding rods 202 at the feeding station, the periphery of each feeding rod 202 is provided with three through holes matched with the optical axis 205, the bottom of the optical axis 205 is connected to an optical axis fixing plate 210, a set of ball screw 211 and ball screw 212 are disposed at the center of the optical axis fixing plate 210, the bottom of the ball screw 212 is rotatably connected to the screw positioning plate 217 through a bearing, the lifting motor 213 is installed on a lifting motor installation plate 214 through a bolt assembly, the lifting motor installation plate 214 is installed at the bottom of the machine base 1, the bottom end of the ball screw 212 and the working rod of the lifting motor 213 are both provided with a synchronizing wheel 218, and the two synchronizing wheels 218 are in transmission connection through a belt 215; three first linear bearings 206 are arranged on the lifting platform bottom plate 209, and the three optical axes 205 penetrate through the three first linear bearings 206 when moving up and down; a lifting motor induction sheet 216 for limiting is connected to one side edge of the optical axis fixing plate 210, and a working end of the lifting motor induction sheet 216 contacts with the lifting motor mounting plate 214 when falling to the bottommost part, so that limiting is realized, and a signal which is reset to the bottom is transmitted to the human machine controller 9. When the optical axis fixing plate works, the lifting motor 213 is started to rotate, the ball screw 212 is driven to rotate through the bottom belt 215, and the optical axis fixing plate 210 is driven to move linearly up and down along the ball screw 212 through the thread matching of the ball screw 211; when material is taken, the lifting motor 213 rotates clockwise to drive the ball screw 212 to rotate clockwise through the belt, then the ball screw 211 drives the optical axis fixing plate 210 to move upwards to drive the three optical axes 205 to move upwards, the top ends of the three optical axes are positioned on the bottom surface of the bottommost diamond saw blade in the same height, the movement of the optical axis 205 ensures that the topmost diamond saw blade is positioned at the material taking height, and the material taking device 3 can conveniently and smoothly take a plurality of diamond saw blades to the next station in an adsorption manner; when the whole pile of diamond saw blades on one feeding rod is completely taken away, the lifting motor 213 rotates anticlockwise to drive the optical axis fixing plate 210 and the three optical axes to descend and reset through the belt, the ball screw 212 and the ball screw 211.
As shown in fig. 8-11, the material taking device 3 comprises a supporting plate 301, an electromagnet 305, a swing arm 306, an alignment plate 313 and an upper tray 316, the supporting plate 301 is connected to two parallel swing arms 306 through bolts, the two swing arms 306 are connected to two synchronous pulleys 324 through swing arm shafts 307, the swing arm shaft 307 is connected in the swing arm bearing block 312 in a penetrating way, the two synchronous pulleys 324 are in transmission connection with a driving synchronous pulley at the lower part through a synchronous belt 325, the driving synchronous pulley is in transmission connection with a swing arm driving motor 310, the swing arm driving motor 310 is installed in the machine base 1 through a swing arm driving motor positioning plate 311, three second proximity switches 327 are correspondingly arranged above the synchronous pulley 324, the second proximity switches 327 are mounted on the cylinder bottom plate 308 through a second proximity switch positioning plate 328, and the cylinder bottom plate 308 is mounted on the machine base 1; the total number of the electromagnets 305 is two, two electromagnets 305 are arranged in one group, the electromagnets 305 are mounted on the supporting plate 301 through guide sleeves 304, the top of each electromagnet 305 is connected with an electromagnet guide rod 302 through an electromagnet connecting plate 303, the positions of the two groups of electromagnets 305 correspond to the alignment disc 313 and the upper charging disc 316 below one by one, the distance between one feeding rod 202 close to the alignment disc 313 and the alignment disc 313 is the same as the distance between the alignment disc 313 and the upper charging disc 316, namely the feeding rods, the alignment disc and the upper charging disc are linearly arranged and are arranged at equal intervals, and the supporting plate 301 is ensured to realize the adsorption and transfer of the diamond saw blade in the swinging process; the alignment disc 313 is mounted on a saw blade alignment shaft 314, the bottom of the saw blade alignment shaft 314 penetrates through the cylinder bottom plate 308 and then is connected in the motor positioning seat 330, and the bottom of the motor positioning seat 330 is provided with a motor 329; a photoelectric switch bracket 309 is arranged on one side of the cylinder bottom plate 308 close to the feeding device 2, an optical fiber switch 321 is arranged at the middle position of the cylinder bottom plate 308, and the optical fiber switch 321 is installed on an optical fiber switch adjusting plate 322 through a proximity switch support 323; specifically, the photoelectric switch bracket 309 is used for fixing the optical fiber switch 321 and finely adjusting the position of the optical fiber switch, the optical fiber switch 321 is used for detecting the position of a water gap on the diamond saw blade during operation, and the motor 329 drives the blade aligning shaft 314 to cooperate with the optical fiber switch 321 to accurately position the diamond saw blade.
Specifically, during operation, the swing arm driving motor 310 is started, the swing arm 306 is driven to move forwards and backwards through the synchronous belt pulley 324 and the synchronous belt 325, the supporting plate 301 and the two groups of electromagnets 305 on the supporting plate move linearly in a reciprocating manner at three positions of the feeding rod, the alignment disc and the feeding disc in the moving process, and two positions are covered each time; in an initial state, the feeding rod is provided with a diamond saw blade, the alignment disc and the feeding disc are in a blank state, the diamond saw blade swings forwards and backwards for one time, the first diamond saw blade is transferred to the alignment disc, the diamond saw blade swings forwards and backwards for one time, the second diamond saw blade and the first diamond saw blade are transferred to the alignment disc and the feeding disc, and when the diamond saw blade swings forwards again to take materials, the first diamond saw blade on the feeding disc is jacked up and transferred to the multi-station rotating device 4; when swinging backwards, the third diamond saw blade and the second diamond saw blade are transferred to the alignment disc and the feeding disc; the second swing realizes the transfer of a plurality of diamond saw blades from the feeding device 2 to the multi-station rotating device 4.
The feeding plate 316 is arranged on a working rod of a jacking cylinder 315 through a feeding rod transition sleeve 317, the jacking cylinder 315 is arranged at the bottom of the cylinder bottom plate 308, guide optical shafts 318 are symmetrically arranged on two sides of the jacking cylinder 315, the top ends of the guide optical shafts 318 penetrate through a second linear bearing 319 and then are connected to a feeding cylinder guide plate 320, and the middle of the feeding cylinder guide plate 320 is connected with the working rod of the jacking cylinder 315; a first proximity switch 326 is arranged on one side of the feeding tray 316, and the feeding tray 316 is positioned right below one station of the multi-station rotating device 4; during operation, when diamond saw blade 11 gets the material through the absorption of electro-magnet 305 and places on material loading tray 316, after first proximity switch 326 sensed the information that diamond saw blade 11 targets in place, send signal for controller and controller send out the instruction and give jacking cylinder 315, the work beam of jacking cylinder 315 rises and drives material loading tray 316 through material loading pole transition cover 317 and rises to the below of the arm 402 of many station rotary device 4, strong magnet 403 of arm 402 tip adsorbs diamond saw blade 11 after, the work beam of jacking cylinder 315 backs down and resets, in jacking cylinder 315 working process, direction optical axis 318 reciprocates in second linear bearing 319 and realizes the effect of location direction, the effectual stability of guaranteeing diamond saw blade 11 rising feeding process.
As shown in fig. 1 and 3, the multi-station rotating device 4 includes a turntable 401 and a plurality of arms 402, one end of each of the plurality of arms 402 is connected to the turntable 401 through a bolt, and the other end of each of the plurality of arms 402 extends outward to reach the working positions of the material taking device 3, the stamping device 5 and the discharging device 6; the other end of the arm 402 is provided with a U-shaped opening, a plurality of powerful magnets 403 for adsorption are arranged on the U-shaped opening, and the turntable 401 is connected with a rotating motor arranged at the bottom and driven by the rotating motor; specifically, as shown in fig. 16, a plurality of proximity switches are disposed below the arm 402, including a third proximity switch 404, a fourth proximity switch 405, and a fifth proximity switch 406, where the third proximity switch 404 is located at a position before the material extracting device 3, the fourth proximity switch 405 is located at a position before the printing device 5, and the fifth proximity switch 406 is located below one of the arms 402 facing the printing device 5; the third proximity switch 404 is used for detecting whether the arm 402 has no material before the next feeding, and if the feeding equipment alarms that the material cannot be fed, the next feeding fails; the fourth proximity switch 405 is used for detecting whether a material exists before stamping, and if no material exists, the stamping cannot be performed by the equipment; the fifth proximity switch 406 is used to detect whether the arm 402 is in the correct punching position in the punching device 5, and to ensure that the arm 402 is not punched. The rotary motor adopts an indexing motor, and the rotary positioning function can be realized.
As shown in fig. 12, the stamping device 5 includes a punch body 501 and a die, a platform 502 is mounted on the punch body 501, the die includes an upper die portion and a lower die portion, the upper die portion includes a die shank 503 and a header 504 assembled together, the die shank 503 is mounted on a slide block of the punch body 501, the lower die portion includes a stamping positioning pin 505, a backing plate 506, a die holder 507 and a stamping backing plate 511 assembled together, and both sides of the stamping backing plate 511 are fixed to the platform 502 by a compression screw 508, a pressure plate 509 and a punch backing plate 510; after the diamond saw blade 11 is placed on the punching positioning pin 505, the slider above the punch body 501 drives the word head 504 to move downward to complete the punching operation. The punching machine is characterized by further comprising a fisheye joint 12, an air cylinder 13 and a clutch base 14, wherein one end of the fisheye joint 12 is connected to a punch pedal connecting rod clutch, the other end of the fisheye joint 12 is connected to the working rod end of the air cylinder 13, the air cylinder 13 is installed on the clutch base 14, and when the punching machine works, the air cylinder 13 drives the fisheye joint 12 and the punch pedal connecting rod to move to drive the upper die part to work; the fisheye joint combined structure replaces the original manual pedal work, and electric automatic control is realized.
Specifically, as shown in fig. 1, 2 and 13, the discharging device 6 includes a discharging cylinder 601 and a first lower tray 602, the discharging cylinder 601 is mounted on an L-shaped discharging bracket 603, the bottom of the discharging bracket 603 is connected to a discharging bottom plate 805 at the top of the base 1 through a bolt, and the first lower tray 602 is connected to the end of a working rod of the discharging cylinder 601; when the arm 402 drives the diamond saw blade after the printing to reach the position right below the first blanking disc 602, the human-computer controller 9 issues an instruction to the blanking cylinder 601, and the working rod of the blanking cylinder 601 extends to drive the first blanking disc 602 to move downwards so that the diamond saw blade and the powerful magnet 403 on the arm 402 are separated and fall onto the conveying device 7.
As shown in fig. 13 and 14, the conveying device 7 includes a conveyor belt bracket 701, a driving roller 702, a driven roller 703 and a conveying motor 706, the bottom of the conveyor belt bracket 701 is mounted on a blanking bottom plate 805 at the top of the machine base 1, the top of the conveyor belt bracket 701 is connected with an adjusting plate 709 and a second conveying support plate 710, the driving roller 702 and the driven roller 703 are respectively mounted on the adjusting plate 709 and the second conveying support plate 710, the driving roller 702 and the driven roller 703 are in transmission connection with each other through a conveying belt 705, the conveying motor 706 is mounted inside the conveyor belt bracket 701 through a motor mounting plate 708, the output end of the conveying motor 706 is in transmission connection with one end of the driving roller 702 through a belt, and a shield 707 is arranged on the periphery of the belt; a conveying belt baffle 712 is arranged above the conveying belt 705, the conveying belt baffle 712 is connected to the top surface of the adjusting plate 709 through bolts, a compression roller 714 is arranged above the driven roller 703, the compression roller 714 is installed on a compression roller shaft 711, the compression roller shaft 711 is connected to the second conveying support plate 710 through a first conveying support plate 704, and a compression roller arm 713 is arranged on the first conveying support plate 704. Specifically, during operation, the diamond saw blade that the printing was accomplished is rotatory to the station of unloading through arm 402 on the multistation rotary device 4, and unloading dish 602 moves down will the diamond saw blade separation falls to on the transmission band 705, conveying motor 706 work drives transmission band 705 clockwise turning, with the diamond saw blade forward conveying pass through the gap between driven roller 703 and the compression roller 714, finally drop to strorage device 8 on unloading pole 801.
As shown in fig. 13, the storage device 8 includes a plurality of blanking bars 801, a second blanking tray 802, and a divider 803, the blanking bars 801 are uniformly and circumferentially connected to the second blanking tray 802, the bottom of the second blanking tray 802 is in transmission connection with the divider 803, the divider 803 is connected to a divider driving motor 806, the divider driving motor 806 is mounted on a blanking bottom plate 805 through a divider motor plate 804, the blanking bottom plate 805 is mounted on the base 1 through bolts, specifically, during operation, the divider driving motor 806 drives the second blanking tray 802 to rotate at a fixed angle through the divider 803, so as to drive the blanking bars 801 to change positions to realize collection of diamond saw blades, and the collected blanking bars rotate 60 °, so as to adjust the blank blanking bars to face one side of the conveying device 7.
As shown in fig. 10, the machine base 1 is specifically set to be L-shaped, the bottom of the machine base 1 is provided with an adjusting anchor 101, two anchors of the feeding device 2 are arranged on an anchor fixing plate 102, the anchor fixing plate 102 is made of thick iron plate, and screws for adjustment are arranged in four directions, and the anchor fixing plate 102 can support the machine base 1 and reduce the vibration caused by the operation of the punching device to move.
The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (10)

1. The special automatic steel seal machine for the diamond saw blade is characterized in that: the automatic steel stamping machine comprises a machine base (1), a feeding device (2), a material taking device (3), a multi-station rotating device (4), a stamping device (5), a discharging device (6), a conveying device (7), a storage device (8), a man-machine controller (9) and a power distribution control cabinet (10), wherein the feeding device (2), the material taking device (3), the multi-station rotating device (4), the discharging device (6), the conveying device (7) and the storage device (8) are arranged and installed on the machine base (1) according to the processing process of steel stamping of diamond saw blades, and the stamping device (5) is installed on one side of the machine base (1) and matched with the multi-station rotating device (4); a man-machine controller (9) is arranged on one side of the feeding device (2), the man-machine controller (9) is installed on the base (1) through a support frame, and a power distribution control cabinet (10) for power supply and control is arranged on the rear side of the developing device (5);
a plurality of diamond saw blades (11) are placed on the feeding device (2) in groups, the single diamond saw blade (11) is adsorbed and transferred onto the multi-station rotating device (4) through the material taking device (3), the multi-station rotating device (4) rotates to convey the diamond saw blade (11) onto the stamping device (5) to complete stamping operation, the multi-station rotating device (4) continues to rotate to convey the diamond saw blade (11) which is stamped to the position right above the conveying device (7) and realize separation and falling through the discharging device (6), and the conveying device (7) horizontally outputs the diamond saw blade (11) which falls to the storage device (8); the feeding device (2), the material taking device (3), the multi-station rotating device (4), the stamping device (5), the discharging device (6), the conveying device (7) and the storage device (8) are all electrically connected with the man-machine controller (9), and automatic operation of feeding, moving, stamping, discharging, transmitting and discharging processes of the diamond saw blade is completed in sequence.
2. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the feeding device (2) comprises a feeding turntable (201), a plurality of feeding rods (202), a stepping motor (208) and a material ejecting assembly, wherein the plurality of feeding rods (202) are uniformly distributed on the feeding turntable (201) in a circumferential manner, the bottom of the feeding turntable (201) is in transmission connection with the stepping motor (208) through a feeding turntable spindle (204), the stepping motor (208) is installed on a lifting platform bottom plate (209), and the lifting platform bottom plate (209) is connected to the machine base (1) through bolts; the bottom of the feeding station is provided with a material ejecting assembly, and the material ejecting assembly ejects the diamond saw blade (11) upwards along the feeding rod (202) step by step; a return-to-zero switch (207) is arranged at a feeding station of the feeding turntable (201), and the return-to-zero switch (207) is installed on the lifting platform bottom plate (209) through a connecting support;
the automatic feeding device is characterized by further comprising a turntable positioning device, wherein the turntable positioning device comprises a feeding turntable positioning sleeve (203), a positioning optical axis (219) and a positioning cylinder (220), the positioning cylinder (220) is installed on the bottom surface of the lifting platform bottom plate (209), the working end of the positioning cylinder (220) is connected with the positioning optical axis (219), the feeding turntable positioning sleeves (203) are circumferentially and uniformly distributed and connected on the feeding turntable (201), and the positioning optical axis (219) is matched with the feeding turntable positioning sleeves (203); after the feeding turntable (201) rotates in place, the positioning cylinder (220) drives the positioning optical axis (219) to stretch out and be embedded into a central hole of the feeding turntable positioning sleeve (203) to realize positioning.
3. The automatic steel stamping machine special for the diamond saw blade as claimed in claim 2, wherein: the material ejecting assembly comprises an optical axis (205) and a lifting motor (213), the optical axis (205) is provided with three material loading rods (202) which are uniformly arranged around a material loading station, each material loading rod (202) is provided with three through holes matched with the optical axis (205) at the periphery, the bottom of the optical axis (205) is connected onto an optical axis fixing plate (210), the center of the optical axis fixing plate (210) is provided with a group of matched ball screw nuts (211) and ball screw screws (212), the bottom of each ball screw (212) is rotatably connected onto a screw positioning plate (217), the lifting motor (213) is installed on a lifting motor installation plate (214) through a bolt assembly, the lifting motor installation plate (214) is installed at the bottom of the base (1), the bottom of each ball screw (212) and a working rod of the lifting motor (213) are both provided with a synchronizing wheel (218), the two synchronous wheels (218) are in transmission connection through a belt (215); three first linear bearings (206) are arranged on the lifting platform bottom plate (209), and the three optical axes (205) penetrate through the three first linear bearings (206) when moving up and down; and a lifting motor induction sheet (216) for limiting is connected to one side edge of the optical axis fixing plate (210).
4. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the material taking device (3) comprises a supporting plate (301), an electromagnet (305), swing arms (306), an alignment disc (313) and a feeding disc (316), wherein the supporting plate (301) is connected onto the two parallel swing arms (306) through bolts, the two swing arms (306) are connected onto two synchronous belt wheels (324) through swing arm shafts (307), the swing arm shafts (307) are connected into swing arm bearing seats (312) in a penetrating manner, the two synchronous belt wheels (324) are in transmission connection with driving synchronous belt wheels below through synchronous belts (325), the driving synchronous belt wheels are in transmission connection with swing arm driving motors (310), the swing arm driving motors (310) are installed in the machine base (1) through swing arm driving motor positioning plates (311), three second proximity switches (327) are correspondingly arranged above the synchronous belt wheels (324), and the second proximity switches (327) are installed on a cylinder bottom plate (308) through second proximity switch positioning plates (328), the cylinder bottom plate (308) is arranged on the machine base (1);
the device comprises a support plate (301), electromagnets (305) and a saw blade aligning shaft (314), wherein the electromagnets (305) are arranged in two groups in total, every two electromagnets are arranged in one group, the electromagnets (305) are installed on the support plate (301) through guide sleeves (304), the top of the electromagnets (305) is connected with an electromagnet guide rod (302) through an electromagnet connecting plate (303), the positions of the two groups of electromagnets (305) correspond to the aligning disc (313) and the feeding disc (316) below one by one, the aligning disc (313) is installed on the saw blade aligning shaft (314), the bottom of the saw blade aligning shaft (314) penetrates through a cylinder bottom plate (308) and then is connected into a motor positioning seat (330), and a motor (329) is installed at the bottom of the motor positioning seat (330);
the feeding plate (316) is mounted on a working rod of a jacking cylinder (315) through a feeding rod transition sleeve (317), the jacking cylinder (315) is mounted at the bottom of the cylinder bottom plate (308), guide optical axes (318) are symmetrically arranged on two sides of the jacking cylinder (315), the top end of each guide optical axis (318) penetrates through a second linear bearing (319) and then is connected to a feeding cylinder guide plate (320), and the middle of each feeding cylinder guide plate (320) is connected with the working rod of the jacking cylinder (315); a first proximity switch (326) is arranged on one side of the feeding tray (316), and the feeding tray (316) is positioned right below one station of the multi-station rotating device (4);
a photoelectric switch bracket (309) is arranged on one side, close to the feeding device (2), of the cylinder bottom plate (308), an optical fiber switch (321) is arranged in the middle of the cylinder bottom plate (308), and the optical fiber switch (321) is installed on an optical fiber switch adjusting plate (322) through a proximity switch support column (323); the motor (329) drives the saw blade aligning shaft (314) to be matched with the optical fiber switch (321) so that the diamond saw blade can be accurately positioned.
5. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the multi-station rotating device (4) comprises a turntable (401) and a plurality of arms (402), one ends of the arms (402) are connected to the turntable (401) through bolts, and the other ends of the arms (402) extend outwards to reach the working positions of the material taking device (3), the developing device (5) and the discharging device (6); the other end of the arm (402) is provided with a U-shaped opening, a plurality of powerful magnets (403) for adsorption are arranged on the U-shaped opening, and the turntable (401) is connected with a rotating motor arranged at the bottom and driven by the rotating motor;
a plurality of proximity switches are arranged below the arm (402) and comprise a third proximity switch (404), a fourth proximity switch (405) and a fifth proximity switch (406), the third proximity switch (404) is located at the previous station of the material taking device (3), the fourth proximity switch (405) is located at the previous station of the stamping device (5), and the fifth proximity switch (406) is located below the arm (402) facing the stamping device (5).
6. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the stamping device (5) comprises a punch body (501) and a stamping die, wherein a platform (502) is installed on the punch body (501), the stamping die comprises an upper die part and a lower die part, the upper die part comprises a die shank (503) and a word head (504) which are assembled together, the die shank (503) is installed on a sliding block of the punch body (501), the lower die part comprises a stamping positioning pin (505), a backing plate (506), a stamping die holder (507) and a stamping backing plate (511) which are assembled together, and two sides of the stamping backing plate (511) are pressed and fixed on the platform (502) through a pressing screw (508), a pressing plate (509) and a punch backing plate (510); after the diamond saw blade (11) is placed on the punching positioning pin (505), the slider above the punch body (501) operates to drive the word head (504) to move downwards to complete the punching operation;
still include fisheye joint (12), cylinder (13) and clutch base (14), the one end of fisheye joint (12) is connected on punch press pedal connecting rod clutch, the other end of fisheye joint (12) is connected the working rod end of cylinder (13), cylinder (13) are installed on clutch base (14), the during operation cylinder (13) drive fisheye joint (12), the pedal connecting rod motion drive of punch press go up mould part work.
7. The automatic steel stamping machine special for the diamond saw blade as claimed in claim 5, wherein: the discharging device (6) comprises a discharging cylinder (601) and a first discharging tray (602), the discharging cylinder (601) is installed on an L-shaped discharging support (603), the bottom of the discharging support (603) is connected to a discharging bottom plate (805) at the top of the machine base (1) through a bolt, and the first discharging tray (602) is connected to the end part of a working rod of the discharging cylinder (601); when arm (402) drive the diamond saw blade after finishing printing and arrive under first charging tray (602), fifth proximity switch (406) transmission sensing signal passes through man-machine controller (9) issue the instruction and gives unloading cylinder (601), the work lever of unloading cylinder (601) stretches out the drive first charging tray (602) downstream will diamond saw blade with powerful magnet (403) separation on arm (402) falls to conveyor (7) is last.
8. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the conveying device (7) comprises a conveying belt bracket (701), a driving roller (702), a driven roller (703) and a conveying motor (706), the bottom of the conveying belt bracket (701) is arranged on a blanking bottom plate (805) at the top of the machine base (1), the top of the conveying belt bracket (701) is connected with an adjusting plate (709) and a second conveying support plate (710), the driving roller (702) and the driven roller (703) are respectively arranged on the adjusting plate (709) and the second conveying support plate (710), the driving roller (702) and the driven roller (703) are connected together through a transmission belt (705), the conveying motor (706) is arranged inside the conveyer belt bracket (701) through a motor mounting plate (708), the output end of the conveying motor (706) is in transmission connection with one end of the driving roller (702) through a belt, and a shield (707) is arranged on the periphery of the belt; the top of transmission band (705) is provided with conveyer belt baffle (712), conveyer belt baffle (712) pass through bolted connection on the top surface of regulating plate (709), the top of driven roller (703) is provided with compression roller (714), compression roller (714) are installed on compression roller axle (711), compression roller axle (711) are connected through carrying extension board one (704) carry on extension board two (710), be provided with compression roller arm (713) on carrying extension board one (704).
9. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the storage device (8) comprises a plurality of blanking rods (801), a second blanking tray (802) and a divider (803), the blanking rods (801) are uniformly distributed and connected to the second blanking tray (802) in a circumferential manner, the bottom of the second blanking tray (802) is in transmission connection with the divider (803), the divider (803) is connected with a divider driving motor (806), the divider driving motor (806) is installed on a blanking bottom plate (805) through a divider motor plate (804), and the blanking bottom plate (805) is installed on the machine base (1) through bolts; when the diamond saw blade collection device works, the divider driving motor (806) drives the second blanking disc (802) to rotate at a fixed angle through the divider (803), so that the blanking rod (801) is driven to change positions to realize the diamond saw blade collection operation.
10. The automatic steel seal machine special for the diamond saw blade according to claim 1, characterized in that: the utility model discloses a material loading device, including frame (1), base (1), regulation anchor (101), be located on two lower margin setting anchor fixed plates (102) of loading attachment (2), anchor fixed plate (102) are made through thick iron plate and four directions all are furnished with the screw of adjusting usefulness, the concrete setting of frame (1) is to the L type, the bottom of frame (1) is provided with adjustment anchor (101), is located on two lower margins of loading attachment (2) set up anchor fixed plate (.
CN202022707729.6U 2020-11-20 2020-11-20 Special automatic steel seal machine for diamond saw blade Active CN214057086U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022707729.6U CN214057086U (en) 2020-11-20 2020-11-20 Special automatic steel seal machine for diamond saw blade

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022707729.6U CN214057086U (en) 2020-11-20 2020-11-20 Special automatic steel seal machine for diamond saw blade

Publications (1)

Publication Number Publication Date
CN214057086U true CN214057086U (en) 2021-08-27

Family

ID=77402226

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022707729.6U Active CN214057086U (en) 2020-11-20 2020-11-20 Special automatic steel seal machine for diamond saw blade

Country Status (1)

Country Link
CN (1) CN214057086U (en)

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