CN115741330A - Grinding device is used in production of stainless steel equipment - Google Patents

Abstract

The invention belongs to the technical field of stainless steel product production and processing, and particularly relates to a polishing device for stainless steel equipment production, which comprises a working frame, wherein material conveying pieces are arranged on two side walls of the working frame, a welding piece is arranged on one side of the material conveying piece, a fixing piece is arranged around the welding piece, a first material taking piece is arranged below the welding piece, a polishing piece is arranged on one side of the welding piece, a second material taking piece is arranged on one side of the polishing piece, a discharging piece is arranged on one side of the working frame, which is close to the second material taking piece, and a finished product box is arranged on one side of the discharging piece.

Description

Grinding device is used in production of stainless steel equipment

Technical Field

The invention belongs to the technical field of stainless steel product production and processing, and particularly relates to a polishing device for stainless steel equipment production.

Background

With the progress of society, economy develops rapidly, and while the industry progresses, stainless steel products are also widely applied, the stainless steel refers to steel which resists corrosion of weak corrosion media such as air, steam, water and the like and chemical corrosion media such as acid, alkali, salt and the like, and is also called stainless acid-resistant steel.

At present, welding to stainless steel products is by the manual work to the part of polishing after the manual welding again, polishes by the professional, has certain drawing down in efficiency, and the precision is not high.

Disclosure of Invention

The invention provides a polishing device for stainless steel equipment production, aiming at overcoming the defects of the prior art.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a stainless steel is grinding device for equipment production, includes the workstation, workstation both sides wall is equipped with defeated material spare, defeated material spare one side is equipped with a welding, be equipped with the mounting just around the welding a below is equipped with the first material of getting, a side is equipped with the piece of polishing, it is equipped with the second and gets the material piece to polish one side, the workstation is close to the second and gets one side of material and be equipped with unloading piece, unloading piece one side is equipped with the finished product case, the piece of polishing is including the lead screw of polishing, the lead screw of polishing rotates and sets up on workstation both sides wall, the lead screw top of polishing is equipped with the spacing axle of polishing, polish spacing axle and workstation both sides wall fixed connection, the lead screw overcoat slider of polishing, the slider of polishing and the screw-thread fit of polishing, the spacing axle of polishing runs through and with the slider sliding fit of polishing, the slider bottom surface is fixed and is equipped with the conversion case of polishing, fixed be equipped with the polishing motor on the outer wall of workstation one side, the output shaft of polishing motor pass a workstation lateral wall and with polishing lead screw fixed connection.

It is optional, the cavity of polishing has been seted up in the conversion case of polishing, the fixed conversion motor that is equipped with of cavity inner wall of polishing, the output shaft of conversion motor runs through and rotates and is equipped with the dust box of polishing, the one side that the conversion motor was kept away from to the dust box of polishing is equipped with the conversion part of polishing, the conversion part of polishing includes first conversion dish, the output shaft and the first conversion dish fixed surface of conversion motor are connected, the oblique below of first conversion dish is equipped with the second conversion dish, second conversion dish center is rotated and is equipped with the conversion connecting axle, the one end and the cavity inner wall fixed connection of polishing that the second conversion dish was kept away from to the conversion connecting axle, a plurality of connect the through-hole has all been seted up on first conversion dish and second conversion dish surface, and is a plurality of slide in the connect the through-hole and be equipped with L type spliced pole, one side L type spliced pole bottom end is fixed and is equipped with polisher and adjacent one side L type spliced pole is for inhaling the powder pipe.

Optionally, a polishing opening is formed in one surface, away from the polishing slider, of the polishing conversion box, and one of the polishing machine and the powder suction pipe extends out of the polishing opening.

Optionally, the welding piece includes welding lead screw, welding lead screw and workstation both sides wall normal running fit, welding lead screw overcoat welding slider, welding slider and welding lead screw-thread fit, welding lead screw top is equipped with the spacing axle of welding, the spacing axle of welding run through and with welding slider sliding fit, the spacing axle of welding and workstation both sides wall fixed connection, the fixed welder that is equipped with in welding slider bottom surface just the fixed welding auxiliary thing siphunculus that is equipped with on a welding slider lateral wall, one side the workstation outer wall is fixed and is equipped with the welding shell, set up the welding cavity in the welding shell, the fixed welding motor that is equipped with of welding cavity inner wall, one side workstation outer wall is passed to welding motor's output shaft one end and just with welding lead screw fixed connection.

Optionally, a welding auxiliary object placing frame is fixedly arranged at one end of the top surface of the welding shell, a first welding conveying gear and a second welding conveying gear are arranged on one side, close to a welding lead screw, of the welding auxiliary object placing frame, the first welding conveying gear is meshed with the second welding conveying gear, the first welding conveying gear and the second welding conveying gear are both in rotating fit with the outer wall of the upper end of the welding shell, a first welding conveying shaft is fixedly arranged on the surface of the first welding conveying gear, a first welding conveying disc is fixedly arranged on the surface of the first welding conveying shaft, the circumferential diameter of the first welding conveying shaft is smaller than that of the first welding conveying disc, a second welding conveying shaft is fixedly arranged on the surface of the second welding conveying gear, and a second welding conveying disc is fixedly arranged on the surface of the second welding conveying shaft, the circumference diameter of the second welding conveying shaft is smaller than that of the second welding conveying disc, a second welding fixing shaft is fixedly arranged at the center of the lower surface of the first welding conveying gear, one end, far away from the first welding conveying gear, of the second welding fixing shaft penetrates through the outer wall of the welding shell and is in running fit with the outer wall of the welding shell, one end of the second welding fixing shaft is in running fit with the outer wall of the working frame, a first welding bevel gear is arranged below the first welding conveying gear and is fixedly connected with the second welding fixing shaft, a second welding bevel gear is arranged on one side of the first welding bevel gear and is meshed with the first welding bevel gear, a first welding fixing shaft is fixedly arranged at the center of the second welding bevel gear, the first welding fixing shaft is in running fit with the inner wall of the welding cavity, and a second welding synchronizing wheel is arranged on one side of the first welding bevel gear, the second welding synchronizing wheel is fixedly connected with the first welding fixing shaft, a first welding synchronizing wheel is arranged obliquely below the second welding synchronizing wheel, the first welding synchronizing wheel is connected with the second welding synchronizing wheel through a welding synchronizing belt, and the first welding synchronizing wheel is fixedly connected with an output shaft of a welding motor.

Optionally, the fixing member comprises a common fixing member and a special fixing member, the common fixing member is symmetrically arranged on two side walls of the working frame, the common fixing member comprises a first fixing air cylinder, two side walls of the working frame are symmetrically provided with common fixing through holes, the first fixing air cylinder is fixedly arranged in the fixing through holes, one end of a piston rod of the first fixing air cylinder is fixedly provided with a first fixing clamp, the special fixing member comprises a second fixing air cylinder, one side of the working frame, far away from the polishing member, is provided with a special fixing through hole, the second fixing air cylinder is fixedly arranged in the special fixing through hole, one end of a piston rod of the second fixing air cylinder is fixedly provided with a fixing driving box, the fixing driving box is slidably arranged in the special fixing through hole, one side of the fixing driving box is provided with a fixing driving opening, and the fixing driving cavity is formed in the fixing driving box, a first driving motor and a second driving motor are fixedly arranged on the inner wall of the fixed driving cavity, a third driving connecting block is arranged on one side, close to the fixed driving opening, of the first driving motor, the third driving connecting block is fixedly arranged on the inner wall of the fixed driving cavity, one end of an output shaft of the first driving motor penetrates through and is in running fit with the third driving connecting block, a first driving bevel gear is fixedly arranged at one end of the output shaft of the first driving motor, a third driving bevel gear is arranged on one side, close to the second driving motor, of the first driving bevel gear, the third driving bevel gear is meshed with the first driving bevel gear, a first driving connecting shaft is fixedly arranged in the center of the third driving bevel gear, a fourth driving bevel gear is fixedly arranged at one end, far away from the third driving bevel gear, of the first driving connecting shaft, a fourth driving connecting block is fixedly arranged at one side, close to the fixed driving opening, of the second driving motor, the fourth driving connecting block is fixedly arranged on the inner wall of the fixed driving cavity, one end of an output shaft of the second driving motor penetrates through and is in rotating fit with the fourth driving connecting block, a second driving bevel gear is fixedly arranged at one end of an output shaft of the second driving motor, a fifth driving bevel gear is arranged at one side of the second driving bevel gear, which is close to the first driving motor, the fifth driving bevel gear is meshed with the second driving bevel gear, a second driving connecting shaft is fixedly arranged at the center of the fifth driving bevel gear, a sixth driving bevel gear is arranged at one end of the second driving connecting shaft, which is far away from the fifth driving bevel gear, a seventh driving bevel gear is arranged between the fourth driving bevel gear and the sixth driving bevel gear, the seventh driving bevel gear is respectively meshed with the fourth driving bevel gear and the sixth driving bevel gear, a fifth driving connecting shaft is fixedly arranged at the center of the seventh driving bevel gear, a second fixing clamp is fixedly arranged at one end of the fifth driving connecting shaft far away from the seventh driving bevel gear, a second driving connecting block is arranged between the second fixing clamp and the seventh driving bevel gear and is in running fit with the seventh driving bevel gear, the fifth driving connecting shaft penetrates through and is in running fit with the second driving connecting block, the third driving connecting block and the fourth driving connecting block are fixedly connected through a connecting rod, a first driving connecting block is arranged between the fourth driving bevel gear and the sixth driving bevel gear, the first driving connecting block is fixedly connected with a connecting rod, the first driving connecting block is respectively in running fit with the fourth driving bevel gear and the sixth driving bevel gear, a curved connecting object is rotationally arranged on one surface of the fifth driving bevel gear, which is far away from the second driving connecting shaft, and one end of the bent connector, which is far away from the fifth driving bevel gear, is fixedly connected with the second driving connecting block.

Optionally, the second is got material piece and is included the second and get the material cylinder, the base that the second was got the material cylinder is fixed to be set up on work frame bottom inner wall, the piston rod one end that the second was got the material cylinder is equipped with and emptys the piece, it is including empting the mount to empty the piece, it fixes to set up in the second and gets the piston rod one end of material cylinder to empty the mount, it is equipped with the motion frame that emptys to empty the mount center, it is equipped with and emptys the driving piece to empty the motion frame both sides, it includes driving actuating cylinder to empty the driving piece, the base that drives actuating cylinder articulates on empting the mount diapire just the piston rod one end that drives actuating cylinder articulates there is the second drive connecting rod, second drive connecting rod one end articulate in empting on the mount lateral wall just the second drive connecting rod other end articulates on the motion frame lateral wall that inclines, second drive connecting rod top is equipped with first drive connecting rod one end articulates on empting the lateral wall mount and the first drive connecting rod other end articulates on the motion frame lateral wall that inclines.

It is optional, defeated material spare is including defeated material motor, defeated material motor is fixed to be set up on the outer wall of work rest one side, the output shaft of defeated material motor passes one side work rest outer wall and in work rest normal running fit, the fixed first defeated material pivot that is equipped with of output shaft one end of defeated material motor, first defeated material pivot and work rest both sides wall normal running fit, one side that first defeated material pivot is close to the piece of polishing is equipped with the defeated material pivot of second, the defeated material pivot of second and work rest both sides wall normal running fit, first defeated material pivot and the defeated material pivot both ends of second are all fixed and are equipped with defeated material synchronizing wheel, homonymy both ends defeated material synchronizing wheel is connected through defeated material hold-in range, the fixed defeated material buckle that is equipped with on the defeated material synchronizing belt.

In conclusion, the beneficial effects of the invention are as follows: automatic welding can be realized through welding parts, so that the manual participation is reduced, the cost is reduced, and the efficiency is improved; the stainless steel product to be processed is turned over through the special fixing piece, the stainless steel product can be welded by the welding piece and the grinding piece, a welding seam can be polished, the automatic process from welding to polishing is realized, the working efficiency is improved, and the service performance of the stainless steel product is improved; different polishing tools fixedly connected with the bottom ends of different L-shaped connecting columns in the polishing piece are used for polishing a stainless steel product in multiple layers, and workers do not need to replace a grinding tool manually, so that the polishing efficiency is higher; when polishing, the dust suction pipe continuously sucks away the polished dust beside the polishing machine, and the polished dust is prevented from scattering in a workshop to influence machines and workers.

Drawings

Fig. 1 is an external overall view of the present invention.

FIG. 2 is an enlarged view of the invention at A.

Fig. 3 is a schematic view of the interior of a weld enclosure of the present invention.

FIG. 4 is an enlarged view of the invention at point B.

Fig. 5 is a first schematic view of a stationary driving box according to the present invention.

Fig. 6 is a schematic view of a fixed driving box according to the present invention.

Fig. 7 is a schematic view of the internal components of a stationary drive housing of the present invention.

Fig. 8 is a schematic view of a sanding switch box of the present invention.

FIG. 9 is a bottom view of a sanding conversion box of the present invention.

Fig. 10 is a cross-sectional view of a sanding switch box of the present invention.

Fig. 11 is a schematic view of the internal components of a sanding conversion box of the present invention.

Fig. 12 is a schematic view of a second take-off member of the present invention.

FIG. 13 is an enlarged view of the invention at point C.

In the figure, 1, a conveying part; 2. a welding part; 3. a fixing member; 4. a first material taking part; 5. polishing the workpiece; 6. blanking parts; 7. a finished product box; 8. a working frame; 9. a second material taking part; 101. a conveying synchronous wheel; 102. conveying synchronous belts; 103. a material conveying buckle; 104. a conveying motor; 105. a first material conveying rotating shaft; 106. a second material conveying rotating shaft; 201. welding a lead screw; 202. welding a limiting shaft; 203. welding the sliding block; 204. a welding gun; 205. welding an auxiliary through pipe; 206. welding an auxiliary object placing frame; 207. welding the shell; 208. a first welding conveying gear; 209. a second welding conveying gear; 210. a first welding conveying shaft; 211. a second welding conveying shaft; 212. a first welding conveying disc; 213. a second welding conveying disc; 214. welding a motor; 215. a first welding synchronizing wheel; 216. a second welding synchronizing wheel; 217. a first welding fixed shaft; 218. welding a synchronous belt; 219. a first welded bevel gear; 220. a second welded bevel gear; 221. a second welding fixed shaft; 301. a common fixing member; 302. a first stationary cylinder; 303. a first fixing jig; 304. a special fixing piece; 305. a second stationary cylinder; 306. a second fixing jig; 307. fixing a driving box; 308. a fixed drive opening; 309. a first drive motor; 310. a second drive motor; 311. a first drive bevel gear; 312. a second drive bevel gear; 313. a third drive bevel gear; 314. a fourth drive bevel gear; 315. a fifth drive bevel gear; 316. a sixth drive bevel gear; 317. a first drive connection shaft; 318. a second drive connection shaft; 319. a seventh drive bevel gear; 320. a curved connector; 321. a first drive connection block; 322. a second drive connection block; 323. a fifth drive connecting shaft; 324. a third drive connection block; 325. a fourth drive connection block; 401. a first material taking cylinder; 402. a first material taking clamp; 501. polishing the lead screw; 502. polishing the limiting shaft; 503. polishing the sliding block; 504. polishing the conversion box; 505. polishing the cavity; 506. polishing the opening; 507. polishing the conversion piece; 508. polishing the dust box; 509. converting the motor; 510. a first switching disc; 511. a second switching disk; 512. a powder suction pipe; 513. an abrasive article; 514. an L-shaped connecting column; 601. a first blanking support frame; 602. a first blanking rotating shaft; 603. a second blanking rotating shaft; 604. a blanking conveyor belt; 605. a second blanking support frame; 901. a second material taking cylinder; 902. a pouring member; 903. dumping the fixed frame; 904. dumping the motion frame; 905. a dump drive; 906. a driving cylinder; 907. a first drive link; 908. a second drive link.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1-13, a grinding device is used in stainless steel equipment production, includes the workstation 8, and 8 both sides walls of workstation are equipped with defeated material spare 1, and defeated material spare 1 is used for the automatic transportation to wait to process stainless steel square pipe, realizes the automation between the flow, reduces personnel's participation, raises the efficiency.

As shown in fig. 3, the material conveying member 1 includes a material conveying motor 104, the material conveying motor 104 is fixedly disposed on an outer wall of one side of a work frame 8, an output shaft of the material conveying motor 104 passes through an outer wall of one side of the work frame 8 and is rotatably matched with the work frame 8, a first material conveying rotating shaft 105 is fixedly disposed at one end of the output shaft of the material conveying motor 104, the first material conveying rotating shaft 105 is rotatably matched with two side walls of the work frame 8, a second material conveying rotating shaft 106 is disposed at one side of the first material conveying rotating shaft 105 close to a polishing member 5, the second material conveying rotating shaft 106 is rotatably matched with two side walls of the work frame 8, material conveying synchronizing wheels 101 are fixedly disposed at two ends of the first material conveying rotating shaft 105 and the second material conveying rotating shaft 106, the material conveying synchronizing wheels 101 are connected through material conveying synchronizing belts 102 at two ends of the same side, material conveying buckles 103 are fixedly disposed on the material conveying synchronizing belts 102, the material conveying buckles 103 are used for fixedly placing a placing board for placing a stainless steel square tube to be processed, so as to drive the stainless steel square tube to be processed, and convenient to install and disassemble through the material conveying buckles 103.

As shown in figure 1, a welding part 2 is arranged on one side of a material conveying part 1, the welding part 2 is used for welding a stainless steel square pipe to be processed, welding aids can be automatically fed, and the situation that the welding aids are fed by workers or the welding aids are fed manually by the workers in the welding process is avoided.

As shown in fig. 2 and 5, the welding part 2 includes a welding lead screw 201, the welding lead screw 201 is in running fit with two side walls of the working frame 8, a welding slider 203 is sleeved outside the welding lead screw 201, the welding slider 203 is in thread fit with the welding lead screw 201, a welding limiting shaft 202 is arranged above the welding lead screw 201, the welding limiting shaft 202 runs through and is in sliding fit with the welding slider 203, the welding limiting shaft 202 is fixedly connected with two side walls of the working frame 8, a welding gun 204 is fixedly arranged on the bottom surface of the welding slider 203, a welding auxiliary object through pipe 205 is fixedly arranged on one side wall of the welding slider 203, a welding shell 207 is fixedly arranged on the outer wall of the working frame 8 on one side, a welding cavity is arranged in the welding shell 207, a welding motor 214 is fixedly arranged on the inner wall of the welding cavity, and one end of an output shaft of the welding motor 214 passes through the outer wall of the working frame 8 on one side and is fixedly connected with the welding lead screw 201.

As shown in fig. 5, a welding auxiliary holder 206 is fixedly arranged at one end of the top surface of the welding shell 207, a first welding conveying gear 208 and a second welding conveying gear 209 are arranged at one side of the welding auxiliary holder 206 close to the welding screw 201, the first welding conveying gear 208 and the second welding conveying gear 209 are engaged, the first welding conveying gear 208 and the second welding conveying gear 209 are both in running fit with the outer wall of the upper end of the welding shell 207, a first welding conveying shaft 210 is fixedly arranged on the surface of the first welding conveying gear 208, a first welding conveying disc 212 is fixedly arranged on the surface of the first welding conveying shaft 210, the circumferential diameter of the first welding conveying shaft 210 is smaller than that of the first welding conveying disc 212, a second welding conveying shaft 211 is fixedly arranged on the surface of the second welding conveying gear 209, a second welding conveying disc 213 is fixedly arranged on the surface of the second welding conveying shaft 211, and the circumferential diameter of the second welding conveying shaft 211 is smaller than that of the second welding conveying disc 213, so that the welding auxiliary can be conveniently delivered from the gap between the first welding conveying shaft 210 and the second welding conveying shaft 211, and the welding auxiliary can be prevented from being extruded.

As shown in fig. 5, a second welding fixed shaft 221 is fixedly arranged at the center of the lower surface of the first welding conveying gear 208, one end of the second welding fixed shaft 221, which is far away from the first welding conveying gear 208, penetrates through the outer wall of the welding shell 207 and is in rotating fit with the outer wall of the welding shell 207, one end of the second welding fixed shaft 221 is in rotating fit with the outer wall of the working frame 8, a first welding bevel gear 219 is arranged below the first welding conveying gear 208, the first welding bevel gear 219 is fixedly connected with the second welding fixed shaft 221, a second welding bevel gear 220 is arranged on one side of the first welding bevel gear 219, the second welding bevel gear 220 is meshed with the first welding bevel gear 219, a first welding fixed shaft 217 is fixedly arranged at the center of the second welding bevel gear 220, the first welding fixed shaft 217 is in rotating fit with the inner wall of the welding cavity, a second welding synchronous wheel 216 is arranged on one side of the first welding bevel gear 219, the second welding synchronous wheel 216 is fixedly connected with the first welding fixed shaft 217, a first welding synchronous wheel 215 is obliquely arranged below the welding synchronous wheel 218 and is fixedly connected with an output shaft 214 of the welding motor.

As shown in figure 1, a fixing piece 3 is arranged around a welding piece 2, and the fixing piece 3 is used for fixing a stainless steel square pipe to be processed, so that the stainless steel square pipe is prevented from being deviated in the welding or polishing process.

As shown in fig. 1, the fixing member 3 includes a general fixing member 301 and a special fixing member 304, the general fixing member 301 fixes both ends of the stainless steel square pipe to be processed, and the special fixing member 304 can not only fix the lower end of the stainless steel to be processed, but also turn over the stainless steel square pipe.

As shown in fig. 1, the common fixing members 301 are symmetrically disposed on two side walls of the working frame 8, the common fixing members 301 include first fixing cylinders 302, two side walls of the working frame 8 are symmetrically provided with common fixing through holes, the first fixing cylinders 302 are fixedly disposed in the fixing through holes, and one end of a piston rod of the first fixing cylinders 302 is fixedly provided with a first fixing clamp 303.

As shown in fig. 5, 6 and 7, the special fixing member 304 includes a second fixing cylinder 305, a special fixing through hole is formed on a side of the working frame 8 away from the polishing member 5, the second fixing cylinder 305 is fixedly disposed in the special fixing through hole, a fixing driving box 307 is fixedly disposed at one end of a piston rod of the second fixing cylinder 305, the fixing driving box 307 is slidably disposed in the special fixing through hole, a fixing driving opening 308 is formed on one side of the fixing driving box 307, a fixing driving cavity is formed in the fixing driving box 307, a first driving motor 309 and a second driving motor 310 are fixedly disposed on an inner wall of the fixing driving cavity, a third driving connecting block 324 is disposed on a side of the first driving motor 309 close to the fixing driving opening 308, the third driving connecting block 324 is fixedly disposed on an inner wall of the fixing driving cavity, one end of an output shaft of the first driving motor 309 penetrates and is rotatably engaged with the third driving connecting block 324, one end of an output shaft of the first driving motor 309 is fixedly provided with a first driving bevel gear 311, one side of the first driving bevel gear 311, which is close to the second driving motor 310, is provided with a third driving bevel gear 313, the third driving bevel gear 313 is meshed with the first driving bevel gear 311, the center of the third driving bevel gear 313 is fixedly provided with a first driving connecting shaft 317, one end of the first driving connecting shaft 317, which is far away from the third driving bevel gear 313, is fixedly provided with a fourth driving bevel gear 314, one side of the second driving motor 310, which is close to the fixed driving opening 308, is provided with a fourth driving connecting block 325, the fourth driving connecting block 325 is fixedly arranged on the inner wall of the fixed driving cavity, one end of the output shaft of the second driving motor 310 penetrates through and is in rotating fit with the fourth driving connecting block 325, one end of the output shaft of the second driving motor 310 is fixedly provided with a second driving bevel gear 312, one side of the second driving bevel gear 312, which is close to the first driving motor 309, is provided with a fifth driving bevel gear 315, a fifth driving bevel gear 315 is engaged with the second driving bevel gear 312, a second driving connecting shaft 318 is fixedly arranged at the center of the fifth driving bevel gear 315, a sixth driving bevel gear 316 is arranged at one end of the second driving connecting shaft 318, which is far away from the fifth driving bevel gear 315, a seventh driving bevel gear 319 is arranged between the fourth driving bevel gear 314 and the sixth driving bevel gear 316, the seventh driving bevel gear 319 is engaged with the fourth driving bevel gear 314 and the sixth driving bevel gear 316 respectively, a fifth driving connecting shaft 323 is fixedly arranged at the center of the seventh driving bevel gear 319, one end of the fifth driving connecting shaft 323, which is far away from the seventh driving bevel gear 319, is fixedly provided with a second fixing clamp 306, a second driving connecting block 322 is arranged between the second fixing clamp 306 and the seventh driving bevel gear 319, the second driving connecting block 322 is in rotating fit with the seventh driving bevel gear 319, the fifth driving connecting shaft 323 is penetrated through and in rotating fit with the second driving connecting block 322, the third driving connecting block 324 and the fourth driving connecting block 325 are fixedly connected through connecting blocks, a first driving bevel gear 321 is arranged between the fourth driving bevel gear 314 and the sixth driving bevel gear 316, one end of the first driving bevel gear 321 is far away from the sixth driving bevel gear 315, and the driving bevel gear 320, and one end of the fifth driving bevel gear 320 is connected with the fifth driving bevel gear 320, and the driving bevel gear 320.

As shown in fig. 1, a first material taking part 4 is arranged below the welding part 2, and the first material taking part 4 is used for taking down a placing plate on which a stainless steel square pipe to be processed is placed from a material conveying buckle 103, so that the welding part 2 can process the stainless steel square pipe to be processed conveniently.

As shown in fig. 1, the first material taking part 4 comprises a first material taking cylinder, a base of the first material taking cylinder is fixedly arranged on the inner wall of the bottom of the working frame 8, and a first material taking clamping jaw is fixedly arranged at one end of a piston rod of the first material taking cylinder.

As shown in figure 1, a polishing part 5 is arranged on one side of a welding part 2, the polishing part 5 is used for polishing the welding line of the stainless steel square tube, and meanwhile, dust generated in the polishing process can be sucked away, so that the dust is prevented from influencing workers and machines in a workshop.

As shown in fig. 1, the polishing part 5 comprises a polishing lead screw 501, the polishing lead screw 501 is rotatably arranged on two side walls of a working frame 8, a polishing limit shaft 502 is arranged above the polishing lead screw 501, the polishing limit shaft 502 is fixedly connected with two side walls of the working frame 8, a polishing slider 503 is sleeved outside the polishing lead screw 501, the polishing slider 503 is in threaded fit with the polishing lead screw 501, the polishing limit shaft 502 penetrates through and is in sliding fit with the polishing slider 503, a polishing conversion box 504 is fixedly arranged on the bottom surface of the polishing slider 503, a polishing motor is fixedly arranged on the outer wall of one side of the working frame 8, and an output shaft of the polishing motor penetrates through one side wall of the working frame 8 and is fixedly connected with the polishing lead screw 501.

As shown in fig. 11, polishing cavity 505 has been seted up in the conversion case 504 of polishing, the fixed conversion motor 509 that is equipped with of cavity 505 inner wall of polishing, conversion motor 509's output shaft runs through and rotates and is equipped with the dust box 508 of polishing, the dust box 508 of polishing is down short trapezoidal of going up long, and the surface of dust box 508 of polishing is the inclined plane, avoids other parts to bump with dust box 508 of polishing in the removal process, and also is convenient for other parts to be connected to in the dust box 508 of polishing.

As shown in fig. 11, a grinding conversion member 507 is arranged on one side of the grinding dust box 508 far away from the conversion motor 509, the grinding conversion member 507 comprises a first conversion disc 510, an output shaft of the conversion motor 509 is fixedly connected with the surface of the first conversion disc 510, a second conversion disc 511 is arranged obliquely below the first conversion disc 510, the first conversion disc 510 and the second conversion disc 511 are identical in shape and are even-numbered with sides larger than four, and a connecting member for connecting a grinding machine and a dust suction pipe 512 is conveniently arranged in bilateral symmetry.

As shown in fig. 11, a conversion connecting shaft is rotatably disposed at the center of the second conversion disc 511, one end of the conversion connecting shaft, which is far away from the second conversion disc 511, is fixedly connected with the inner wall of the polishing cavity 505, a plurality of connecting through holes are disposed on the surfaces of the first conversion disc 510 and the second conversion disc 511, L-shaped connecting columns 514 are slidably disposed in the connecting through holes, a polishing machine is fixedly disposed at the bottom end of each L-shaped connecting column 514, and the adjacent L-shaped connecting column 514 on one side is a powder suction pipe 512.

As shown in fig. 1 and 11, a grinding opening 506 is opened in a side of the grinding switch box 504 remote from the grinding slider 503, and a grinder and powder suction pipe 512 is protruded from the grinding opening 506.

As shown in fig. 3, a second material taking part 9 is arranged on one side of the polishing part 5, and the second material taking part 9 is used for placing the welded and polished stainless steel square pipe on the discharging part 6 to realize automatic discharging.

As shown in fig. 12 and 13, the second material taking part 9 includes a second material taking cylinder 901, a base of the second material taking cylinder 901 is fixedly disposed on an inner wall of a bottom of the working frame 8, one end of a piston rod of the second material taking cylinder 901 is provided with a dumping part 902, the dumping part 902 includes a dumping fixing frame 903, the dumping fixing frame 903 is fixedly disposed at one end of the piston rod of the second material taking cylinder 901, a dumping moving frame 904 is disposed at a center of the dumping fixing frame 903, dumping driving parts 905 are disposed on two sides of the dumping moving frame 904, the dumping driving part 905 includes a driving cylinder 906, the base of the driving cylinder 906 is hinged on a bottom wall of the dumping fixing frame 903, one end of the piston rod of the driving cylinder 906 is hinged to a second driving connecting rod 908, one end of the second driving connecting rod 908 is hinged on a side wall of the dumping fixing frame 903, and the other end of the second driving connecting rod 908 is hinged on a side wall of the dumping moving frame 904, a first driving connecting rod 907 is disposed above the second driving connecting rod 908, one end of the first driving rod 907 is hinged on a side wall of the dumping fixing frame 903, and the other end of the first driving rod 907 is hinged on a side wall of the dumping fixing frame 904.

As shown in fig. 3, a blanking member 6 is arranged on one side of the working frame 8 close to the second material taking member 9, and the blanking member 6 is used for conveying the welded and ground stainless steel square pipe into a finished product box 7 for placing.

As shown in fig. 1, the blanking member 6 includes a plurality of first blanking support frames 601 and a plurality of second blanking support frames 605, and the height of the plurality of first blanking support frames 601 is greater than the height of the plurality of second blanking support frames 605, so that a height difference is present, which is convenient for conveying the welded and polished stainless steel square pipe.

As shown in fig. 1, a plurality of first blanking support frames 601 are fixedly arranged on the side wall of the working frame 8, a first blanking rotating shaft 602 is rotatably arranged between the first blanking support frames 601 at two ends, a blanking motor is arranged at one end of the first blanking rotating shaft 602, the blanking motor is fixedly arranged on the outer wall of the first blanking support frame 601 at one side, a second blanking rotating shaft 603 is rotatably arranged between the second blanking support frames 605 at two ends, and a blanking conveying belt 604 is arranged between the first blanking rotating shaft 602 and the second blanking rotating shaft 603.

As shown in figure 1, a finished product box 7 is arranged on one side of the blanking part 6, and the finished product box 7 is used for placing welded and polished stainless steel square pipes to avoid subsequent operation.

During operation, the staff inserts the defeated material draw-in groove on the defeated material buckle 103 with placing the dish both ends of placing the stainless steel square pipe that needs the welding to polish at first, place the board and realize the simultaneous movement with defeated material hold-in range 102, when defeated material motor 104 begins to work, drive first defeated material pivot 105 and rotate, first defeated material pivot 105 drives the defeated material synchronizing wheel 101 rotation of both ends, through defeated material hold-in range 102, the defeated material synchronizing wheel 101 at the defeated material pivot 106 both ends of second also begins to rotate, defeated material hold-in range 102 realizes continuous drive, place the board of placing that remains to process the stainless steel square pipe and move along with defeated material hold-in range 102 forward.

When the placing plate moves to the position below a welding part 2, the material conveying motor 104 stops working, the first material taking part 4 works, the first material taking cylinder 401 drives the first material taking clamp 402 to move upwards to contact with the placing plate, the first material taking clamp 402 clamps the placing plate, the first fixing cylinder 302 continues to drive upwards until the placing plate is separated from the material conveying buckle 103, the first material taking cylinder 401 drives the placing plate to move downwards, after the placing plate moves to a certain position, the common fixing parts 3013 on two sides work, the first fixing cylinder 302 drives the first fixing clamp 303 to move towards the direction of the placing plate, when the first fixing clamp 303 contacts with a to-be-machined stainless steel square pipe on the placing plate, the to-be-machined stainless steel square pipe is fixed, the special fixing part 3043 works, the second fixing cylinder 305 drives the second fixing clamp 306 to move forwards, and when the second fixing clamp 306 contacts with the to-be-machined stainless steel square pipe, the second fixing clamp 306 fixes the to-machined stainless steel square pipe.

When the welding part 2 starts to work, the welding motor 214 drives the welding lead screw 201 to rotate, the welding slider 203 moves left and right, the position of the welding gun 204 is continuously adjusted, welding on the surface of stainless steel to be processed is achieved, meanwhile, the welding motor 214 also drives the first welding synchronizing wheel 215 to rotate, the second welding synchronizing wheel 216 and the first welding synchronizing wheel 215 rotate through the welding synchronous belt 218, the second welding synchronizing wheel 216 drives the second welding bevel gear 220 to rotate, the second welding bevel gear 220 drives the first welding bevel gear 219 to move, the first welding bevel gear 219 drives the first welding conveying gear 208 to rotate, the second welding conveying gear 209 meshed with the first welding conveying gear rotates, the first welding conveying gear 208 drives the first welding conveying shaft 210 and the first welding conveying disc 212 to rotate, the second welding conveying gear 209 drives the second welding conveying shaft 211 and the second welding conveying disc 213 to rotate, welding aids on the welding aid placing frame 206 pass through a gap between the first welding conveying shaft 210 and the second welding conveying shaft 211, the welding aids 205 are positioned near the welding gun 204, and welding aids on the welding gun are automatically welded.

After one side of the stainless steel square pipe to be processed is welded, the special fixing member 3043 drives the second fixing clamp 306 to turn, the first driving motor 309 and the second driving motor 310 work to drive the first driving bevel gear 311 and the second driving bevel gear 312 to move, when the rotation directions of the first driving bevel gear 311 and the second driving bevel gear 312 are consistent, the first driving bevel gear 311 drives the third driving bevel gear 313 to rotate, the second driving bevel gear 312 drives the fifth driving bevel gear 315 to rotate, the third driving bevel gear 313 drives the fourth driving bevel gear to rotate, the fifth driving bevel gear 315 drives the sixth driving bevel gear 316 to rotate, the rotation directions of the fifth driving bevel gear 315 and the sixth driving bevel gear 316 are consistent, the seventh driving bevel gear 319 is driven to rotate, the seventh driving bevel gear 319 drives the fifth driving connecting shaft 323 to rotate, and the fifth driving connecting shaft 323 drives the second fixing clamp 306 to rotate, so as to turn the stainless steel square pipe to be processed.

When the rotation directions of the first drive bevel gear 311 and the second drive bevel gear 312 are opposite, the third drive bevel gear 313 and the fifth drive bevel gear 315 respectively rotate along the first drive bevel gear 311 and the second drive bevel gear 312, the third drive bevel gear 313 drives the fourth drive bevel gear 314 to rotate through the first drive connecting shaft 317, the fifth drive bevel gear 315 drives the sixth drive bevel gear 316 to rotate through the second drive connecting shaft 318, and the curved connector 320 connected to the fifth drive bevel gear 315 drives the seventh drive bevel gear 319 to move downwards, so that the second fixing clamp 306 drives the stainless steel square tube to be processed to make an upward or downward arc motion, and the welding gun 204 can weld certain corners of the stainless steel square tube to be processed conveniently.

After the welding is finished, the first fixing clamp 303 loosens the welded stainless steel square pipe, the first fixing cylinder 302 drives the first fixing clamp 303 to move backwards, the second fixing cylinder 305 drives the stainless steel square pipe on the second fixing clamp 306 to move forwards, and when the stainless steel square pipe reaches the lower part of the polishing part 5, the polishing part 5 starts to work.

The grinding motor drives the grinding lead screw 501 to rotate, drives the grinding slide block 503 to move left and right, and continuously adjusts the position of the grinding conversion box 504, so that the grinding machine in the grinding conversion box 504 can grind the welding seam of the stainless steel square pipe.

The conversion motor 509 works to drive the second conversion disc 511 to rotate, the second conversion disc 511 drives the plurality of L-shaped connecting columns 514 to change positions along with the rotation of the second conversion disc 511, the L-shaped connecting columns 514 positioned below the second conversion disc 511 extend out of the grinding openings 506 at two sides of one end, close to the second conversion disc 511, of the first conversion disc 510, the grinding machine at the bottom of the L-shaped connecting column 514 at one side grinds the welding seam in front of the stainless steel square tube, and the powder suction pipe 512 at the bottom of the L-shaped connecting column 514 at the other side absorbs ground dust and conveys the dust into the dust box.

When the previous welding line is polished, the special fixing piece 3043 drives the stainless steel square tube to rotate, so that other surfaces are polished.

After polishing, the second fixing cylinder 305 drives the second fixing clamp 306 to move towards the direction of the welding part 2, when the stainless steel square pipe is positioned above the placing plate again, the second fixing clamp 306 is loosened, the first material taking cylinder 401 drives upwards, the placing plate is connected with the material conveying buckle 103 again, the material conveying motor 104 works to drive the material conveying synchronous belt 102 to move forwards continuously, when the placing plate moves to the position above the second material taking part 9, the second material taking cylinder 901 drives upwards to tilt the fixing frame 903, when the placing frame is clamped into the tilting moving frame 904, the second material taking cylinder 901 continues to move upwards until the placing plate is separated from the material conveying buckle 103.

Drive actuating cylinder 906 work, drive second drive connecting rod 908 and its articulated one end and take place the displacement, it changes to drive the motion frame 904 that inclines, meanwhile, first drive connecting rod 907 also changes the angle, it takes place to incline the motion frame 904 and incline, stainless steel side's pipe in the rack is poured on unloading conveyer belt 604, unloading motor work drives first unloading pivot 602 and rotates, first unloading pivot 602 drives second unloading pivot 603 through unloading conveyer belt 604 and rotates, stainless steel side's pipe transports downwards, fall into finished product case 7.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to substantially achieve the technical effect.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrases "comprising one of \8230;" does not exclude the presence of additional like elements in an article or system comprising the element.

The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the application as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (8)

1. The polishing device for stainless steel equipment production is characterized by comprising a working frame (8), wherein two side walls of the working frame (8) are provided with a material conveying part (1), one side of the material conveying part (1) is provided with a material welding part (2), a fixing part (3) is arranged around the material welding part (2), a first material taking part (4) is arranged below the material welding part (2), one side of the material welding part (2) is provided with a polishing part (5), one side of the polishing part (5) is provided with a second material taking part (9), one side of the working frame (8) close to the second material taking part (9) is provided with a blanking part (6), one side of the blanking part (6) is provided with a finished product box (7), the polishing part (5) comprises a polishing lead screw (501), the polishing lead screw (501) is rotatably arranged on two side walls of the working frame (8), a polishing shaft (502) is arranged above the polishing lead screw (501), the limiting polishing shaft (502) is fixedly connected with two side walls of the working frame (8), the polishing lead screw (501) is sleeved with a polishing slider (503), the polishing slider (503) and is matched with the polishing shaft (502) in a sliding way, and the polishing slider (503) and is arranged on the polishing bottom surface of the polishing shaft (502), a grinding motor is fixedly arranged on the outer wall of one side of the working frame (8), and an output shaft of the grinding motor penetrates through one side wall of the working frame (8) and is fixedly connected with a grinding lead screw (501).

2. A grinding device for stainless steel equipment production according to claim 1, wherein a grinding cavity (505) is formed in the grinding conversion box (504), a conversion motor (509) is fixedly arranged on the inner wall of the grinding cavity (505), an output shaft of the conversion motor (509) penetrates through and rotates to be provided with a grinding dust box (508), one side of the grinding dust box (508) far away from the conversion motor (509) is provided with a grinding conversion piece (507), the grinding conversion piece (507) comprises a first conversion disc (510), the output shaft of the conversion motor (509) is fixedly connected with the surface of the first conversion disc (510), a second conversion disc (511) is arranged on the oblique lower side of the first conversion disc (510), a conversion connecting shaft is arranged in the center of the second conversion disc (511) in a rotating manner, one end of the conversion connecting shaft far away from the second conversion disc (511) is fixedly connected with the inner wall of the grinding cavity (505), a plurality of connecting through holes are formed in the surfaces of the first conversion disc (510) and the second conversion disc (511), a plurality of connecting through holes are internally provided with one side of an L-shaped sliding connection hole (514), and one side of the L-shaped connecting column (514) is provided with a powder suction pipe (512) which is adjacent to be provided with a grinding column (512).

3. The grinding device for stainless steel equipment production according to claim 2, wherein a grinding opening (506) is formed in a surface of the grinding conversion box (504) away from the grinding slider (503), and one grinding machine and the powder suction pipe (512) protrude from the grinding opening (506).

4. The polishing device for stainless steel equipment production according to claim 1, wherein the welding part (2) comprises a welding lead screw (201), the welding lead screw (201) is in running fit with two side walls of the working frame (8), a welding slider (203) is sleeved outside the welding lead screw (201), the welding slider (203) is in threaded fit with the welding lead screw (201), a welding limiting shaft (202) is arranged above the welding lead screw (201), the welding limiting shaft (202) penetrates through and is in sliding fit with the welding slider (203), the welding limiting shaft (202) is fixedly connected with two side walls of the working frame (8), a welding gun (204) is fixedly arranged on the bottom surface of the welding slider (203), a welding auxiliary material through pipe (205) is fixedly arranged on one side wall of the welding slider (203), a welding shell (207) is fixedly arranged on the outer wall of the working frame (8), a welding cavity is formed in the welding shell (207), a welding motor (214) is fixedly arranged on the inner wall of the welding cavity, and one end of an output shaft of the welding motor (214) penetrates through the outer wall of the working frame (8) on one side and is fixedly connected with the welding lead screw (201).

5. The grinding device for stainless steel equipment production according to claim 4, wherein a welding auxiliary placing rack (206) is fixedly arranged at one end of the top surface of the welding shell (207), a first welding conveying gear (208) and a second welding conveying gear (209) are arranged on one side, close to a welding lead screw (201), of the welding auxiliary placing rack (206), the first welding conveying gear (208) is meshed with the second welding conveying gear (209), the first welding conveying gear (208) and the second welding conveying gear (209) are in running fit with the outer wall of the upper end of the welding shell (207), a first welding conveying shaft (210) is fixedly arranged on the surface of the first welding conveying shaft (210), a first welding conveying disc (212) is fixedly arranged on the surface of the first welding conveying shaft (210), the circumferential diameter of the first welding conveying shaft (210) is smaller than that of the first welding conveying disc (212), a second welding conveying shaft (211) is fixedly arranged on the surface of the second welding conveying gear (209), a second welding conveying shaft (211) is fixedly arranged on the surface of the second welding conveying shaft (211), a second welding conveying shaft (221) is fixedly arranged on the surface of the second welding conveying shaft (213), a second welding conveying shaft (213) is far away from the second welding conveying shaft (213), and a second welding conveying shaft (213) is arranged on the surface of the second welding conveying shaft (208), and penetrates through the second welding conveying shaft (213) The outer wall of the over-welding shell (207) is in running fit with the outer wall of the welding shell (207), one end of a second welding fixing shaft (221) is in running fit with the outer wall of the working frame (8), a first welding bevel gear (219) is arranged below the first welding conveying gear (208), the first welding bevel gear (219) is fixedly connected with the second welding fixing shaft (221), a second welding bevel gear (220) is arranged on one side of the first welding bevel gear (219), the second welding bevel gear (220) is meshed with the first welding bevel gear (219), a first welding fixing shaft (217) is fixedly arranged at the center of the second welding bevel gear (220), the first welding fixing shaft (217) is in running fit with the inner wall of a welding cavity, a second welding synchronizing wheel (216) is arranged on one side of the first welding bevel gear (219), the second welding synchronizing wheel (216) is fixedly connected with the first welding fixing shaft (217), a first welding synchronizing wheel (215) is obliquely arranged below the second welding synchronizing wheel (216), and the first welding synchronizing wheel (215) is fixedly connected with an output shaft (214) through a welding synchronizing wheel (218) and a second welding synchronizing wheel (216).

6. The polishing device for stainless steel equipment production according to claim 1, wherein the fixing member (3) comprises a common fixing member (301) and a special fixing member (304), the common fixing member (301) is symmetrically arranged on two side walls of the working frame (8), the common fixing member (301) comprises a first fixing cylinder (302), two side walls of the working frame (8) are symmetrically provided with common fixing through holes, the first fixing cylinder (302) is fixedly arranged in the fixing through holes, one end of a piston rod of the first fixing cylinder (302) is fixedly provided with a first fixing clamp (303), the special fixing member (304) comprises a second fixing cylinder (305), one side of the working frame (8) far away from the polishing member (5) is provided with a special fixing through hole, the second fixing cylinder (305) is fixedly arranged in the special fixing through hole, one end of a piston rod of the second fixing cylinder (305) is fixedly provided with a fixing driving box (307), the fixing driving box (307) is slidably arranged in the special fixing through hole, one side of the fixing driving box (307) is provided with a fixing driving opening (308), one side of the fixing cavity (307) is provided with a fixing driving motor (309), and a driving motor (309) and a driving motor (310) is arranged in the fixing cavity, and a driving motor (309), the third driving connecting block (324) is fixedly arranged on the inner wall of the fixed driving cavity, one end of an output shaft of the first driving motor (309) penetrates through and is in running fit with the third driving connecting block (324), one end of the output shaft of the first driving motor (309) is fixedly provided with a first driving bevel gear (311), one side, close to the second driving motor (310), of the first driving bevel gear (311) is provided with a third driving bevel gear (313), the third driving bevel gear (313) is meshed with the first driving bevel gear (311), the center of the third driving bevel gear (313) is fixedly provided with a first driving connecting shaft (317), one end, far away from the third driving bevel gear (313), of the first driving connecting shaft (317) is fixedly provided with a fourth driving bevel gear (314), one side, close to the fixed driving opening (308), of the second driving motor (310) is provided with a fourth driving connecting block (325), the fourth driving connecting block (325) is fixedly arranged on the inner wall of the fixed driving cavity, one end of the output shaft of the second driving motor (310) penetrates through and is in running fit with the fourth driving connecting block (325), one side, one end of the second driving bevel gear (312) is provided with a fifth driving bevel gear (312), one side, one end of the fifth driving bevel gear (312) is provided with a fifth driving bevel gear (312), one driving bevel gear (312), and one side, the fifth driving bevel gear (312) is provided with a fifth driving bevel gear (312), a second driving connecting shaft (318) is fixedly arranged at the center of the fifth driving bevel gear (315), a sixth driving bevel gear (316) is arranged at one end, far away from the fifth driving bevel gear (315), of the second driving connecting shaft (318), a seventh driving bevel gear (319) is arranged between the fourth driving bevel gear (314) and the sixth driving bevel gear (316), the seventh driving bevel gear (319) is respectively meshed with the fourth driving bevel gear (314) and the sixth driving bevel gear (316), a fifth driving connecting shaft (323) is fixedly arranged at the center of the seventh driving bevel gear (319), a second fixing clamp (306) is fixedly arranged at one end, far away from the seventh driving bevel gear (319), of the fifth driving connecting shaft (323), a second driving connecting block (322) is arranged between the second fixing clamp (306) and the seventh driving bevel gear (319), the second driving connecting block (322) is in running fit with the seventh driving bevel gear (319), the fifth driving connecting block (323) is in rotating fit with the second driving connecting block (322), the third driving connecting block (324) is connected with the fourth driving bevel gear (314) through the fourth driving connecting block (321), the sixth driving connecting block (321) is connected with the fourth driving bevel gear (314), and the first driving connecting block (321), the first driving connecting block (321) is in running fit with the fourth driving bevel gear (314) and the sixth driving bevel gear (316) respectively, one surface, far away from the second driving connecting shaft (318), of the fifth driving bevel gear (315) is provided with a bent connecting object (320) in a rotating mode, and one end, far away from the fifth driving bevel gear (315), of the bent connecting object (320) is fixedly connected with the second driving connecting block (322).

7. The grinding device for stainless steel equipment production according to claim 1, the second material taking part (9) comprises a second material taking cylinder (901), the base of the second material taking cylinder (901) is fixedly arranged on the inner wall of the bottom of the working frame (8), one end of a piston rod of the second material taking cylinder (901) is provided with a dumping piece (902), the pouring element (902) comprises a pouring fixed frame (903), the pouring fixed frame (903) is fixedly arranged at one end of a piston rod of the second material taking cylinder (901), the center of the dumping fixed frame (903) is provided with a dumping moving frame (904), two sides of the dumping motion frame (904) are provided with dumping driving parts (905), the dumping driving part (905) comprises a driving air cylinder (906), the base of the driving air cylinder (906) is hinged on the bottom wall of the dumping fixing frame (903), one end of the piston rod of the driving air cylinder (906) is hinged with a second driving connecting rod (908), one end of the second driving connecting rod (908) is hinged on the side wall of the dumping fixed frame (903) and the other end of the second driving connecting rod (908) is hinged on the side wall of the dumping moving frame (904), a first driving connecting rod (907) is arranged above the second driving connecting rod (908), one end of the first driving connecting rod (907) is hinged on the side wall of the dumping fixed frame (903) and the other end of the first driving connecting rod (907) is hinged on the side wall of the dumping moving frame (904).

8. The polishing device for stainless steel equipment production as claimed in claim 1, wherein the material conveying member (1) comprises a material conveying motor (104), the material conveying motor (104) is fixedly arranged on the outer wall of one side of the work frame (8), the output shaft of the material conveying motor (104) penetrates through the outer wall of one side of the work frame (8) and is rotatably matched with the work frame (8), a first material conveying rotating shaft (105) is fixedly arranged at one end of the output shaft of the material conveying motor (104), the first material conveying rotating shaft (105) is rotatably matched with two side walls of the work frame (8), a second material conveying rotating shaft (106) is arranged at one side of the first material conveying rotating shaft (105) close to the polishing member (5), the second material conveying rotating shaft (106) is rotatably matched with two side walls of the work frame (8), a material conveying synchronous wheel (101) is fixedly arranged at both ends of the first material conveying rotating shaft (105) and the second material conveying rotating shaft (106), the material conveying synchronous wheel (101) is connected with the material conveying synchronous wheel (102), and a fastener (103) is fixedly arranged on the material conveying synchronous wheel (102).

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