阅读说明：本技术 一种不锈钢轴承滚珠加工制造设备 (Stainless steel bearing ball processing and manufacturing equipment ) 是由 杨吴伟 吴静芳 于 2021-09-08 设计创作，主要内容包括：本发明公开的一种不锈钢轴承滚珠加工制造设备,解决抛光料和滚珠不能在料筒处进行分离的问题,电动推杆贯穿连接片开孔与另一个螺母相连接,电动推杆伸缩带动活动环上下升降,底环和连接罩之间空腔为抛光料收集腔,底环和连接罩之间的抛光料收集腔腔底连接有密封盖,连接罩侧壁下部开设方出料口；本发明的一种不锈钢轴承滚珠加工制造设备,属于不锈钢滚珠抛光技术领域,电动推杆伸缩端伸缩过程中带动连接片上下升降,连接片上下升降过程中带动底环和活动环上下升降,进而实现漏料孔的打开和关闭,漏料孔打开时,料仓内的抛光料通过漏料孔进入抛光料收集腔,漏料孔的高度小于滚珠的直径,滚珠无法通过漏料孔,进而实现抛光料和滚珠的分离。(The invention discloses stainless steel bearing ball processing and manufacturing equipment, which solves the problem that polishing materials and balls cannot be separated at a material barrel, an electric push rod penetrates through a connecting piece hole to be connected with another nut, the electric push rod stretches and retracts to drive a movable ring to lift up and down, a cavity between a bottom ring and a connecting cover is a polishing material collecting cavity, the bottom of the polishing material collecting cavity between the bottom ring and the connecting cover is connected with a sealing cover, and the lower part of the side wall of the connecting cover is provided with a square discharge hole; the invention discloses stainless steel bearing ball processing and manufacturing equipment, which belongs to the technical field of stainless steel ball polishing, wherein a connecting sheet is driven to lift up and down in the telescopic process of a telescopic end of an electric push rod, a bottom ring and a movable ring are driven to lift up and down in the lifting process of the connecting sheet, so that opening and closing of a material leakage hole are realized, when the material leakage hole is opened, polishing materials in a storage bin enter a polishing material collecting cavity through the material leakage hole, the height of the material leakage hole is smaller than the diameter of a ball, the ball cannot pass through the material leakage hole, and the separation of the polishing materials and the ball is realized.)

1. The utility model provides a stainless steel bearing ball processing manufacture equipment, includes polishing feed cylinder (1), polishing connection pad (8), driving motor (9) and support bar (10), one side lower extreme of support bar (10) is connected with driving motor (9), and the end is connected with polishing connection pad (8) under the drive shaft of driving motor (9), in polishing feed cylinder (1) section of thick bamboo is inserted into in polishing connection pad (8), its characterized in that: the polishing device is characterized in that the lower end of the polishing material cylinder (1) is connected with a bottom cover (7), a gap is formed between the polishing material cylinder (1) and the bottom cover (7), the polishing material cylinder (1) and the bottom cover (7) are connected through a strip, the lower end of the bottom cover (7) is provided with a ball cleaning structure (3), the lower end of the ball cleaning structure (3) is provided with a screening structure (4), the upper end of the polishing material cylinder (1) is provided with a material bin (5), the lower part of the side wall of the polishing material cylinder (1) is provided with a material leaking hole (6), the lower part of the side wall of the polishing material cylinder (1) is connected with a collecting structure (2), the collecting structure (2) comprises a connecting cover (201), a jack (202), a connecting pipe (203), an electric push rod (204), a bottom ring (205), a connecting sheet (206), a nut (207), a movable ring (208) and an inclined sealing cover (211), and the lower part of the side wall of the polishing material cylinder (1) is sleeved with the connecting cover (201), the end face of the connecting cover (201) is provided with a jack (202), the jack (202) is inserted and connected with a connecting pipe (203), an electric push rod (204) is connected in the connecting pipe (203), a movable ring (208) is inserted into a gap between the polishing material cylinder (1) and the bottom cover (7), the movable ring (208) rises to seal the material leakage hole (6), the lower end of the movable ring (208) is provided with a bottom ring (205), the side wall of the bottom ring (205) is provided with a connecting piece (206), the lower end of the electric push rod (204) penetrates through a nut (207) and is inserted into an end face hole of the connecting piece (206), the electric push rod (204) penetrates through the hole of the connecting piece (206) to be connected with another nut (207), the electric push rod (204) stretches to drive the movable ring (208) to rise and fall, a polishing material collecting cavity is arranged in a cavity between the bottom ring (205) and the connecting cover (201), and a sealing cover (211) is connected to the cavity bottom of the polishing material collecting cavity between the bottom ring (205) and the connecting cover (201), and a square discharge hole is formed in the lower portion of the side wall of the connecting cover (201).

2. The stainless steel bearing ball processing and manufacturing equipment according to claim 1, wherein: collect structure (2) and still include slot (209) and the sealed pad (210) of T type, and slot (209) have been seted up to the upper end of activity ring (208), the upper end of activity ring (208) is provided with the sealed pad (210) of T type, and the sealed pad (210) cross-section of T type is the setting of T type, the sealed pad (210) of T type is the ring type, and the sealed pad (210) of T type and slot (209) adaptation, the sealed pad (210) of T type and polishing feed cylinder (1) inner wall breach adaptation.

3. The apparatus for processing and manufacturing stainless steel bearing balls according to claim 1 or 2, wherein: connecting cover (201) and connecting pipe (203) fixed connection, and connecting pipe (203) and electric putter (204) threaded connection, electric putter's (204) flexible end and nut (207) threaded connection, fixed connection between connecting cover (201) and polishing feed cylinder (1), and connecting cover (201) and polishing feed cylinder (1) contact jaw seal setting.

4. The apparatus for processing and manufacturing stainless steel bearing balls according to claim 1 or 2, wherein: end ring (205) and activity ring (208) an organic whole set up, and activity ring (208) and polishing feed cylinder (1) and bottom (7) adaptation, sealed lid (211) and connecting cover (201) fixed connection, and sealed lid (211) and connecting cover (201) junction seal the setting, end ring (205) and sealed lid (211) activity set up, and end ring (205) and sealed lid (211) contact tip seal the setting.

5. The stainless steel bearing ball processing and manufacturing equipment according to claim 1, wherein: the ball cleaning structure (3) comprises an outer cylinder (301), a round pipe (302), an inner cylinder (303), round holes (304), a cleaning bin (305), a spiral pipeline (306), a truncated cone-shaped net rack (307) and meshes (308), the lower end of the bottom cover (7) is connected with an outer cylinder (301), a round pipe (302) is arranged at an opening hole at the lower part of the side wall of the outer cylinder (301), an inner cylinder (303) is connected in the outer cylinder (301), a round hole (304) is arranged at the lower part of the side wall of the inner cylinder (303), the round tube (302) is aligned with the round hole (304), the lower end of the inner cylinder (303) is provided with a cleaning bin (305), a spiral pipeline (306) is arranged in the cleaning bin (305), a round table type net rack (307) is arranged at the bottom of the cleaning bin (305), and the end surface of the round table type net rack (307) is provided with a mesh (308), and the edge of the lower end of the round table type net rack (307) is contacted with the lowest quadrant point of the round hole (304).

6. The stainless steel bearing ball processing and manufacturing equipment according to claim 5, wherein: urceolus (301) upper end trompil aligns with bottom (7) terminal surface trompil, and urceolus (301) and bottom (7) fixed connection, urceolus (301) and inner tube (303) threaded connection, and inner tube (303) and urceolus (301) contact jaw inject sealed glue, inner tube (303) and spiral pipeline (306) fixed connection, and there is the gap between spiral pipeline (306) and round platform type rack (307).

7. The stainless steel bearing ball processing and manufacturing equipment according to claim 6, wherein: the lower end of the spiral pipeline (306) is provided with a support frame, the support frame is fixedly connected with the spiral pipeline (306) and the inner cylinder (303), a gap is formed between the upper end of the spiral pipeline (306) and the inner top of the outer cylinder (301), and the height of the inner pipeline of the spiral pipeline (306) is twice of the diameter of the ball.

8. The stainless steel bearing ball processing and manufacturing equipment according to claim 5, wherein: the screening structure (4) is arranged at the bottom of the clean bin (305) and comprises a screening net rack (401), a convex block (402), an ultrasonic transducer (403), a mounting hole (404), a first screening net (405), a second screening net (406), a resonance ring (407), a circular truncated cone-shaped pipeline (408), a discharge pipe (409), a resonance connecting strip (410) and a spiral resonance strip (411), the screening net rack (401) is connected to the bottom of the clean bin (305), the convex block (402) is arranged at the lower end of the side wall of the screening net rack (401), the ultrasonic transducer (403) is connected to the end face of the convex block (402), the mounting hole (404) is formed in the middle of the end face of the screening net rack (401), the first screening net (405) is connected to the mounting hole (404) in the middle of the screening net rack (401), the second screening net (406) is connected to the mounting hole (404) formed in the end face edge of the screening net rack (401), and the upper and lower end of screening rack (401) is provided with resonance ring (407), screening rack (401) lower extreme resonance ring (407) is connected with ultrasonic transducer (403), and screening rack (401) upper end resonance ring (407) is connected with resonance connecting strip (410), the upper end of resonance connecting strip (410) is connected with spiral resonance strip (411), screening rack (401) lower extreme is connected with round platform type pipeline (408), and round platform type pipeline (408) lower extreme is connected with discharging pipe (409).

9. The apparatus for manufacturing and processing stainless steel bearing balls according to claim 8, wherein: the spiral resonance strip (411) is arranged on the outer edge of the spiral pipeline (306), and the spiral resonance strip (411) is matched with the spiral pipeline (306).

Technical Field

The invention relates to the technical field of stainless steel ball polishing, in particular to a stainless steel bearing ball processing and manufacturing device.

Background

The stainless steel bearing ball is widely applied to the bearing, and the polishing is needed in the general bearing ball processing;

the invention has the Chinese patent application number of CN201811095544.5, and the patent name is a bearing ball polishing device, which comprises a rotary auxiliary motor, a magnetic pole disc, a processing barrel, an ultrasonic generator, a main motor, an amplitude rod, an upright post and a cross beam; the beam is horizontally fixed on the vertical upright post, the main motor is fixed on the beam, a power output shaft of the main motor drives an amplitude rod vertically arranged at the bottom of the main motor, the ultrasonic generator is connected to the amplitude rod, a permanent magnetic pole is fixed at the bottom end of the amplitude rod, the processing barrel is fixed below the permanent magnetic pole and extends into the processing barrel, the bearing ball is arranged in the processing barrel and is positioned below the permanent magnetic pole for grinding, and the processing barrel is filled with magnetic grinding materials which sink over the bearing ball;

polishing bearing ball in-process because polishing material and ball are in the same place, need empty and adopt screening plant to sieve after the mixture, both separation processes are comparatively loaded down with trivial details, need clean after the ball screening, avoid the too much impurity of ball surface adhesion.

Disclosure of Invention

Technical problem to be solved

The invention mainly aims to provide a stainless steel bearing ball processing and manufacturing device which effectively solves the problem that polishing materials and balls cannot be separated at a material barrel.

(II) technical scheme

In order to solve the technical problem, the invention provides stainless steel bearing ball processing and manufacturing equipment which comprises a polishing material cylinder, a polishing connecting disc, a driving motor and a supporting bar, wherein the lower end of one side of the supporting bar is connected with the driving motor, the lower end head of a driving shaft of the driving motor is connected with the polishing connecting disc, the polishing connecting disc is inserted into the polishing material cylinder, the lower end of the polishing material cylinder is connected with a bottom cover, a gap is formed between the polishing material cylinder and the bottom cover, the polishing material cylinder and the bottom cover are connected through a long strip, the lower end of the bottom cover is provided with a ball cleaning structure, the lower end of the ball cleaning structure is provided with a screening structure, the upper end of the polishing material cylinder is provided with a material bin, the lower part of the side wall of the polishing material cylinder is provided with a material leaking hole, the lower part of the side wall of the polishing material cylinder is connected with a collecting structure, the collecting structure comprises a connecting cover, a jack, a connecting pipe, a sealing ring and a sealing ring, The polishing device comprises an electric push rod, a bottom ring, a connecting sheet, a nut, a movable ring and an inclined sealing cover, wherein the lower part of the side wall of the polishing material cylinder is sleeved with a connecting cover, the end surface of the connecting cover is provided with a jack, the jack is inserted and connected with a connecting pipe, the connecting pipe is internally connected with an electric push rod, a movable ring is inserted in the gap between the polishing charging barrel and the bottom cover, the movable ring rises to seal the material leakage hole, the lower end of the movable ring is provided with a bottom ring, the side wall of the bottom ring is provided with a connecting sheet, the lower end of the electric push rod penetrates through the nut and is inserted into an opening on the end face of the connecting sheet, and the electric push rod penetrates through the connecting sheet hole to be connected with the other nut, the electric push rod stretches and retracts to drive the movable ring to lift up and down, a polishing material collecting cavity is arranged in a cavity between the bottom ring and the connecting cover, and the polishing material collecting cavity bottom between the bottom ring and the connecting cover is connected with a sealing cover, and the lower part of the side wall of the connecting cover is provided with a square discharge hole.

Preferably, the collecting structure further comprises a slot and a T-shaped sealing gasket, the slot is formed in the upper end of the movable ring, the T-shaped sealing gasket is arranged at the upper end of the movable ring, the section of the T-shaped sealing gasket is in T-shaped arrangement, the T-shaped sealing gasket is in a circular ring shape and is matched with the slot, and the T-shaped sealing gasket is matched with a notch in the inner wall of the polishing material barrel;

preferably, the connecting cover is fixedly connected with the connecting pipe, the connecting pipe is in threaded connection with the electric push rod, the telescopic end of the electric push rod is in threaded connection with the nut, the connecting cover is fixedly connected with the polishing material barrel, the connecting cover is in sealed arrangement with the contact end of the polishing material barrel, the bottom ring and the movable ring are integrally arranged, the movable ring is matched with the polishing material barrel and the bottom cover, the sealing cover is fixedly connected with the connecting cover, the joint of the sealing cover and the connecting cover is in sealed arrangement, the bottom ring and the sealing cover are movably arranged, and the contact end of the bottom ring and the sealing cover is in sealed arrangement;

preferably, the ball cleaning structure comprises an outer barrel, a round pipe, an inner barrel, a round hole, a cleaning bin, a spiral pipeline, a circular table type net rack and a mesh, the lower end of the bottom cover is connected with the outer barrel, the round pipe is arranged at the opening part at the lower part of the side wall of the outer barrel, the inner barrel is connected with the inner barrel in the outer barrel, the round hole is arranged at the lower part of the side wall of the inner barrel, the round pipe is aligned with the round hole, the cleaning bin is arranged at the lower end of the inner barrel, the spiral pipeline is arranged in the cleaning bin, the circular table type net rack is arranged at the bottom of the cleaning bin, the mesh is arranged on the end face of the circular table type net rack, the bottom end edge of the circular table type net rack contacts the bottom end face, the opening at the upper end of the outer barrel is aligned with the opening hole of the end face of the bottom cover, the outer barrel is fixedly connected with the inner barrel, the contact end of the inner barrel is connected with the outer barrel through a thread, and the inner barrel contact end is injected with the seal glue, the inner barrel is fixedly connected with the spiral pipeline, a gap is formed between the spiral pipeline and the circular truncated cone-shaped net rack, a support frame is arranged at the lower end of the spiral pipeline and is fixedly connected with the spiral pipeline and the inner cylinder, a gap is formed between the upper end of the spiral pipeline and the inner top of the outer cylinder, and the height of the inner pipeline of the spiral pipeline is twice of the diameter of the ball;

preferably, the bottom of the clean bin is provided with a screening structure which comprises a screening net rack, a lug, an ultrasonic transducer, a mounting hole, a first screening net, a second screening net, a resonance ring, a circular table pipeline, a discharging pipe, a resonance connecting strip and a spiral resonance strip, the bottom of the clean bin is connected with the screening net rack, the lower end of the side wall of the screening net rack is provided with the lug, the end face of the lug is connected with the ultrasonic transducer, the mounting hole is formed in the middle of the end face of the screening net rack, the first screening net is connected to the mounting hole in the middle of the screening net rack, the second screening net is connected to the mounting hole in the end face edge of the screening net rack, the resonance ring is arranged at the upper end and the lower end of the screening net rack, the resonance ring at the lower end of the screening net rack is connected with the ultrasonic transducer, the resonance ring at the upper end of the screening net rack is connected with the resonance connecting strip, and the spiral resonance strip is connected to the upper end of the resonance connecting strip, screening rack lower extreme is connected with round platform type pipeline, and round platform type pipeline lower extreme is connected with the discharging pipe, spiral pipeline outward flange is arranged in to spiral resonance strip, and spiral resonance strip and spiral pipeline adaptation.

(III) advantageous effects

The technical scheme of the invention has the following advantages:

the invention provides a stainless steel bearing ball processing and manufacturing device, a movable ring is inserted into a notch of a material leaking hole of a polishing material cylinder, the movable ring shields the material leaking hole to prevent material leakage, a bottom ring is connected with a connecting sheet, the connecting sheet is driven to lift up and down in the expansion process of an electric push rod, the bottom ring and the movable ring are driven to lift up and down in the lifting process of the connecting sheet, so that the material leaking hole is opened and closed, when the material leaking hole is opened, polishing materials in a material bin enter a polishing material collecting cavity through the material leaking hole, rapid discharging of the polishing materials can be realized due to the inclined arrangement of the end surface of a sealing cover, the height of the material leaking hole is smaller than the diameter of a ball, the ball cannot pass through the material leaking hole, and further separation and collection between the polishing materials and the ball are realized, a T-shaped sealing gasket is connected with the movable ring by an adhesive, and the T-shaped sealing gasket is tightly contacted with the notch of the inner wall of the polishing material cylinder in the lifting process of the movable ring, improve the sealing performance of polishing feed cylinder to a certain extent, the spiral pipeline can increase ball whereabouts time, and then the volume increases clean water and carries out clean time to the ball, the quick ejection of compact of ball can be realized to round platform type rack, accelerate discharging efficiency, separation between piece and the ball can also be realized to round platform type rack, the screening rack, ultrasonic transducer and resonance ring can realize the screening of screening net material, ultrasonic transducer, resonance ring and resonance connecting strip can realize the vibration of spiral resonance strip, because spiral resonance strip arranges spiral pipeline outward flange ball whereabouts in-process in and contacts with spiral resonance strip in, vibrate the ball, spiral resonance strip can also vibrate clean the interior clean water in storehouse, strengthen the clean efficiency of ball gliding in-process.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is an exploded view of the polishing cartridge and collection structure of the present invention;

FIG. 4 is an exploded view of the collection structure of the present invention;

FIG. 5 is an exploded schematic view of the ball cleaning and screening arrangements of the present invention;

FIG. 6 is an exploded view of the inner barrel of the present invention;

FIG. 7 is an exploded view of the screen structure of the present invention;

figure 8 is an exploded view of the screening grid of the present invention.

In the figure: 1. polishing the charging barrel; 2. a collection structure; 201. a connecting cover; 202. a jack; 203. a connecting pipe; 204. an electric push rod; 205. a bottom ring; 206. connecting sheets; 207. a nut; 208. a movable ring; 209. a slot; 210. a T-shaped gasket; 211. a sealing cover; 3. a ball cleaning structure; 301. an outer cylinder; 302. a circular tube; 303. an inner barrel; 304. a circular hole; 305. cleaning the bin; 306. a helical conduit; 307. a circular truncated cone-shaped net frame; 308. mesh openings; 4. screening the structure; 401. screening the net rack; 402. a bump; 403. an ultrasonic transducer; 404. mounting holes; 405. a first screening net; 406. a second screening mesh; 407. a resonant ring; 408. a pipe of a circular truncated cone shape; 409. a discharge pipe; 410. a resonant connecting strip; 411. a helical resonant strip; 5. a storage bin; 6. a material leaking hole; 7. a bottom cover; 8. polishing the connecting disc; 9. a drive motor; 10. a support strip.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

as shown in figures 1, 2, 3 and 4, the stainless steel bearing ball processing and manufacturing equipment comprises a polishing material cylinder 1, a polishing connecting disc 8, a driving motor 9 and a supporting strip 10, wherein the lower end of one side of the supporting strip 10 is connected with the driving motor 9, the lower end head of a driving shaft of the driving motor 9 is connected with the polishing connecting disc 8, the polishing connecting disc 8 is inserted into the polishing material cylinder 1, the lower end of the polishing material cylinder 1 is connected with a bottom cover 7, a gap is formed between the polishing material cylinder 1 and the bottom cover 7, the polishing material cylinder 1 is connected with the bottom cover 7 through a long strip, the lower end of the bottom cover 7 is provided with a ball cleaning structure 3, the lower end of the ball cleaning structure 3 is provided with a screening structure 4, the upper end of the polishing material cylinder 1 is provided with a material bin 5, the lower part of the side wall of the polishing material cylinder 1 is provided with a material leakage hole 6, the lower part of the side wall of the polishing material cylinder 1 is connected with a collecting structure 2, the driving shaft of the driving motor 9 drives the polishing connecting disc 8 to rotate in the polishing material cylinder 1, the polishing operation of the balls in the polishing material barrel 1 is realized;

the collecting structure 2 comprises a connecting cover 201, a jack 202, a connecting pipe 203, an electric push rod 204, a bottom ring 205, a connecting piece 206, a nut 207, a movable ring 208 and an inclined sealing cover 211, the connecting cover 201 is sleeved on the lower portion of the side wall of the polishing material barrel 1, the jack 202 is arranged on the end face of the connecting cover 201, the connecting pipe 203 is inserted and connected with the jack 202, the electric push rod 204 is connected in the connecting pipe 203, the movable ring 208 is inserted in the gap between the polishing material barrel 1 and the bottom cover 7, the movable ring 208 rises to seal the material leakage hole 6, the bottom ring 205 is arranged at the lower end of the movable ring 208, the connecting piece 206 is arranged on the side wall of the bottom ring 205, the lower end of the electric push rod 204 penetrates through the nut 207 and is inserted into the end face of the connecting piece 206 to be perforated, the electric push rod 204 penetrates through the connecting piece 206 to be connected with the other nut 207, the electric push rod 204 stretches to drive the movable ring 208 to rise and fall, a polishing material collecting cavity between the bottom ring 205 and the connecting cover 201, the bottom of a polishing material collecting cavity between a bottom ring 205 and a connecting cover 201 is connected with a sealing cover 211, the lower part of the side wall of the connecting cover 201 is provided with a square discharge hole, the connecting cover 201 is fixedly connected with a connecting pipe 203, the connecting pipe 203 is in threaded connection with an electric push rod 204, the telescopic end of the electric push rod 204 is in threaded connection with a nut 207, the connecting cover 201 is fixedly connected with a polishing material barrel 1, the connecting cover 201 is in sealing arrangement with the contact end of the polishing material barrel 1, the bottom ring 205 is integrally arranged with a movable ring 208, the movable ring 208 is matched with the polishing material barrel 1 and a bottom cover 7, the sealing cover 211 is fixedly connected with the connecting cover 201, the connecting part of the sealing cover 211 and the connecting cover 201 is in sealing arrangement, the bottom ring 205 is movably arranged with the sealing cover 211, the contact end of the bottom ring 205 and the sealing cover 211 is in sealing arrangement, the connecting cover 201 is fixed at the lower part of the outer wall of the polishing material barrel 1, the connecting cover 201 covers a material leakage hole 6, the connecting pipe 203 is inserted from the lower end of the connecting cover 201 provided with a jack 202, after the polishing barrel and the polishing barrel are fixedly connected, an electric push rod 204 is inserted into a pipe of a connecting pipe 203, the lower end of a telescopic end of the electric push rod 204 is sleeved with a nut 207, the telescopic end of the electric push rod 204 penetrates through the connecting pipe 203 and is inserted into an opening of a connecting sheet 206, the electric push rod 204 is connected with another nut 207, so that the connection between the electric push rod 204 and the connecting sheet 206 is realized, a gap at the upper end of a movable ring 208 is matched with a gap between the polishing barrel 1 and a bottom cover 7, the movable ring 208 is inserted into a gap at a material leakage hole 6 of the polishing barrel 1, the movable ring 208 shields the material leakage hole 6 to prevent material leakage, the bottom ring 205 is connected with the connecting sheet 206, the connecting sheet 206 is driven to lift up and down in the telescopic process of the telescopic end of the electric push rod 204, the bottom ring 205 and the movable ring 208 are driven to lift up and down in the process of lifting up and down of the connecting sheet 206, so as to realize the opening and closing of the material leakage hole 6, when the material hole 6 is opened, the polishing material in a bin 5 enters a polishing material leakage collecting cavity through the material hole 6, because sealed lid 211 terminal surface slope sets up, can realize the quick ejection of compact of polishing material, the highly diameter that is less than the ball of hourglass material hole 6, and the ball can't pass through hourglass material hole 6, and then realizes the separation between polishing material and the ball and collect.

Example two:

as shown in fig. 3, another collection structure of stainless steel bearing ball processing manufacturing equipment, collection structure 2 still includes slot 209 and the sealed pad 210 of T type, slot 209 has been seted up to the upper end of activity ring 208, the upper end of activity ring 208 is provided with the sealed pad 210 of T type, the sealed pad 210 cross-section of T type is the T type setting, the sealed pad 210 of T type is the ring type, the sealed pad 210 of T type and slot 209 adaptation, the sealed pad 210 of T type and the adaptation of polishing feed cylinder 1 inner wall breach, the sealed pad 210 terminal surface breach of T type and the adaptation of activity ring 208 upper end breach, the sealed pad 210 of T type and activity ring 208 adopt the adhesive to be connected, the sealed pad 210 of T type is at the ascending in-process internal wall breach of polishing feed cylinder of intimate contact of activity ring 208, improve the sealing performance of polishing feed cylinder 1 to a certain extent.

Example three:

as shown in fig. 5 and 6, a ball cleaning structure of a stainless steel bearing ball processing and manufacturing device, the ball cleaning structure 3 comprises an outer cylinder 301, a circular tube 302, an inner cylinder 303, a circular hole 304, a cleaning bin 305, a spiral pipeline 306, a truncated cone-shaped net rack 307 and mesh holes 308, the lower end of a bottom cover 7 is connected with the outer cylinder 301, the circular tube 302 is arranged at an opening on the lower portion of the side wall of the outer cylinder 301, the inner cylinder 303 is connected in the outer cylinder 301, the circular hole 304 is arranged on the lower portion of the side wall of the inner cylinder 303, the circular tube 302 is aligned with the circular hole 304, the cleaning bin 305 is arranged at the lower end of the inner cylinder 303, the spiral pipeline 306 is arranged in the cleaning bin 305, the truncated cone-shaped net rack 307 is arranged at the bin bottom of the cleaning bin 305, the mesh holes 308 are arranged on the end face of the truncated cone-shaped net rack 307, the edge of the lower end of the truncated cone-shaped net rack 307 contacts with the image limit point at the lowest end of the circular hole 304, the opening on the upper end of the outer cylinder 301 is aligned with the opening on the end face of the bottom cover 7, the outer cylinder 301 and the outer cylinder 301 is fixedly connected with the bottom cover 7, the outer cylinder 301 is in threaded connection with the inner cylinder 303, sealant is injected into the contact end of the inner cylinder 303 and the outer cylinder 301, the inner cylinder 303 is fixedly connected with the spiral pipeline 306, a gap is formed between the spiral pipeline 306 and the circular table-shaped net rack 307, a support frame is arranged at the lower end of the spiral pipeline 306, the support frame is fixedly connected with the spiral pipeline 306 and the inner cylinder 303, a gap is formed between the upper end of the spiral pipeline 306 and the inner top of the outer cylinder 301, the height of the inner pipeline of the spiral pipeline 306 is twice of the diameter of a ball, after the spiral pipeline 306 is placed in the cleaning bin 305, the height of the spiral pipeline 306 is adjusted, a gap is ensured to be formed between the spiral pipeline 306 and the outer cylinder 301, the circular table-shaped net rack 307 is placed at the bottom of the cleaning bin 305, the position of the circular table-shaped net rack 307 is adjusted, the ball is ensured to slide to the upper end of the circular table-shaped net rack 307 through the spiral pipeline 306, the circular hole 304 is arranged after the ball collides with the spiral pipeline, the ball, the discharge is carried out, the spiral pipeline 306, the ball can increase the falling time, and then the volume increases the clean water and carries out clean time to the ball, and the quick ejection of compact of ball can be realized to round platform type rack 307 for discharging efficiency, round platform type rack 307 can also realize the separation between piece and the ball.

Example four:

as shown in fig. 7 and 8, a screening structure of stainless steel bearing ball processing and manufacturing equipment, a screening structure 4 is arranged at the bottom of a cleaning bin 305, the screening structure 4 comprises a screening net rack 401, a convex block 402, an ultrasonic transducer 403, a mounting hole 404, a first screening net 405, a second screening net 406, a resonance ring 407, a circular truncated cone-shaped pipeline 408, a discharge pipe 409, a resonance connecting strip 410 and a spiral resonance strip 411, the bottom of the cleaning bin 305 is connected with the screening net rack 401, the lower end of the side wall of the screening net rack 401 is provided with the convex block 402, the end face of the convex block 402 is connected with the ultrasonic transducer 403, the mounting hole 404 is arranged at the middle of the end face of the screening net rack 401, the first screening net 405 is connected to the mounting hole 404 in the middle of the screening net rack 401, the second screening net 406 is connected to the mounting hole 404 arranged at the edge of the end face of the screening net rack 401, the resonance ring 407 is arranged at the upper end and the lower end of the screening net rack 401, the resonance ring 407 is connected with the ultrasonic transducer 403, the resonance ring 407 at the upper end of the screening net rack 401 is connected with the resonance connecting strip 410, the upper end of the resonance connecting strip 410 is connected with the spiral resonance strip 411, the lower end of the screening net rack 401 is connected with the circular truncated cone-shaped pipeline 408, the lower end of the circular truncated cone-shaped pipeline 408 is connected with the discharge pipe 409, the spiral resonance strip 411 is arranged at the outer edge of the spiral pipeline 306, the spiral resonance strip 411 is matched with the spiral pipeline 306, the screening net rack 401, the ultrasonic transducer 403 and the resonance ring 407 can realize screening of screening net materials, the ultrasonic transducer 403, the resonance ring 407 and the resonance connecting strip 410 can realize vibration of the spiral resonance strip 411, since the helical resonance bar 411 is placed in contact with the helical resonance bar 411 during the falling of the balls on the outer edge of the helical pipe 306, the balls are vibrated, and the spiral resonance strip 411 can also vibrate cleaning water in the cleaning bin 305, so that the cleaning efficiency of the ball sliding process is improved.

The standard parts used by the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, the machines, the parts and equipment adopt conventional models in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, so that the detailed description is omitted.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.