CN213561723U - Tempering surface dull polish processingequipment - Google Patents

Abstract

The utility model relates to a dull polish processingequipment technical field, concretely relates to tempering surface dull polish processingequipment. In the utility model, the holding mechanism and the polishing mechanism are arranged inside the placing box, so that the toughened product to be polished is placed inside the placing box from the feed inlet, and is beneficial to supporting the toughened product by the clamping plate, and then clamping the toughened glass by the clamping mechanism, and a second motor, a second double-groove belt wheel, a second rotating rod, a first conical gear, a second conical gear and a first screw rod in the clamping mechanism are matched for use, thereby the clamping position of splint has been adjusted to utilize motor four, connecting rod two, conical gear three, conical gear four and the connecting plate cooperation among the grinding machanism to use and adjust the position of polishing dish, recycle multistage telescoping cylinder one, multistage telescoping cylinder two, rectangular plate, rectangle box, motor three and polish the dish cooperation and use, thereby utilize the polishing dish to carry out dull polish processing to tempering product surface.

Description

Tempering surface dull polish processingequipment

Technical Field

The utility model relates to a dull polish processingequipment technical field, concretely relates to tempering surface dull polish processingequipment.

Background

Tempered glass, also known as tempered glass and quenched glass, refers to glass having compressive stress on the surface, and belongs to safety glass. The toughened glass is usually subjected to chemical or physical methods to form compressive stress on the surface of the glass and form tensile stress inside the glass, so that the bearing capacity is improved, and the wind pressure resistance, the cold and hot property, the impact resistance and the like of the glass are enhanced.

Present toughened glass all need process the dull polish processing to the surface when carrying out production, but present toughened glass surface dull polish processingequipment's structure is all comparatively complicated, is not convenient for use, and carries out the efficiency of dull polish processing relatively poor to the toughened glass surface.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the structure of the existing tempered glass surface sanding processing device is complex, the device is not convenient to use, and the sanding processing efficiency is poor, so that the tempered glass surface sanding processing device is provided.

The purpose of the utility model can be realized by the following technical scheme:

a toughened surface frosting processing device comprises a placing box, wherein a discharge port and a feed port are respectively formed in one end of each of two sides of the placing box, a baffle is connected to the position, corresponding to the discharge port, of the placing box in a screwing mode through a hinge, and a clamping mechanism is arranged at the position, corresponding to the feed port, of the inside of the placing box;

the clamping mechanism comprises two connecting boxes and a motor II, the bottoms of the two connecting boxes are fixedly connected with the two ends of the inner bottom surface of the placing box respectively, a motor I is fixedly connected at the middle position of the inner bottom surface of the connecting box, the output end of the motor I is in transmission connection with a connecting rod I, a double-groove belt wheel I is fixedly connected at the top of the connecting rod I, rotating rods I are arranged on the two sides of the motor I, the bottom of the rotating rod I is rotatably connected with the inner bottom surface of the connecting box, belt wheels I are fixedly sleeved on the outer sides of the two rotating rods I, the top and the bottom of the double-groove belt wheel I are in transmission connection with belt wheels I at corresponding positions, two clamping plates are arranged at the tops of the two connecting boxes, threaded holes I are respectively formed at the two ends of the clamping plates, two bidirectional lead screws are respectively arranged at the two ends of two adjacent clamping plates in the four clamping plates, and one, the bottom of the bidirectional screw rod is fixedly connected with the top of a rotating rod I at a corresponding position, the bottom of a motor II is fixedly connected with the middle position of the inner bottom surface of the placing box, the output end of the motor II is in transmission connection with a double-groove belt wheel II, two sides of the motor II are respectively provided with a rotating rod II, the bottom of the rotating rod II is rotatably connected with the inner bottom surface of the placing box, the outer sides of the two rotating rods II are respectively fixedly sleeved with a belt wheel II, the top and the bottom of the double-groove belt wheel II are respectively in transmission connection with a belt wheel II at the corresponding position, the top of the rotating rod II is respectively fixedly connected with a conical gear II, one side of the top of the conical gear II is meshed with a conical gear I, the inner part of the conical gear I is fixedly sleeved with a screw rod I, two ends of the screw rod I are rotatably connected with the placing box, two ends of the connecting box are respectively provided with a, when the double-groove screw rod clamping device is used, toughened glass to be subjected to frosting processing is placed in the placing box from the feed inlet, the toughened glass is supported by the clamping plate, the double-groove belt wheel II is driven to rotate by the motor II and the belt wheel II and the rotating rod II are driven to rotate by the belt II by starting the motor II, so that the conical gear II rotates, the conical gear I and the screw rod I rotate, the connecting box is driven to move by the rotation of the screw rod I, the position of the clamping plate is adjusted, the connecting rod I and the double-groove belt wheel I are driven to rotate by the motor I by starting the motor I, and the rotating rod I and the belt wheel I rotate, so that the bidirectional screw rod rotates, and then make splint remove and carry out the centre gripping to toughened glass to utilize the mill to carry out dull polish processing to toughened glass surface.

Further lie in, grinding machanism still includes motor four, motor four's output transmission is connected with connecting rod two, connecting rod two's top has linked firmly bevel gear three, the meshing of one side at bevel gear three top has bevel gear four, bevel gear four's inside cup joints and is fixed with screw rod two, one side at two both ends of screw rod all is provided with the connecting plate, the intermediate position department of connecting plate bottom has linked firmly the connecting block, set up threaded hole three on the connecting block, threaded hole three closes with screw rod two soon to be connected, and through starter motor four, utilizes motor four to drive connecting rod two and bevel gear three and rotates to make screw rod two and bevel gear four rotate, and then make the connecting plate move to suitable position department.

Further, the top and the bottom of one side of the connecting plate are fixedly connected with a second multi-stage telescopic cylinder, the output end of the second multi-stage telescopic cylinder is fixedly connected with a rectangular box, a first multi-stage telescopic cylinder is fixedly connected with the middle position of one side wall in the rectangular box, the output end of the first multi-stage telescopic cylinder is fixedly connected with a rectangular plate, and the rectangular plate is positioned in the rectangular box, one side of the rectangular plate is fixedly connected with the motor III, the rectangular plate, the motor III and the polishing disc are pushed to move by starting the multi-stage telescopic cylinder I, thereby the polishing disc is contacted with the surface of the toughened glass, the polishing disc is driven to rotate by the motor III through the motor III, and finally the rectangular box, the motor III and the polishing disc are pushed to move by the multi-stage telescopic cylinder II through starting the multi-stage telescopic cylinder II, thereby utilize the mill of polishing to carry out dull polish processing to toughened glass surface, and then increased the efficiency to toughened glass surface abrasion processing.

The top of the connecting plate is fixedly connected with a sliding block, a sliding groove is formed in the position, corresponding to the sliding block, of the top surface in the storage box, the sliding block is connected with the sliding groove in a sliding mode, and the sliding block and the sliding groove are used for limiting the connecting plate.

Further lie in, the intermediate position department of baffle one side one end has linked firmly the handle, four corner positions departments of placing the bottom half have all linked firmly universal auto-lock wheels, utilize the handle to be convenient for rotate the baffle, and utilize universal auto-lock wheel to be convenient for remove tempering surface dull polish processingequipment.

The external profiles of the first bevel gear and the second bevel gear are the same, and the external profiles of the third bevel gear and the fourth bevel gear are the same.

The utility model has the advantages that:

1. the clamping mechanism and the polishing mechanism are arranged in the placing box, a toughened product to be subjected to frosting processing is placed in the placing box from the feed inlet, the clamping plate is favorable for supporting the toughened product, the clamping mechanism is used for clamping toughened glass, the motor II, the double-groove belt wheel II, the belt wheel II, the rotating rod II, the conical gear I, the conical gear II and the screw rod I in the clamping mechanism are used in a matched mode, so that the clamping position of the clamping plate is adjusted, the motor IV, the connecting rod II, the conical gear III, the conical gear IV and the connecting plate in the polishing mechanism are used in a matched mode to adjust the polishing position of the polishing disc, the multi-stage telescopic cylinder I, the multi-stage telescopic cylinder II, the rectangular plate, the rectangular box, the motor III and the polishing disc are used in a matched mode, so that the surface of the toughened product is frosted by the polishing, and then increased the efficiency to tempering product surface abrasion processing, and it is more convenient to use.

Drawings

The present invention will be further described with reference to the accompanying drawings.

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

FIG. 2 is a schematic view of the position relationship between the clamping mechanism and the polishing mechanism of the present invention;

FIG. 3 is a schematic structural view of the clamping mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic structural view of a polishing mechanism of the present invention;

fig. 6 is a schematic structural view of the middle connection plate of the present invention.

In the figure: 100. placing a box; 101. a feed inlet; 110. a baffle plate; 111. a grip; 120. a universal self-locking wheel; 200. a clamping mechanism; 210. a connecting box; 220. a first motor; 221. a first connecting rod; 222. a double-groove belt wheel I; 230. a splint; 231. a bidirectional lead screw; 232. rotating the first rod; 233. a first belt wheel; 240. a first belt; 250. a first screw rod; 251. a first conical gear; 260. a second motor; 261. a double-groove belt wheel II; 270. rotating the second rod; 271. a second belt wheel; 272. a second bevel gear; 280. a second belt; 300. a polishing mechanism; 310. a connecting plate; 311. a slider; 312. connecting blocks; 313. a third threaded hole; 320. a rectangular box; 321. a first multi-stage telescopic cylinder; 322. a rectangular plate; 323. a third motor; 324. grinding disc; 330. a fourth motor; 331. a second connecting rod; 332. a third bevel gear; 340. a second screw; 341. a bevel gear four; 350. and a second multi-stage telescopic cylinder.

Detailed Description

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

Referring to fig. 1-6, a toughened surface sanding device includes a placing box 100, wherein a discharge hole and a feed hole 101 are respectively formed at one end of each of two sides of the placing box 100, a baffle 110 is rotatably connected to a position of the placing box 100 corresponding to the discharge hole through a hinge, and a clamping mechanism 200 is arranged inside the placing box 100 corresponding to the feed hole 101;

the clamping mechanism 200 comprises two connecting boxes 210 and a second motor 260, the bottoms of the two connecting boxes 210 are fixedly connected with the two ends of the inner bottom surface of the placing box 100 respectively, the middle position of the inner bottom surface of the connecting box 210 is fixedly connected with a first motor 220, the output end of the first motor 220 is connected with a first connecting rod 221 in a transmission manner, the top of the first connecting rod 221 is fixedly connected with a first double-groove belt pulley 222, the two sides of the first motor 220 are respectively provided with a first rotating rod 232, the bottom of the first rotating rod 232 is rotatably connected with the inner bottom surface of the connecting box 210, the outer sides of the two first rotating rods 232 are respectively fixedly sleeved with a first belt pulley 233, the top and the bottom of the first double-groove belt pulley 222 are respectively connected with a first belt 240 in a transmission manner through the first belt pulley 233 at the corresponding position, the tops of the two connecting boxes 210 are respectively provided with two clamping plates 230, the two ends of the clamping plates 230 are respectively provided with a first threaded hole, the, the bottom of the bidirectional screw 231 is fixedly connected with the top of the rotating rod one 232 at the corresponding position, the bottom of the motor two 260 is fixedly connected with the middle position of the inner bottom surface of the placing box 100, the output end of the motor two 260 is in transmission connection with the double-groove belt wheel two 261, the two sides of the motor two 260 are respectively provided with the rotating rod two 270, the bottom of the rotating rod two 270 is in rotational connection with the inner bottom surface of the placing box 100, the outer sides of the two rotating rod two 270 are respectively fixedly sleeved with the belt wheel two 271, the top and the bottom of the double-groove belt wheel two 261 are respectively in transmission connection with the belt wheel two 271 at the corresponding position, the top of the rotating rod two 270 is respectively and fixedly connected with the conical gear two 272, one side of the top of the conical gear two 272 is meshed with the conical gear one 251, the inside of the conical gear one 251 is fixedly sleeved with the screw rod one 250, the two ends of the screw rod one 250 are rotatably connected with the placing box 100, the, when the polishing mechanism 300 is used, the toughened glass to be polished is placed in the placing box 100 from the feeding hole 101, the clamp plate 230 is favorable for supporting the toughened glass, the motor II 260 is started, the motor II 260 drives the double-groove belt wheel II 261 to rotate, the belt II 280 drives the belt wheel II 271 and the rotating rod II 270 to rotate, the conical gear II 272 rotates, the conical gear I251 and the screw rod I250 rotate, the screw rod I250 rotates to drive the connecting box 210 to move, the position of the clamp plate 230 is adjusted, the motor I220 is further started, the motor I220 drives the connecting rod I221 and the double-groove belt wheel I222 to rotate, and the belt I240 drives the belt wheel I233 and the rotating rod I232 to rotate, thereby, the bidirectional screw 231 is rotated, and then the clamping plate 230 is moved to clamp the tempered glass, and the surface of the tempered glass is ground by the grinding disc 324.

Grinding mechanism 300 still includes motor four 330, the output transmission of motor four 330 is connected with connecting rod two 331, the top of connecting rod two 331 is linked firmly bevel gear three 332, one side meshing of bevel gear three 332 top has bevel gear four 341, the inside cup joint of bevel gear four 341 is fixed with screw rod two 340, one side at screw rod two 340 both ends all is provided with connecting plate 310, the intermediate position department of connecting plate 310 bottom has linked firmly connecting block 312, threaded hole three 313 has been seted up on connecting block 312, threaded hole three 313 closes with screw rod two 340 soon and is connected, through starting motor four 330, utilize motor four 330 to drive connecting rod two 331 and bevel gear three 332 and rotate, thereby make screw rod two 340 and bevel gear four 341 rotate, and then make connecting plate 310 move to suitable position department.

The top and the bottom of one side of the connecting plate 310 are fixedly connected with a second multi-stage telescopic cylinder 350, the output end of the second multi-stage telescopic cylinder 350 is fixedly connected with a rectangular box 320, the middle position of one side wall inside the rectangular box 320 is fixedly connected with a first multi-stage telescopic cylinder 321, the output end of the first multi-stage telescopic cylinder 321 is fixedly connected with a rectangular plate 322, the rectangular plate 322 is positioned inside the rectangular box 320, one side of the rectangular plate 322 is fixedly connected with a third motor 323, the rectangular plate 322, the third motor 323 and the polishing disc 324 are pushed to move by starting the first multi-stage telescopic cylinder 321, so that the polishing disc 324 is contacted with the surface of the toughened glass, the third motor 323 is used for driving the polishing disc 324 to rotate by the third motor 323, and finally, the second multi-stage telescopic cylinder 350 is used for pushing the rectangular box 320, the third motor 323 and the polishing disc 324 to move by starting the second multi-stage telescopic cylinder 350, thereby increasing the efficiency of the surface abrasion processing of the toughened glass.

The top of the connecting plate 310 is fixedly connected with a sliding block 311, a sliding groove is formed in the position, corresponding to the sliding block 311, of the inner top surface of the placing box 100, the sliding block 311 is in sliding connection with the sliding groove, and the connecting plate 310 is limited by the sliding block 311 and the sliding groove.

The intermediate position department of baffle 110 one side one end has linked firmly handle 111, and four corner positions departments of placing the case 100 bottom all have linked firmly universal auto-lock wheel 120, utilize handle 111 to be convenient for rotate baffle 110, and utilize universal auto-lock wheel 120 to be convenient for remove tempering surface dull polish processingequipment.

The external profile of bevel gear one 251 is identical to that of bevel gear two 272, and the external profile of bevel gear three 332 is identical to that of bevel gear four 341.

The working principle is as follows: when the double-groove belt wheel clamping device is used, toughened glass needing frosting is placed in the placing box 100 from the feeding hole 101, the clamping plate 230 is facilitated to support the toughened glass, the second motor 260 is started, the second motor 260 is used for driving the second double-groove belt wheel 261 to rotate, the second belt wheel 271 and the second rotating rod 270 are driven to rotate by the second belt 280, the second bevel gear 272 is made to rotate, the first bevel gear 251 and the first screw 250 are made to rotate, the first screw 250 is made to rotate to drive the connecting box 210, the position of the clamping plate 230 is adjusted, the first motor 220 is started, the first motor 220 is facilitated to drive the first connecting rod 221 and the first double-groove belt wheel 222 to rotate, the first belt wheel 233 and the first rotating rod 232 are made to rotate by the first belt 240, the bidirectional screw 231 is made to rotate, and the clamping plate 230 is made to move and clamp the toughened glass, by starting the motor IV 330, the motor IV 330 is utilized to drive the connecting rod II 331 and the conical gear III 332 to rotate, so that the screw rod II 340 and the conical gear IV 341 rotate, the connecting plate 310 moves to a proper position, the multi-stage telescopic cylinder I321 is started, the rectangular plate 322 is pushed, the motor III 323 and the polishing disc 324 move, the polishing disc 324 is in contact with the surface of the toughened glass, the motor III 323 is utilized to drive the polishing disc 324 to rotate, finally, the multi-stage telescopic cylinder II 350 is started, the rectangular box 320 is pushed by the multi-stage telescopic cylinder II 350, the motor III 323 and the polishing disc 324 move, the surface of the toughened glass is subjected to frosting by the polishing disc 324, and the efficiency of the surface abrasion processing of the toughened glass is increased.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only, and various modifications, additions and substitutions as described for the specific embodiments described herein may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (6)

1. The toughened surface frosting processing device comprises a placing box (100), and is characterized in that one end of each of two sides of the placing box (100) is provided with a discharge hole and a feed hole (101), the position of the placing box (100) corresponding to the discharge hole is connected with a baffle (110) in a screwing mode through a hinge, and a clamping mechanism (200) is arranged in the placing box (100) corresponding to the feed hole (101);

the clamping mechanism (200) comprises two connecting boxes (210) and a second motor (260), the bottoms of the two connecting boxes (210) are fixedly connected with the two ends of the inner bottom surface of the placing box (100) respectively, the middle position of the inner bottom surface of the connecting box (210) is fixedly connected with a first motor (220), the output end of the first motor (220) is connected with a first connecting rod (221) in a transmission manner, the top of the first connecting rod (221) is fixedly connected with a first double-groove belt wheel (222), the two sides of the first motor (220) are respectively provided with a first rotating rod (232), the bottom of the first rotating rod (232) is rotatably connected with the inner bottom surface of the connecting box (210), the outer sides of the first rotating rods (232) are respectively fixedly connected with a first belt wheel (233) in a sleeve manner, the top and the bottom of the first double-groove belt wheel (222) are respectively connected with a first belt (240) in a transmission manner through the first belt wheels (233) at corresponding positions, and, the two ends of the clamping plate (230) are provided with a first threaded hole, the two ends of two adjacent clamping plates (230) in the four clamping plates (230) are provided with a two-way lead screw (231), one end of the two-way lead screw (231) is connected with a first threaded hole at a corresponding position in a screwing manner, the bottom of the two-way lead screw (231) is fixedly connected with the top of a first rotating rod (232) at the corresponding position, the bottom of a second motor (260) is fixedly connected with the middle position of the inner bottom surface of the placing box (100), the output end of the second motor (260) is in transmission connection with a second double-groove belt pulley (261), the two sides of the second motor (260) are provided with second rotating rods (270), the bottom of the second rotating rods (270) is in rotation connection with the inner bottom surface of the placing box (100), the outer sides of the two rotating rods (270) are fixedly connected with second belt pulleys (271) in a sleeving manner, the top and the bottom of the second double-groove belt pulley (261, the top of dwang two (270) has all linked firmly conical gear two (272), the meshing of one side at conical gear two (272) top has conical gear one (251), the inside of conical gear one (251) is cup jointed and is fixed with screw rod one (250), and the both ends of screw rod one (250) with place case (100) and rotate and be connected, threaded hole two is all seted up at the both ends of connecting box (210), and threaded hole two closes soon with screw rod one (250) that correspond position department and is connected, one side of fixture (200) is provided with grinding machanism (300), grinding machanism (300) include four motor three (323), the output of motor three (323) closes soon and is connected with the mill dish (324).

2. The frosted toughened surface machining device of claim 1, wherein the polishing mechanism (300) further comprises a fourth motor (330), a second connecting rod (331) is connected to the output end of the fourth motor (330) in a transmission manner, a third conical gear (332) is fixedly connected to the top of the second connecting rod (331), a fourth conical gear (341) is meshed to one side of the top of the third conical gear (332), a second screw (340) is fixedly sleeved inside the fourth conical gear (341), a connecting plate (310) is arranged on each of two ends of the second screw (340), a connecting block (312) is fixedly connected to the middle position of the bottom of the connecting plate (310), a third threaded hole (313) is formed in the connecting block (312), and the third threaded hole (313) is rotatably connected with the second screw (340).

3. The frosted toughened surface processing device according to claim 2, wherein the top and the bottom of one side of the connecting plate (310) are fixedly connected with a second multi-stage telescopic cylinder (350), the output end of the second multi-stage telescopic cylinder (350) is fixedly connected with a rectangular box (320), a first multi-stage telescopic cylinder (321) is fixedly connected with an intermediate position of one side wall inside the rectangular box (320), the output end of the first multi-stage telescopic cylinder (321) is fixedly connected with a rectangular plate (322), the rectangular plate (322) is located inside the rectangular box (320), and one side of the rectangular plate (322) is fixedly connected with a third motor (323).

4. The toughening surface sanding device of claim 2, wherein the top of the connecting plate (310) is fixedly connected with a slide block (311), a sliding groove is formed in the position, corresponding to the slide block (311), of the inner top surface of the placing box (100), and the slide block (311) is in sliding connection with the sliding groove.

5. The frosted toughened surface machining device of claim 1, wherein a handle (111) is fixedly connected to the middle of one end of one side of the baffle (110), and universal self-locking wheels (120) are fixedly connected to the four corner positions of the bottom of the placing box (100).

6. The apparatus of claim 2, wherein the first bevel gear (251) has the same outer contour as the second bevel gear (272), and the third bevel gear (332) has the same outer contour as the fourth bevel gear (341).

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