CN100586337C - Full-automatic nail brush hair-milling operation mechanism - Google Patents

Abstract

The invention relates to a fully-automatic nailbrush sanding working mechanism which comprises a worktable plate (1), wherein, a power transmission component (10), a wheel grinding component (20), a handle feeding component (30) and a brush handle lifting and rotating component (40) are arranged on the worktable plate (1). The fully-automatic nailbrush sanding working mechanism overcomes the disadvantages that the prior brush sanding mechanism fails to form a product line, the productivity is low and the production quality is poor and so on. The fully-automatic nailbrush sanding working mechanism can be produced automatically, thereby improving the efficiency largely, reducing the labor intensity of workers and improving the quality of products greatly.

Description

Full-automatic nail brush hair-milling operation mechanism

Technical field

What the present invention relates to is nail brush hair-milling operation mechanism, and it is a kind of full-automatic nail brush hair-milling operation mechanism in particular.

Background technology

Existing nail brush sanding processing is difficulty relatively, generally all be that artificial hand takes sanding or semi-automatic twist to relay the handle sanding, and sanding on one side, check whether sharpening of hairbrush on one side, be difficult to the quality and benefits of assurance product, and the conveying of brush holder, operations such as sanding can not mechanically be finished at same, can not form a production line, realize producing continuously, therefore production efficiency is low. and product of poor quality, qualification rate is low.

Summary of the invention

The objective of the invention is to overcome above-mentioned existing disadvantages of background technology part, and a kind of full-automatic nail brush hair-milling operation mechanism is provided, improved production efficiency and product quality.

The objective of the invention is to reach: full-automatic nail brush hair-milling operation mechanism by following measure, it comprises working plate 1, it is characterized in that power transfer unit 10, wheel grinding parts 20 are installed on the working plate 1, send shank spare 30, lifting rotary part 40; First belt 17 on the described power transfer unit 10 is connected with the shank spare 30 that send that can rotate, second belt 194 on the described power transfer unit 10 is connected with the wheel grinding parts 20 that can rotate and seesaw, the 3rd belt 195 on the described power transfer unit 10 with can do elevating movement and be connected with the lifting rotary part 40 that rotatablely moves; Power transfer unit 10 is positioned at lifting rotary part 40 lower ends, send shank spare 30 to be positioned at power transfer unit 10 right-hand members, send shank spare 30 to be positioned at the lower end of lifting rotary part 40.

In technique scheme, motor I 11 on the described power transfer unit 10 is fixed on the belt pulley I12, belt pulley I12 links to each other with calibration box 193 inputs on being fixed on working plate 1 by first belt 17, and the output of calibration box 193 is connected with sending shank spare 30 by the 4th belt 18 again; The lower end of belt pulley I12 is connected with belt pulley II13 by intermediate zone 19, and belt pulley II13 lower end is connected with wheel grinding parts 20 by second belt 194; The upper end of belt pulley II13 links to each other with belt pulley III14 by the 3rd belt 195, bevel gear 15 engagements that are complementary on the bevel gear 15 of belt pulley III14 upper end and the camshaft 16, and camshaft 16 is connected with brush holder lifting rotary part 40

In technique scheme, described wheel grinding parts 20 comprise base 21, track base 22, bearing contiguous block II23, power transmission shaft 24, camshaft bearing contiguous block 25, cam II26, bearing 27, bearing contiguous block I28, emery wheel supporting seat 29, guide rail 290, motor support plate 291, belt pulley 292, motor II 293, emery wheel axle 294, emery wheel 295, belt II296; Motor II 293 is fixed on the motor support plate 291, motor II 293 connects emery wheel axle 294 by belt II296, be fixed with a plurality of emery wheels 295 on the emery wheel axle 294, be fixed with track base 22 on the base 21, be fixed with guide rail 290 on the track base 22, be connected with bearing contiguous block II23 in the middle of the guide rail 290, bearing contiguous block II23 upper end is fixed with emery wheel supporting seat 29, emery wheel supporting seat 29 upper ends are fixed with emery wheel axle 294 again, the lower end is fixed with bearing contiguous block 28, are connected with bearing 27 on the bearing contiguous block 28; The side is fixed with motor support plate 291, the center fixed of track base 22 has camshaft bearing contiguous block 25, be connected with power transmission shaft 24 in the middle of the camshaft bearing contiguous block 25, the upper end of power transmission shaft 24 is connected with cam II26, and power transmission shaft 24 is connected with belt pulley II13 by second belt 194.

In technique scheme, describedly send the chain 32 on the shank spare 30 to be fixed between two sprocket wheels 31, clamp body 33 is fixed on the chain 32, and the axle on one of them sprocket wheel 31 is connected with the 4th belt 18.

In technique scheme, described lifting rotary part 40 comprises a leverage and the rotating mechanism that thimble rotating shaft 44 is rotated that thimble rotating shaft 44 is moved up and down.

In technique scheme, leverage on the described lifting rotary part 40 comprises cam 499, bearing connecting rod 495, lever 494, lever support 493, extension spring 496, lifting slider 42, lever supports on 493 and is fixed with lever 494, bearing connecting rod 495 is fixed on the rear end of lever 494 and contacts with cam 499, the tail end of lever 494 is fixed with extension spring 496 simultaneously, and the front end of lever 494 is connected with lifting slider 42.

In technique scheme, rotating mechanism on the described lifting rotary part 40 comprises bearing contiguous block III41, lifting slider 42, guide pillar II43, thimble rotating shaft 44, belt pulley rebound 46, belt wheel seat 47, belt III49, motor cabinet 491, motor II I492, lifting slider 42 is positioned at the centre position of two guide pillar II43, bearing contiguous block III41 is fixed on the lifting slider 42, thimble rotating shaft 44 is fixed on the bearing contiguous block III41, thimble rotating shaft 44 upper ends are connected with on the belt wheel seat 47, motor II I492 is fixed on the motor cabinet 491, motor II I492 links to each other with belt wheel seat 47 by belt III49, is fixed with belt wheel seat 47 and motor cabinet 491 on the belt pulley rebound 46.

In technique scheme, be fixed with 3 to 10 emery wheels 295 on the described emery wheel axle 294.

Full-automatic nail brush hair-milling operation mechanism of the present invention has following advantage: the conveying that can finish brush holder simultaneously (is delivered to brush holder that wheel grinding parts 20 tops and lifting rotary part 40 belows, sanding a plurality of operations, production efficiencys such as (will send the hair sharpening on the brush holder here) improve greatly, production cost reduces greatly, reduced working strength of workers, has improved the quality of product.

Description of drawings

Fig. 1 is a full-automatic nail brush hair-milling operation mechanism overall structure schematic diagram of the present invention.

Fig. 2 is an active force part-structure schematic diagram of the present invention.

Fig. 3 is a wheel grinding modular construction schematic diagram of the present invention.

Fig. 4 is a lifting rotary part structural representation of the present invention.

Fig. 5 send shank spare structural representation for the present invention.

The specific embodiment

Describe performance of the present invention in detail below in conjunction with accompanying drawing, but they do not constitute limitation of the invention, only give an example, more clearly understand easily by illustrating that advantage of the present invention will become simultaneously.

Consult accompanying drawing 1, Fig. 2 as can be known: the motor I 11 on the power transfer unit 10 is fixed on the belt pulley I12, belt pulley I12 links to each other with calibration box 193 inputs on being fixed on working plate 1 by first belt 17, (annotate: the calibration box is used for the branch five equilibrium to calibration box 193, can divide 8 five equilibriums, 10 etc. to grade, can design as required, it has two ends, and an end is an input, and an end is an output) output be connected with sending shank spare 30 by the 4th belt 18 again; The lower end of belt pulley I12 is connected with belt pulley II13 by intermediate zone 19, and belt pulley II13 lower end is connected with wheel grinding parts 20 by second belt 194; The upper end of belt pulley II13 links to each other with belt pulley III14 by the 3rd belt 195, and the upper end of belt pulley III14 is connected with lifting rotary part 40.

During motor I 11 work, drive 17 motions of first belt, drive calibration box 193 simultaneously and carry out rotatablely moving intermittence, calibration box 193 drives chain 32 motions on the sprocket wheel 31 by intermittently rotatablely moving, and then send the motion (seeing accompanying drawing 1, Fig. 5) of shank spare.

During motor I 11 work, driving belt pulley II13 by intermediate zone 19 is rotated, belt pulley II13 drives bevel gear 15 on the belt pulley III14 again, and (annotate: the umbrella shape profile of tooth is used for changing power direction, be 90 °, and could use in pairs) rotate, thereby drive another bevel gear 15 rotations that are fixed on the camshaft 16, and then carry out the motion (seeing accompanying drawing 1, Fig. 4) of lifting rotary part.

Need to prove that the camshaft 16 in the patent of the present invention installed two cams, one of them cam 499 is used to provide the power up and down of lifting rotary part, and another cam (not drawing in the accompanying drawing) is used to provide brush holder is pushed in the clamp body 33.

Simultaneously, by the rotation of belt pulley II13, drive 194 motions of second belt, thereby drive power transmission shaft 24 rotations, and then carry out the motion (seeing accompanying drawing 1, Fig. 3) of wheel grinding parts, the direction among Fig. 3 shown in the arrow is the direction of grinding wheel movement.

Consult accompanying drawing 1, Fig. 5 as can be known: the present invention send the chain 32 on the shank spare 30 to be fixed between two sprocket wheels 31, and clamp body 33 is fixed on the chain 32, and the axle under the sprocket wheel 31 is connected with the 4th belt 18.From the brush holder arranged in order of shake disk component send handle mechanism our company patent applied for, be not described further, in the time of when brush holder is pushed into clamp body 33 in, sprocket wheel 31 is intermittently mobile to previous crops with the clamp body on the chain 32 33 by rotation.It should be noted that to be fixed with 33 many of the clamp bodies that keep at a certain distance away on the chain 32, two clamp bodies that only draw in this accompanying drawing explain.

Consult Fig. 1, Fig. 4 as can be known: the leverage on the lifting rotary part 40 of the present invention comprises cam 499, bearing connecting rod 495, lever 494, lever support 493, extension spring 496, lifting slider 42; Bearing contiguous block III41, lifting slider 42, guide pillar II43, thimble rotating shaft 44, belt pulley rebound 46, belt wheel seat 47, belt III49, motor cabinet 491, motor II I492 etc.Motor II I492 drives 47 rotations of belt wheel seat by belt III49, thereby drive 44 rotations of thimble rotating shaft, this moment, lever 494 moved upward by cam 499, thereby driving thimble rotating shaft 494 moves downward, push down the brush holder that is transported to thimble rotating shaft 44 belows, and brush holder is rotated, when cam 499 rotates to certain position, extension spring 496 behind the lever retracts lever 494, and make it to move upward, and return, chain drives brush holder and moves a station more simultaneously, and prepares to work next time.

Consult accompanying drawing 1, Fig. 3 as can be known: comprise base 21 (being fixed on the working plate 1), track base 22, bearing contiguous block II23, power transmission shaft 24, camshaft bearing contiguous block 25, cam II26, bearing 27, bearing contiguous block I28, emery wheel supporting seat 29, guide rail 290, motor support plate 291, belt pulley 292, motor II 293, emery wheel axle 294, emery wheel 295, belt II296 on the wheel grinding parts 20 of the present invention.When sending shank spare that brush holder is delivered to the dead ahead of emery wheel 295, this moment, motor II 293 just drove emery wheel 295 rotations, under the transmission of second belt 194, and power transmission shaft 24 rotations, thereby drive cam II26 motion, the bearing 27 that drives again in the emery wheel support 29 travels forward, and emery wheel 295 touches the brush holder high-quality green tea, reaches the sanding effect, when cam II26 forwards certain position to, emery wheel 295 is return, and prepares to work next time, circulation successively.

Need to prove that relevant drive disk assembly in the patent application of the present invention is as methods such as cam, bevel gear, calibration boxes, also available other workpiece replacement also reaches identical purpose, because other workpiece all belongs to prior art, because of the technology that all should think a bit to be equal to.The professional and technical personnel can also do suitable distortion to the present invention under the prerequisite of creative work simultaneously, and this belongs to protection scope of the present invention equally.

Claims (8)

1, full-automatic nail brush hair-milling operation mechanism, it comprises working plate (1), it is characterized in that power transfer unit (10), wheel grinding parts (20) are installed on the working plate (1), send shank spare (30), brush holder lifting rotary part (40); First belt (17) on the described power transfer unit (10) is connected with the shank spare (30) that send that can rotate, second belt (194) on the described power transfer unit (10) is connected with the wheel grinding parts (20) that can rotate and seesaw, the 3rd belt (195) on the described power transfer unit (10) with can do elevating movement and be connected with the brush holder lifting rotary part (40) that rotatablely moves; Power transfer unit (10) is positioned at brush holder lifting rotary part (40) lower end, send shank spare (30) to be positioned at power transfer unit (10) right-hand member, send shank spare (30) to be positioned at the lower end of brush holder lifting rotary part (40).

2, full-automatic nail brush hair-milling operation mechanism according to claim 1, it is characterized in that the motor I (11) on the described power transfer unit (10) is fixed on the belt pulley I (12), belt pulley I (12) links to each other with calibration box (193) input on being fixed on working plate (1) by first belt (17), and the output of calibration box (193) is connected with sending shank spare (30) by the 4th belt (18) again; The lower end of belt pulley I (12) is connected with belt pulley II (13) by intermediate zone (19), and belt pulley II (13) lower end is connected with wheel grinding parts (20) by second belt (194); The upper end of belt pulley II (13) links to each other with belt pulley III (14) by the 3rd belt (195), bevel gear (15) engagement that is complementary on the bevel gear (15) of belt pulley III (14) upper end and the camshaft (16), camshaft (16) is connected with brush holder lifting rotary part (40).

3, full-automatic nail brush hair-milling operation mechanism according to claim 1 is characterized in that described wheel grinding parts (20) comprise base (21), track base (22), bearing contiguous block II (23), power transmission shaft (24), camshaft bearing contiguous block (25), cam II (26), bearing (27), bearing contiguous block I (28), emery wheel supporting seat (29), guide rail (290), motor support plate (291), belt pulley (292), motor II (293), emery wheel axle (294), emery wheel (295), belt II (296); Motor II (293) is fixed on the motor support plate (291), motor II (293) connects emery wheel axle (294) by belt II (296), be fixed with a plurality of emery wheels (295) on the emery wheel axle (294), be fixed with track base (22) on the base (21), be fixed with guide rail (290) on the track base (22), be connected with bearing contiguous block II (23) in the middle of the guide rail (290), bearing contiguous block II (23) upper end is fixed with emery wheel supporting seat (29), emery wheel supporting seat (29) upper end is fixed with emery wheel axle (294) again, the lower end is fixed with bearing contiguous block (28), is connected with bearing (27) on the bearing contiguous block (28); The side is fixed with motor support plate (291), the center fixed of track base (22) has camshaft bearing contiguous block (25), be connected with power transmission shaft (24) in the middle of the camshaft bearing contiguous block (25), the upper end of power transmission shaft (24) is connected with cam II (26), and power transmission shaft (24) is connected with belt pulley II (13) by second belt (194).

4, full-automatic nail brush hair-milling operation mechanism according to claim 1, it is characterized in that describedly sending the chain (32) on the shank spare (30) to be fixed between two sprocket wheels (31), clamp body (33) is fixed on the chain (32), and the axle on one of them sprocket wheel (31) is connected with the 4th belt (18).

5, full-automatic nail brush hair-milling operation mechanism according to claim 1 is characterized in that described brush holder lifting rotary part (40) comprises a leverage and the rotating mechanism that thimble rotating shaft (44) is rotated that thimble rotating shaft (44) is moved up and down.

6, full-automatic nail brush hair-milling operation mechanism according to claim 5, it is characterized in that the leverage on the described brush holder lifting rotary part (40) comprises that cam (499), bearing connecting rod (495), lever (494), lever support (493), extension spring (496), lifting slider (42), lever supports on (493) and is fixed with lever (494), bearing connecting rod (495) is fixed on the rear end of lever (494) and contacts with cam (499), the tail end of lever (494) is fixed with extension spring (496) simultaneously, and the front end of lever (494) is connected with lifting slider (42).

7, full-automatic nail brush hair-milling operation mechanism according to claim 5, it is characterized in that the rotating mechanism on the described brush holder lifting rotary part (40) comprises bearing contiguous block III (41), lifting slider (42), guide pillar II (43), thimble rotating shaft (44), belt pulley rebound (46), belt wheel seat (47), belt III (49), motor cabinet (491), motor II I (492), lifting slider (42) is positioned at the centre position of two guide pillar II (43), bearing contiguous block III (41) is fixed on the lifting slider (42), thimble rotating shaft (44) is fixed on the bearing contiguous block III (41), thimble rotating shaft (44) upper end is connected with on the belt wheel seat (47), motor II I (492) is fixed on the motor cabinet (491), motor II I (492) links to each other with belt wheel seat (47) by belt III (49), is fixed with belt wheel seat (47) and motor cabinet (491) on the belt pulley rebound (46).

8, full-automatic nail brush hair-milling operation mechanism according to claim 3 is characterized in that being fixed with on the described emery wheel axle (294) 3 to 10 emery wheels (295).

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