CN215783794U - Circulating ball grinding device for glass ornaments - Google Patents

Abstract

The utility model relates to a circulating ball milling device for glass ornaments, which comprises a ball milling high-efficiency mechanism and a grading circulating mechanism positioned on the right side of the ball milling high-efficiency mechanism, wherein the ball milling high-efficiency mechanism comprises a base, a ball milling device body is arranged above the base, a fixed spring is fixed inside the ball milling device body, a connecting plate is fixed on one side, away from the ball milling device body, of the fixed spring, steel balls are placed above the connecting plate, a sieve plate is connected to the inner side of the ball milling device body, the grading circulating mechanism comprises a circulating box positioned on the right side of the base, and a sliding chute is formed inside the circulating box. This glass is circulation ball mill device for ornaments can effectively improve the grinding effect to glass, has improved the quality when the ejection of compact simultaneously to improve the efficiency of work, can effectively carry out the classification to the glass of the ejection of compact, then will not conform to the automatic leading-in of glass of specification and grind from now on, consequently need not the manual work to carry out the material loading and delay time.

Description

Circulating ball grinding device for glass ornaments

Technical Field

The utility model relates to the technical field of glass processing.

Background

The ball mill is a key device for crushing materials after the materials are crushed, is widely applied to production industries of cement, silicate products, novel building materials, refractory materials, chemical fertilizers, black and non-ferrous metal ore dressing, glass ceramics and the like, carries out dry-type or wet-type grinding on various ores and other grindable materials, is suitable for grinding various ores and other materials, is widely applied to industries of ore dressing, building materials, chemical engineering and the like, can be divided into a dry-type grinding mode and a wet-type grinding mode, and can be divided into a lattice type grinding mode and an overflow type grinding mode according to different ore discharge modes.

At present, when the existing ball milling device for the glass ornaments is used, certain defects exist, and because the common ball milling device simply utilizes steel balls to grind and discharge glass, the glass is in a state of non-uniform size, so that the grinding effect is reduced, manual feeding is required to be conducted again for re-grinding, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a circulating ball mill device for glass ornaments, aiming at solving the technical problems in the prior art, and solving the problems of poor grinding effect and manual material guiding.

The technical scheme for solving the technical problems is as follows: a circulating ball milling device for glass ornaments, which comprises a ball milling high-efficiency mechanism and a grading circulating mechanism positioned on the right side of the ball milling high-efficiency mechanism, the ball-milling high-efficiency mechanism comprises a base, a ball-milling device body is arranged above the base, a fixed spring is fixed inside the ball-milling device body, a connecting plate is fixed on one side of the fixed spring, which is far away from the ball-milling device body, a steel ball is placed above the connecting plate, the inner side of the ball milling device body is connected with a sieve plate, the grading circulation mechanism comprises a circulation box arranged on the right side of the base, a chute is arranged in the circulation box, a fixed column is connected in the chute, the outer side of the fixed column is sleeved with a connecting spring, the outer side of the fixed column is connected with a movable block, one side of the movable block is connected with an embedded plate, a grading plate is fixed on the inner side of the embedded plate, a vibration motor is installed below the embedded plate, and a fan is installed above the circulating box.

On the basis of the technical scheme, the utility model can be further improved as follows.

Furthermore, the top of base is fixed with the backup pad, and the inside of backup pad has seted up the inside groove, and the internal connection of inside groove has the bearing, and the inboard and the ball-milling device body of bearing are connected, and the outside of ball-milling device body is fixed with fixed gear.

Further, base quantity is two, two one side that the backup pad is relative is connected with left side piece and right side piece respectively, the left side of left side piece is connected with the inlet pipe, one side of right side piece is fixed with the discharging pipe.

Furthermore, a motor is installed on one side of the supporting plate, a transmission gear is fixed on an output shaft of the motor, the outer side of the transmission gear is meshed with the outer side of the fixed gear, and the transmission gear is located below the fixed gear.

Further, a collecting box is placed at the bottom of the circulating box, a door plate is hinged to the front of the circulating box through a hinge, a material pumping pipe is fixed to the bottom of the fan, and a material conveying pipe is connected to the top of the fan.

Furthermore, the two ends of the discharge pipe respectively penetrate through the right side block and the circulation box, the left side of the discharge pipe extends to the right side of the ball milling device body, and the right side of the discharge pipe extends to the inside of the circulation box.

Furthermore, the right side of inlet pipe runs through the left side piece and extends to the left side of ball-milling device body, the left end of conveying pipeline runs through the left side piece and extends to the inside of inlet pipe, the bottom of drawing pipe runs through the circulation case and extends to the inside of circulation case.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects:

1. this glass is circulation ball-milling device for ornaments through the cooperation between the subassembly in the high-efficient mechanism of ball-milling, can effectively improve the grinding effect to glass, the quality when having improved the ejection of compact simultaneously to the efficiency of work has been improved.

2. The circulating ball mill device for the glass ornaments can effectively grade discharged glass through the matching of the components in the grading circulating mechanism, and then automatically guide the glass which does not meet the specification into the circulating ball mill device for grinding, so that the time delay of manual feeding is not needed.

Drawings

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

FIG. 2 is an elevational, cross-sectional view of the structure of the present invention;

fig. 3 is a top view of the structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100 ball milling high-efficiency mechanisms, 200 grading circulation mechanisms, 101 bases, 102 supporting plates, 103 internal grooves, 104 bearings, 105 ball milling device bodies, 106 fixed springs, 107 connecting plates, 108 steel balls, 109 sieve plates, 110 left side blocks, 111 feeding pipes, 112 right side blocks, 113 discharging pipes, 114 fixed gears, 115 motors, 116 transmission gears, 201 circulation boxes, 202 sliding grooves, 203 fixed columns, 204 connecting springs, 205 built-in plates, 206 grading plates, 207 vibrating motors, 208 collecting boxes, 209 fans, 210 pumping pipes, 211 feeding pipes, 212 door panels and 213 movable blocks.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 3, the circulating ball mill apparatus for glass ornaments in the present embodiment includes a ball milling high efficiency mechanism 100 and a grading circulating mechanism 200 disposed at the right side of the ball milling high efficiency mechanism 100, wherein the ball milling high efficiency mechanism 100 can improve the grinding effect on glass, the grading circulating mechanism 200 can effectively grade discharged glass, and simultaneously automatically introduce unqualified glass for regrinding, which will be described in detail below.

In order to realize the efficient function of the ball milling efficient mechanism 100, as shown in fig. 2 and 3, the ball milling efficient mechanism 100 in this embodiment includes two bases 101, a supporting plate 102 is fixedly connected to the top of the base 101, an inner groove 103 is formed inside the supporting plate 102, a bearing 104 is fixedly connected to the inner side of the inner groove 103, a ball milling device body 105 is fixedly installed between the inner sides of the two bearings 104, fixing springs 106 are uniformly distributed and fixedly connected to the inner side of the ball milling device body 105, a connecting plate 107 is fixedly connected to one side of the fixing springs 106 away from the ball milling device body 105, steel balls 108 are placed on the inner side of the connecting plate 107, a sieve plate 109 is fixedly connected to the inner side of the ball milling device body 105, a left side block 110 is fixedly connected to the left side supporting plate 102, a feeding pipe 111 is fixedly connected to the left side of the left side block 110, a right side block 112 is fixedly connected to the right side of the right side supporting plate 102, and a discharging pipe 113 is fixedly connected to the right side of the right side block 112, the outer side of the ball milling device body 105 is fixedly connected with a fixed gear 114, the left side of the left supporting plate 102 is fixedly provided with a motor 115, and an output shaft of the motor 115 is fixedly connected with a transmission gear 116.

Wherein, the two supporting plates 102 are distributed in bilateral symmetry, two ends of the ball milling device body 105 sequentially penetrate through the supporting plates 102 and the bearings 104 and respectively extend to one side of the two supporting plates 102, the connecting plate 107 is divided into four sections, steel balls 108 are arranged inside the four sections, the sizes of the steel balls 108 are arranged from left to right, the number of the sieve plates 109 is three, the pore diameters of the three sieve plates 109 from left to right are arranged from large to small, the diameter of the sieve plates 109 is equal to the inner diameter of the ball milling device body 105, the right end of the feeding pipe 111 penetrates through the left side block 110 and extends to the left side of the ball milling device body 105, the diameter of one side of the feeding pipe 111 close to the ball milling device body 105 is equal to the diameter of the right side of the ball milling device body 105, the feeding pipe 111 is movably connected with the left side of the ball milling device body 105, the left side of the discharging pipe 113 penetrates through the right side block 112 and extends to the right side of the ball milling device body 105, and the diameter of the left side of the discharging pipe 113 is equal to the diameter of the right side of the ball mill body 105, the output shaft of the motor 115 penetrates through the supporting plate 102 and extends to the inner side of the transmission gear 116, the outer side of the transmission gear 116 is engaged with the outer side of the fixed gear 114, and the height of the fixed spring 106 in a natural state is equal to the distance between the ball mill body 105 and the connecting plate 107.

In addition, drive ball-milling device body 105 through motor 115 and rotate, ball-milling device body 105 drives steel ball 108 and rotates through centrifugal force in inside, when changeing steel ball 108 and being greater than centrifugal force, steel ball 108 can fall and strike glass and accomplish and grind, can drive connecting plate 107 simultaneously and extrude fixed spring 106, then under the elasticity recovery effect of fixed spring 106, can drive connecting plate 107 and produce the reaction force to the effect of grinding has been improved.

In order to realize the grading circulation function of the grading circulation mechanism 200, as shown in fig. 2 and 3, in this embodiment, the grading circulation mechanism 200 includes a circulation box 201 fixedly connected with a discharge pipe 113, chutes 202 have been respectively formed in left and right side walls of the circulation box 201, fixing columns 203 are fixedly connected to the inside of the chutes 202, connecting springs 204 are sleeved on the outside of the fixing columns 203, movable blocks 213 are slidably connected to the outside of the fixing columns 203, a built-in plate 205 is fixedly connected between the two movable blocks 213, a connecting vibration motor 207 is fixedly mounted at the bottom of the built-in plate 205 of the built-in plate 206, a collection box 208 is placed on the inner bottom wall of the circulation box 201, a fan 209 is fixedly mounted at the top of the circulation box 201, a material pumping pipe 210 is fixedly connected to the bottom of the fan 209, a material conveying pipe 211 is fixedly connected to the top of the fan 209, and a door panel 212 is hinged to the front of the circulation box 201.

The right side of the discharge pipe 113 penetrates through the circulation box 201 and extends to the left side wall of the circulation box 201, the bottom end of the fixed column 203 sequentially penetrates through the two connecting springs 204 and the movable block 213 and extends to the inner bottom wall of the sliding groove 202, the height of the connecting springs 204 in a natural state is larger than that of the sliding groove 202, the top and the bottom of the movable block 213 are respectively connected with the connecting springs 204, the length and the width of the built-in plate 205 are respectively equal to those of the inner side of the circulation box 201, the grading plate 206 is located at the center of the built-in plate 205, the length and the width of the grading plate 206 are respectively smaller than those of the built-in plate 205, the pumping pipe 210 is located inside the rear side wall of the circulation box 202, the bottom of the pumping pipe 210 penetrates through the circulation box 201 and extends to the inside of the circulation box 201, the left end of the delivery pipe 211 penetrates through the left side block 110 and extends to the inside of the feed pipe 111, and two ends of the delivery pipe 211 are respectively communicated with the fan 209 and the feed pipe 111.

In addition, through the cooperation between the subassembly in the circulation case 201, can effectively carry out the classification to the glass of ejection of compact, then through the effect of fan 209, adsorb the glass that is out of specification to the inlet pipe 111 in carrying out the circulation processing.

The working principle of the above embodiment is as follows: the glass is supported and fixed through the base 101 and the supporting plate 102, then the glass is guided into the ball milling device body 105 through the feeding pipe 111, the motor 115 is started, under the supporting action of the supporting plate 102, the motor 115 drives the transmission gear 116 to rotate, the transmission gear 116 drives the fixed gear 114 to rotate, under the supporting action of the supporting plate 102 and the bearing 104, the fixed gear 114 drives the ball milling device body 105 to rotate, the ball milling device body 105 drives the inner steel ball 108 to rotate centrifugally, when the steel ball 108 rotates to a certain position, the weight of the steel ball 108 is larger than the centrifugal force and falls downwards, so that the glass is ground, meanwhile, the steel ball 108 falls down to drive the connecting plate 107 to extrude the fixed spring 106, then under the elastic force recovery action of the fixed spring 106, so that the connecting plate 107 generates reaction, so that the collision between the steel ball 108 and the glass is improved, and the ground glass is screened through the screen plate 109, it has not the steel ball 108 of equidimension to sieve different intervals to grind once more, until grinding to the rightmost side, then through leading-in circulation case 201 of discharging pipe 113, start vibrating motor 207, vibrating motor 207 drives built-in board 205 and vibrates, it extrudees coupling spring 204 to drive movable block 213 simultaneously, thereby improve hierarchical vibration's effect, the glass that accords with the specification can fall into collection box 208 and save, it can to take out through opening door plant 212, then start fan 209, fan 209 will not be conform to the glass of specification through drawing material pipe 210 and adsorb, then lead to the input pipe 111 through conveying pipeline 211 and carry ball-milling device body 105 and carry out cycle processing.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A circulating ball milling device for glass ornaments is characterized by comprising a ball milling high-efficiency mechanism (100) and a grading circulating mechanism (200) positioned on the right side of the ball milling high-efficiency mechanism (100);

the ball milling efficient mechanism (100) comprises a base (101), a ball milling device body (105) is arranged above the base (101), a fixed spring (106) is fixed inside the ball milling device body (105), a connecting plate (107) is fixed on one side, away from the ball milling device body (105), of the fixed spring (106), a steel ball (108) is placed above the connecting plate (107), and a sieve plate (109) is connected to the inner side of the ball milling device body (105);

hierarchical circulation mechanism (200) including being located circulation case (201) that base (101) right side was placed, spout (202) have been seted up to the inside of circulation case (201), are connected with fixed column (203) in spout (202), and connecting spring (204) have been cup jointed in the outside of fixed column (203), the outside of fixed column (203) is connected with movable block (213), and one side of movable block (213) is connected with built-in board (205), and the inboard of built-in board (205) is fixed with board (206) of grading, vibrating motor (207) are installed to the below of built-in board (205), and fan (209) are installed to the top of circulation case (201).

2. The circulating ball mill device for glass ornaments as claimed in claim 1, wherein a support plate (102) is fixed on the top of the base (101), an inner groove (103) is formed inside the support plate (102), a bearing (104) is connected inside the inner groove (103), the inner side of the bearing (104) is connected with a ball mill body (105), and a fixed gear (114) is fixed on the outer side of the ball mill body (105).

3. The circulating ball mill device for the glass ornaments as claimed in claim 2, wherein the number of the base (101) is two, a left side block (110) and a right side block (112) are respectively connected to the opposite sides of the two support plates (102), a feeding pipe (111) is connected to the left side of the left side block (110), and a discharging pipe (113) is fixed to one side of the right side block (112).

4. The circulating ball mill device for glass ornaments as claimed in claim 3, wherein a motor (115) is mounted on one side of the support plate (102), a transmission gear (116) is fixed on an output shaft of the motor (115), an outer side of the transmission gear (116) is engaged with an outer side of the fixed gear (114), and the transmission gear (116) is located below the fixed gear (114).

5. The circulating ball mill device for the glass ornaments as claimed in claim 4, wherein a collecting box (208) is placed at the bottom of the circulating box (201), a door panel (212) is hinged to the front surface of the circulating box (201) through a hinge, a pumping pipe (210) is fixed at the bottom of the fan (209), and a material conveying pipe (211) is connected to the top of the fan (209).

6. The recycling ball mill device for glass ornaments as claimed in claim 3, wherein both ends of the tapping pipe (113) penetrate the right block (112) and the recycling box (201), respectively, and the left side of the tapping pipe (113) extends to the right side of the ball mill device body (105), and the right side of the tapping pipe (113) extends to the inside of the recycling box (201).

7. The recycling ball mill device for glass ornaments, as claimed in claim 5, wherein the right side of the feeding pipe (111) penetrates through the left block (110) and extends to the left side of the ball mill device body (105), the left end of the feeding pipe (211) penetrates through the left block (110) and extends to the inside of the feeding pipe (111), and the bottom of the pumping pipe (210) penetrates through the recycling box (201) and extends to the inside of the recycling box (201).

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