CN218531765U - Explode pearl vibration screening device - Google Patents

Abstract

The utility model discloses an explode pearl vibration screening device belongs to and explodes pearl screening technical field, including the box, set up the inclined plane formula feed inlet in the box top, set up at the inside base plate of box, set up at the inside vibration subassembly of box, still be equipped with the reciprocal subassembly that corresponds vibration subassembly waste material discharge end in the box, the position that the box corresponds the vibration subassembly is equipped with the chute, and the opposite side of box is equipped with the logical groove of a plurality of rectangle, and the position that corresponds the logical groove of rectangle is equipped with waste bin and receipts feed bin respectively, the utility model discloses can reciprocate and screen many times explosion pearl, improve explode pearl screening quality and screening efficiency.

Description

Explode pearl vibration screening device

Technical Field

The utility model relates to an explode pearl screening technique field, especially relate to an explode pearl vibration screening device.

Background

The popping beads, also called as fragrant pills, brittle capsules and beads, are granular capsules made of essence for cigarettes wrapped by wall materials. The bead blasting is large and small, is a bead which can be broken, and is mainly used in a filter tip of a cigarette, namely a bead blasting cigarette. The bead blasting smoke means: the cigarette with the filter tip provided with the liquid small rubber beads can make the cigarette more fragrant in the sucking process, enhance the fragrance or characteristics and make smokers more comfortable. The bead for the cigarette is a semitransparent spherical capsule wrapping essential oil, the normal diameter of the bead is about 3.5,

however, defects such as bubbles, irregular shapes, incomplete roundness, different diameters, trailing and the like are generated in the production process, the production quantity of the popping beads is very large, the size of the popping beads is small, the screening equipment in the market at present adopts the mode that a plurality of small holes are uniformly distributed on a plane thin plate, the popping beads are dispersed in the small holes one by one, the plane thin plate sequentially passes through the small holes when vibrating, and finally the popping beads passing through the small holes are regarded as qualified products to be collected. The structure has some problems, and because the nonstandard shape of the blasting beads easily causes the blockage of small holes, the machine cannot keep normal screening. When the number of the blasting beads is large, part of qualified blasting beads do not pass through the small holes and directly pass through the screening surface to be regarded as defective products, so that the screening qualification rate is reduced, and the screening workload is increased. The development of a reciprocating and multi-level automatic screening device has practical value.

Disclosure of Invention

An embodiment of the utility model provides an explode pearl vibration screening device to solve the above-mentioned technical problem who proposes.

The embodiment of the utility model provides an adopt following technical scheme: the utility model provides an explode pearl vibration screening device, the box sets up the inclined plane formula feed inlet in the box top, sets up the vibration subassembly in the box, still is equipped with the reciprocal subassembly that corresponds vibration subassembly waste material discharge end in the box, reciprocal subassembly is to shaking the pearl that explodes that the structure tentatively screened and screening once more, and the box corresponds the position of vibration subassembly and is equipped with the chute, and the opposite side of box is equipped with the logical groove of a plurality of rectangle, and the position that corresponds the logical groove of rectangle is equipped with waste bin and receipts feed bin respectively.

Further, the rectangle leads to the groove and divide into rectangle and leads to groove one, rectangle leads to groove two, rectangle leads to groove three, and the chute divide into chute one and chute two, and the below that just corresponds chute one and chute two on the right side wall of box is equipped with rectangle and leads to groove one and rectangle and lead to groove two, leads to groove one and rectangle at the rectangle and leads to two below and the box is inside to be equipped with four gag levers, is equipped with the base plate respectively with the top in the middle of the inside of box.

Further, the vibration subassembly includes the last vibration subassembly that the structure is the same and vibrates the subassembly down, go up and all be equipped with a plurality of aperture on vibration panel in vibration subassembly and the lower vibration subassembly, go up the vibration subassembly and all be equipped with the vibration subassembly handle with lower vibration subassembly left side, it is located chute one and personally submits certain angle with the level to go up the vibration subassembly, and goes up vibration panel in the vibration subassembly and go up aperture diameter ratio qualified pearl diameter of exploding slightly bigger, the vibration subassembly is located chute two departments down, is on a parallel with the vibration subassembly, and vibration panel aperture diameter is the same with the qualified pearl diameter of exploding that needs to be screened in the lower vibration subassembly.

Further, the waste bin includes first waste bin and second waste bin, first waste bin and second waste bin all are rectangle hollow structure, and first waste bin and second waste bin lean on quick-witted lateral wall to link to each other with the waste bin handle, first waste bin inserts and establishes in the logical groove one of rectangle to the feed inlet of first waste bin docks with the waste material discharge end of last vibration subassembly, the second waste bin inserts and establishes in the logical groove two of rectangle to the feed inlet of second waste bin docks with the waste material discharge end of vibration subassembly down, it is rectangle hollow structure to receive the bin, and establishes to the inclined plane above the inner wall, it links to each other with receiving the bin handle through box right side wall below rectangular groove three to receive the bin right-hand member, and the inclined plane is located vibration subassembly below, and box fixed connection, and with the certain angle of horizontal plane slope.

Further, reciprocal subassembly is including reciprocal subassembly one and reciprocal subassembly two, reciprocal subassembly one and reciprocal subassembly two are constituteed by motor, mounting panel, carousel, slide rail, slider, connecting rod, branch, brush, the mounting panel is the rectangle form, and the motor passes through the screw fixation on the mounting panel, the main shaft of motor runs through the mounting panel, the carousel is installed on the main shaft of motor, the slide rail sets up on the mounting panel and is located the homonymy of carousel, the slide rail is fixed inclination setting, and the inclination of slide rail is less than the angle that vibrates the subassembly apart from the horizontal plane slope, the setting that the slider can slide is on the slide rail, the one end of connecting rod is rotated with the eccentric department of carousel front side and is connected, and the other end and the slider of connecting rod rotate and are connected, the upper end and the slider fixed connection of branch, lower extreme and brush adopt bolted connection.

The embodiment of the utility model provides an above-mentioned at least one technical scheme who adopts can reach following beneficial effect:

one of them, explode the pearl along vibration subassembly below to the right vibration removal, do not pass in the vibration subassembly on the vibration face version aperture and mix qualified explode the pearl and can be pushed back to the vibration subassembly middle part by the brush on the subassembly that reciprocates and sieve once more in the waste material, improved the quality of screening greatly, the brush still can effectively clean the pearl that explodes of stifled in the vibration panel aperture at the in-process of motion, can make the vibration subassembly keep normal screening work.

And secondly, the vibration assembly is divided into a vibration assembly and a lower vibration assembly, a plurality of small holes are formed in the vibration panel above the upper vibration assembly and the lower vibration assembly, the blasting beads can be screened, the vibration assembly is convenient to extract by arranging a vibration assembly handle on the left side of the upper vibration assembly and the left side of the lower vibration assembly, and the vibration panel with different diameters can be replaced as required.

The third step, it is located chute department and personally submits certain angle with the level to go up the vibration subassembly, can make to explode the pearl and pass through the vibration panel fast, improve the speed of screening, and go up in the vibration subassembly vibration panel aperture diameter ratio qualified explode the pearl diameter slightly bigger, can carry out the primary screening to exploding the pearl, lower vibration subassembly is located chute two departments, is on a parallel with the vibration subassembly, vibration panel aperture diameter is the same with the qualified pearl diameter of exploding that required screening on the lower vibration subassembly, can carry out the secondary screening to exploding the pearl, improve the quality of screening greatly.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective sectional view of the present invention;

FIG. 3 is a partial perspective view of the present invention;

fig. 4 is a schematic view of the positions of the reciprocating assembly and the vibrating assembly of the present invention;

fig. 5 is a schematic perspective view of the reciprocating assembly of the present invention;

fig. 6 is a schematic view of a partial three-dimensional structure of the reciprocating assembly of the present invention;

reference numerals

The box body 1, inclined plane formula feed inlet 11, gag lever post 12, base plate 13, swash plate 14, chute 2, chute 21, chute two 22, rectangle leads to groove 3, rectangle leads to groove one 31, rectangle leads to groove two 32, rectangle leads to groove three 33, vibration subassembly 4 goes up vibration subassembly 41, lower vibration subassembly 42, vibration subassembly handle 43, reciprocating assembly 5, reciprocating assembly 51, reciprocating assembly two 52, motor 53, mounting panel 54, carousel 55, slide rail 56, slider 57, connecting rod 58, branch 59, brush 50, waste material storehouse 6, first waste material storehouse 61, second waste material storehouse 62, waste material storehouse handle 63, receive material storehouse 7, receive material storehouse handle 71.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following description will be given with reference to the embodiments of the present invention and the accompanying drawings, in which the technical solution of the present invention is clearly and completely described. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1-6, an embodiment of the present invention provides a device for screening explosive beads by vibration, wherein a box body 1 is substantially a cuboid hollow structure, and is convenient for carrying and placing;

an opening is arranged above the box body 1, and an inclined plane type feed inlet 11 is arranged at the opening, so that the entering quantity of the blasting beads can be controlled, and the blockage caused by the blasting beads all the way is reduced;

the middle part and the middle upper part of the left side wall of the box body 1 are respectively provided with a chute I21 and a chute II 22 for the vibration component 4 to be obliquely inserted into the box body 1 for working;

a first rectangular through groove 31 and a second rectangular through groove 32 are arranged on the right side wall of the box body 1 and below the first left chute 21 and the second left chute 22, so that the waste bin 6 to be collected can be pulled inside and outside, and four limiting rods 12 are arranged below the first rectangular through groove 31 and the second rectangular through groove 32 and inside the box body 1 and used for fixing the position of the waste bin 6 in the box body 1;

the middle and the upper part in the box body 1 are respectively provided with a base plate 13 for placing and fixing the reciprocating component 5;

the vibration assembly 4 is the prior art, and chinese patent publication No. CN103331255a discloses this technology, then its structure and working principle are not elaborated in detail in this application, the vibration assembly 4 is divided into an upper vibration assembly 41 and a lower vibration assembly 42, the vibration panels in the upper vibration assembly 41 and the lower vibration assembly 42 are both provided with a plurality of small holes, which can screen the exploded beads, the left sides of the upper vibration assembly 41 and the lower vibration assembly 42 are both provided with a vibration assembly grip 43 to facilitate pulling out the upper vibration assembly 41 or the lower vibration assembly 42, the vibration panels with different diameters of the small holes can be replaced as required, the upper vibration assembly 41 is located at the chute one 21 and forms a certain angle with the horizontal plane, which can make the exploded beads quickly pass through the vibration panels, thereby increasing the screening speed, and the diameter of the small holes on the vibration panel in the upper vibration assembly 41 is slightly larger than the diameter of the qualified exploded beads, which can screen the exploded beads for the first time;

the lower vibration component 42 is positioned at the second chute 22 and is parallel to the upper vibration component 41, the diameter of the small hole of the vibration panel on the lower vibration component 42 is the same as that of the qualified explosion bead to be screened, the explosion bead can be screened for the second time, and the screening quality is greatly improved;

the waste bin 6 comprises a first waste bin 61 and a second waste bin 62, the first waste bin 61 and the second waste bin 62 are both rectangular hollow structures and used for placing waste materials, and are connected with a waste bin handle 63 by the outer side wall of the case, the waste bin 6 can be pulled out as required, the first waste bin 61 is inserted into the first rectangular through groove 31 and is installed on the two upper limiting rods 12, the feed inlet of the first waste bin 61 is in butt joint with the waste material discharge end of the upper vibration component 41, the second waste bin 62 is inserted into the second rectangular through groove 32 and is installed on the two lower limiting rods 12, and the feed inlet of the second waste bin 62 is in butt joint with the waste material discharge end of the lower vibration component 42;

the receiving bin 7 is of a rectangular hollow structure, an inclined plane is arranged above the inner wall of the receiving bin for placing qualified blasting beads, the right end of the receiving bin 7 is connected with a receiving bin handle 71 through a rectangular through groove III 33 below the right side wall of the box body 1, and the receiving bin 7 can be pulled out as required;

the reciprocating assembly 5 comprises a first reciprocating assembly 51 and a second reciprocating assembly 52 which are respectively positioned on the two base plates 13, and the first reciprocating assembly 51 and the second reciprocating assembly 52 are respectively composed of a motor 53, a mounting plate 54, a rotating disc 55, a sliding rail 56, a sliding block 57, a connecting rod 58, a supporting rod 59 and a brush 50;

the mounting plate 54 is rectangular, the motor 53 is fixed on the mounting plate 54 through a screw, the main shaft of the motor 53 penetrates through the mounting plate 54, the turntable 55 is mounted on the main shaft of the motor 53, the slide rail 56 is arranged on the mounting plate 54 and positioned on the same side of the turntable 55, the slide rail 56 is arranged at a fixed inclination angle, the inclination angle is smaller than the inclination angle of the vibration component 4 from the horizontal plane, the slide block 57 can be slidably arranged on the slide rail 56, one end of the connecting rod 58 is rotatably connected with the eccentric part on the front side of the turntable 55, the other end of the connecting rod 58 is rotatably connected with the slide block, the effect of pulling the slide block 57 and the hairbrush 50 can be achieved, the upper end of the supporting rod 59 is fixedly connected with the slide block 57, and the lower end of the supporting rod 59 is connected with the hairbrush 50 through a bolt;

slide rail 56 is the long strip of T shape, and the slider 57 installation of being convenient for, and slide rail 56 is fixed inclination and sets up, and inclination is less than the angle of vibration subassembly 4 apart from the horizontal plane slope, can make slider 57 below brush 50 be close the vibration panel in the vibration subassembly 4 gradually to reach and make the clean vibration panel of brush 50, and let explode the pearl and return vibration subassembly 4 middle part, reach reciprocal screening and explode the effect of pearl.

A T-shaped groove is formed below the sliding block 57 corresponding to the mounting position of the sliding rail 56, so that the sliding block 57 is convenient to mount, the sliding block 57 is prevented from falling off, the sliding block 57 can reciprocate, a supporting rod 59 is arranged on the side of the sliding block 57 and is connected with the brush 50 through a bolt, and the inclination angle of the brush 50 can be adjusted according to needs;

the length of the brush 50 is the same as the width of the box body 1, a plurality of fine bristles are arranged below the brush 50 and can clean the surface of a vibrating plate, and a certain vertical distance is reserved between the bottom of the brush 50 and the waste discharging end of the vibrating plate, so that waste can move out of the vibrating component 4 and enter the waste bin 6;

when the motor 53 works, the connecting rod 58 on the rotating disc 55 is driven to reciprocate, and meanwhile, the sliding block 57 on the sliding rail 56 and the brush 50 connected with the sliding block 57 can reciprocate along the guiding of the sliding rail 56;

the sloping plate 14 is positioned below the upper vibration assembly 41, is fixedly connected with the box body 1, and inclines a certain angle with the horizontal plane, so that part of the blasting beads which pass through the upper vibration assembly 41 and fall on the sloping plate 14 can smoothly enter the lower vibration assembly 42 for secondary screening;

when the device is used, the blasting beads needing to be screened are poured into the inclined plane type feeding hole 11, the blasting beads fall into the upper vibrating assembly 41, the blasting beads vibrate and move along the upper vibrating assembly 41 towards the lower right side, part of the proper blasting beads can pass through the small holes in the vibrating panel and directly fall into the lower vibrating assembly 42 for secondary screening, some blasting beads can fall into the inclined plate 14 and roll along the inclined plate 14 to fall into the lower vibrating assembly 42, the qualified blasting beads mixed in the waste materials and not passing through the small holes in the vibrating panel can be pushed back to the middle of the upper vibrating assembly 41 by the brush 50 on the reciprocating assembly I51 for secondary screening, the brush 50 can effectively clean the blasting beads blocked in the small holes in the vibrating panel in the moving process, the upper vibrating assembly 41 normally works, the finally blasting beads can enter the first waste material bin 61 along the waste material outlet end where the upper vibrating assembly is not suitable, the diameter of the small holes in the lower vibrating panel is the same as the diameter of the qualified blasting beads passing through the small holes in the lower vibrating assembly 42 after the repeated screening in the same manner as the upper vibrating assembly 41, and the waste material passes through the repeated screening device 62, and the waste material passing through the repeated screening of the secondary screening device for screening for a plurality of unqualified blasting beads.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. The utility model provides an explode pearl vibration screening device, a serial communication port, the power distribution box comprises a box body (1), be provided with inclined plane formula feed inlet (11) on box (1), be provided with vibration subassembly (4) in box (1), still be equipped with reciprocal subassembly (5) that correspond vibration subassembly (4) waste material discharge end in box (1), reciprocal subassembly (5) are to shaking the pearl that explodes that the structure tentatively screened and carry out screening once more, the position that box (1) corresponds vibration subassembly (4) is equipped with chute (2), the opposite side of box (1) is equipped with the logical groove (3) of a plurality of rectangle, the position that corresponds the logical groove (3) of rectangle is equipped with waste material storehouse (6) and receipts feed bin (7) respectively.

2. A bead blasting vibration screening device according to claim 1, wherein the rectangular through groove (3) is divided into a first rectangular through groove (31), a second rectangular through groove (32) and a third rectangular through groove (33), the chute (2) is divided into a first chute (21) and a second chute (22), the first chute (21) and the second chute (22) are arranged corresponding to the first rectangular through groove (31) and the second rectangular through groove (32), four limiting rods (12) are arranged below the first rectangular through groove (31) and the second rectangular through groove (32) and inside the box body (1), and a base plate (13) is arranged in the middle and above the inside of the box body (1).

3. A bead blasting vibration screening device according to claim 2, wherein the vibration assembly (4) comprises an upper vibration assembly (41) and a lower vibration assembly (42) which are identical in structure, a plurality of small holes are formed in vibration panels in the upper vibration assembly (41) and the lower vibration assembly (42), a vibration assembly handle (43) is arranged on the left sides of the upper vibration assembly (41) and the lower vibration assembly (42), the upper vibration assembly (41) is located at a first chute (21) and forms a certain angle with the horizontal plane, the diameter of the small hole in the inner vibration panel of the upper vibration assembly (41) is slightly larger than the diameter of the qualified bead blasting, the lower vibration assembly (42) is located at a second chute (22) and is parallel to the upper vibration assembly (41), and the diameter of the small hole in the inner vibration panel of the lower vibration assembly (42) is identical to the diameter of the qualified bead blasting required to be screened.

4. The bead blasting vibration screening device according to claim 3, wherein the waste bin (6) comprises a first waste bin (61) and a second waste bin (62), the first waste bin (61) and the second waste bin (62) are both rectangular hollow structures, the first waste bin (61) and the second waste bin (62) are connected with a waste bin handle (63) on the outer side wall of the machine case, the first waste bin (61) is inserted in the rectangular through groove I (31), the feed inlet of the first waste bin (61) is in butt joint with the waste discharge end of the upper vibration assembly (41), the second waste bin (62) is inserted in the rectangular through groove II (32), the feed inlet of the second waste bin (62) is in butt joint with the waste discharge end of the lower vibration assembly (42), the receiving bin (7) is in a rectangular hollow structure, an inclined plane is arranged above the inner wall, the right end of the receiving bin (7) is connected with the receiving bin (33) through a rectangular through inclined plate below the right side wall of the box (1), and the receiving bin (7) is connected with the box (1) at an inclined angle, and the inclined plane is arranged above the box (14).

5. A vibrating screening device for exploding beads according to claim 1, wherein the reciprocating assembly (5) comprises a first reciprocating assembly (51) and a second reciprocating assembly (52), the first reciprocating component (51) and the second reciprocating component (52) are respectively composed of a motor (53), a mounting plate (54), a turntable (55), a slide rail (56), a slide block (57), a connecting rod (58), a support rod (59) and a brush (50), the mounting plate (54) is rectangular, the motor (53) is fixed on the mounting plate (54) through screws, the main shaft of the motor (53) penetrates through the mounting plate (54), the turntable (55) is mounted on the main shaft of the motor (53), the slide rail (56) is arranged on the mounting plate (54) and is positioned at the same side of the turntable (55), the slide rail (56) is arranged at a fixed inclined angle, the inclined angle of the slide rail (56) is smaller than the inclined angle of the vibration component (4) from the horizontal plane, the sliding block (57) is arranged on the sliding rail (56) in a sliding way, one end of the connecting rod (58) is rotationally connected with the eccentric part at the front side of the turntable (55), the other end of the connecting rod (58) is rotationally connected with the sliding block (57), the upper end of the supporting rod (59) is fixedly connected with the sliding block (57), and the lower end of the supporting rod is connected with the brush (50) through a bolt.

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