Bead collection apparatus

Abstract

The present disclosure relates to the field of automatic bead collection technologies and discloses an efficient bead collection apparatus simple and convenient to operate, including a main body (100), a driving assembly (700), a rotating assembly (300), and a bead stringing assembly (500), where the driving assembly (700) acts to drive the rotating assembly (300) to rotate, and blade assemblies (310b, 320b) cyclically rotate/disperse beads (800) in the rotating assembly (300), such that the beads (800) fall into the bead stringing assembly (500) by gravity.

Claims

1. A bead collection apparatus, comprising: a main body; a driving assembly fixed to the main body and configured to output a rotating torque; a rotating assembly provided with an opening in one end and configured to place beads to be collected, wherein one end of an axis of the opening of the rotating assembly is rotatably connected to the driving assembly, and a plurality of blade assemblies are radially arranged in the rotating assembly; a bead stringing assembly with one end extending into the rotating assembly through the opening; wherein the driving assembly acts to drive the rotating assembly to rotate, and the blade assemblies cyclically rotate/disperse the beads in the rotating assembly, such that the beads fall into the bead stringing assembly by gravity; wherein the rotating assembly comprises a first inner disc and a second inner disc.

2. The bead collection apparatus according to claim 1, wherein an inclination of the rotating assembly is set to 10-20?.

3. The bead collection apparatus according to claim 1, wherein the first inner disc and the second inner disc are detachably arranged.

4. The bead collection apparatus according to claim 1, wherein a connecting hole is provided in a rear end surface of the first inner disc, and a rotating shaft of the driving assembly is embedded into the connecting hole of the first inner disc and is capable of being in transmission connection with the first inner disc.

5. The bead collection apparatus according to claim 1, wherein a plurality of first blades are radially arranged in the first inner disc, and a plurality of second blades corresponding to the first blades are radially arranged in the second inner disc.

6. The bead collection apparatus according to claim 5, wherein grooves are provided in upper end surfaces of the first blades, convex ribs are arranged on upper end surfaces of the second blades, and when the first inner disc is matched with the second inner disc, the convex ribs on the second blades are embedded into the grooves of the first blades.

7. The bead collection apparatus according to claim 1, wherein one end of the bead stringing assembly is arranged in an upper end of the rotating assembly in a suspended manner.

8. The bead collection apparatus according to claim 7, wherein the bead stringing assembly has one end in a bent shape and the other end in a Z shape.

9. The bead collection apparatus according to claim 8, further comprising a base, wherein a fixing slot is provided in an upper end surface of the base, and the Z-shaped end of the bead stringing assembly is fixed in the fixing slot of the base.

10. The bead collection apparatus according to claim 7, wherein the main body comprises a first housing and a second housing that are of a hollow structure, and an open end of the first housing is matched with an open end of the second housing.

11. The bead collection apparatus according to claim 10, further comprising an outer disc body that is of a hollow structure, wherein the rotating assembly is arranged in the outer disc body.

12. The bead collection apparatus according to claim 11, wherein an inner wall of the outer disc body is spaced apart from an outer wall of the rotating assembly, and the rotating assembly is rotatable relative to the outer disc body.

13. The bead collection apparatus according to claim 12, wherein the outer disc body comprises a first outer disc and a second outer disc, and the first outer disc and the second outer disc are detachably arranged.

14. The bead collection apparatus according to claim 13, wherein a connecting end surface is arranged at an upper end of the second housing, and the connecting end surface is fixedly matched with an outer end surface of the first outer disc.

15. The bead collection apparatus according to claim 14, wherein the driving assembly is arranged on an inner side of the connecting end surface of the second housing through a fixing part.

16. The bead collection apparatus according to claim 15, wherein the rotating shaft of the driving assembly is embedded into the connecting hole of the first inner disc through a through hole of the connecting end surface and a through hole of the first outer disc.

17. The bead collection apparatus according to claim 12, wherein the outer disc body comprises a first outer disc and a second outer disc.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) The present disclosure is further described below with reference to the accompanying drawings and embodiments. In the drawings:

(2) FIG. 1 is a schematic three-dimensional view of an embodiment of a bead collection apparatus provided by the present disclosure;

(3) FIG. 2 is an exploded view of an embodiment of a bead collection apparatus provided by the present disclosure;

(4) FIG. 3 is another exploded view of an embodiment of a bead collection apparatus provided by the present disclosure;

(5) FIG. 4 is a sectional view of an embodiment of a bead collection apparatus provided by the present disclosure;

(6) FIG. 5 is a schematic three-dimensional view of an embodiment of a rotating assembly provided by the present disclosure;

(7) FIG. 6 is a schematic exploded view of an embodiment of a rotating assembly and a driving assembly provided by the present disclosure;

(8) FIG. 7 is a schematic three-dimensional view of an embodiment of a base provided by the present disclosure;

(9) FIG. 8 is a schematic three-dimensional view of an embodiment of a bead stringing assembly and a fixing part provided by the present disclosure;

(10) FIG. 9 is a schematic three-dimensional view of an embodiment of a bead stringing assembly provided by the present disclosure;

(11) FIG. 10 is a schematic three-dimensional view of an embodiment of a first inner disc provided by the present disclosure;

(12) FIG. 11 is a schematic three-dimensional view of an embodiment of a second inner disc provided by the present disclosure:

(13) FIG. 12 is a schematic enlarged view of A in FIG. 8; and

(14) FIG. 13 is a schematic enlarged view of B in FIG. 9.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(15) To understand the technical features, objective, and effects of the present disclosure more clearly, specific embodiments of the present disclosure are now described in detail with reference to the accompanying drawings.

(16) As shown in FIG. 1 to FIG. 4, in a first embodiment of a bead collection apparatus according to the present disclosure, the bead collection apparatus 10 includes a main body 100, an outer disc body 200, a rotating assembly 300, a base 400, a bead stringing assembly 500, a fixing part 600, and a driving assembly 700.

(17) The main body 100 is formed into a hollow structure and is configured to bear the outer disc body 200, the rotating assembly 300, the fixing part 600, and the driving assembly 700.

(18) The outer disc body 200 is formed into a circular structure with an opening in one end, is fixed to an upper part of the main body 100, and is configured to place the rotating assembly 300.

(19) The rotating assembly 300 is formed into a circular structure with an opening in one end and is configured to place beads 800 to be collected.

(20) The bead stringing assembly 500 is of a cylindrical structure and is configured to collect the beads 800 in the rotating assembly 300.

(21) The fixing part 600 is a cylinder of a penetration structure 610, is fixed in the main body 100, and is configured to fix the driving assembly 700.

(22) The driving assembly 700 is configured to provide a rotating torque to drive the rotating assembly 300 to rotate.

(23) At least one through hole for the bead stringing assembly 500 to penetrate through is provided in a periphery or middle of each bead 800.

(24) Specifically, the main body 100 is configured to bear or place the outer disc body 200, the rotating assembly 300, the fixing part 600, and the driving assembly 700.

(25) The driving assembly 700 is fixed to the main body 100 and configured to output the rotating torque.

(26) The driving assembly 700 may be a motor.

(27) Further, as shown in FIG. 5, the rotating assembly 300 is provided with the opening 300a in one end and configured to place the beads 800 to be collected, where one end of an axis of the opening 300a of the rotating assembly 300 is rotatably connected to the driving assembly 700, and the driving assembly 700 rotates to drive the rotating assembly 300 to rotate.

(28) As shown in FIG. 4, a plurality of blade assemblies (310b and 320b) are radially arranged in the rotating assembly 300. where there are at least six or more blade assemblies (310b and 320b) arranged equidistantly or non-equidistantly.

(29) As shown in FIG. 4, one end of the bead stringing assembly 500 extends into the rotating assembly 300 through the opening 300a.

(30) Specifically, the plurality of beads 800 are placed into the rotating assembly 300; when power is on, the driving assembly 700 acts to drive the rotating assembly 300 to rotate (clockwise/counterclockwise), and the blade assemblies (310b and 320b) rotate with the rotating assembly 300, such that the beads 800 in the rotating assembly 300 are cyclically rotated/dispersed; and when the beads 800 are brought to a high point by the blade assemblies (310b and 320b), the beads 800 fall by gravity and are randomly strung into the bead stringing assembly 500.

(31) With this technical solution, when the driving assembly 700 rotates, the rotating assembly 300 is driven to rotate, and the blade assemblies (310b and 320b) cyclically rotate the beads 800, such that the beads 800 may fall into the bead stringing assembly 500 by gravity, thereby improving the bead collection efficiency to a certain extent, and implementing faster and more convenient collection of the beads. There is no need for too much manual operation during bead collection, which can free the hands to the greatest extent.

(32) In some embodiments, as shown in FIG. 4, in order to collect the beads more quickly and conveniently, an inclination of the rotating assembly 300 is set to 10-20?. The driving assembly 700 drives the rotating assembly 300 to rotate, such that the beads 800 fall into the bead stringing assembly 500 by gravity.

(33) In some embodiments, as shown in FIG. 2, FIG. 3, FIG. 6, FIG. 10, and FIG. 11, in order to improve the convenience of assembly, the rotating assembly 300 may include a first inner disc 310 and a second inner disc 320, where the first inner disc 310 is set to be of a structure 310a with an opening in one end, the second inner disc 320 is set to be of a penetration structure 320a, the opening structure 310a of the first inner disc 310 is matched with the penetration structure 320a of the second inner disc 320, and the first inner disc and the second inner disc are detachably arranged.

(34) In some embodiments, as shown in FIG. 6, in order to improve the reliability of connection between the first inner disc 310 and the driving assembly 700, a connecting hole 310f may be provided in a bulge 310d on a rear end surface of the first inner disc 310, and a rotating shaft 720 of the driving assembly 700 is embedded into the connecting hole 310f of the first inner disc 310 and is capable of being in transmission connection with the first inner disc 310.

(35) In some embodiments, as shown in FIG. 10 and FIG. 11, a plurality of first blades 310b are radially arranged in the first inner disc 310, a plurality of second blades 320b corresponding to the first blades 310b are radially arranged in the second inner disc 320, and when the first inner disc 310 is matched with the second inner disc 320, the first blades 310b are correspondingly matched with the second inner disc 320.

(36) In some embodiments, as shown in FIG. 10 to FIG. 13, grooves 310c are provided in upper end surfaces of the first blades 310b, convex ribs 320c corresponding to the grooves 310c are arranged on upper end surfaces of the second blades 320b, and when the first inner disc 310 is matched with the second inner disc 320, the convex ribs 320c on the second blades 320b are embedded into the grooves 310c of the first blades 310b, such that the first inner disc 310 is matched with the second inner disc 320 more stably, thereby improving its reliability of operation.

(37) In some embodiments, as shown in FIG. 4, one end of the bead stringing assembly 500 is arranged in an upper end of the rotating assembly 300 in a suspended manner.

(38) In some embodiments, as shown in FIG. 8 and FIG. 9, the bead stringing assembly 500 has one end in a bent shape and the other end in a Z shape, where the bent end of the bead stringing assembly 500 is placed in the rotating assembly 300.

(39) In some embodiments, as shown in FIG. 4, the apparatus further includes a base 400, where a fixing slot 400a is provided in an upper end surface of the base 400, a plurality of silica gel anti-slip pads 400b are mounted at a bottom of the base 400, the silica gel anti-slip pads 400b and the base 400 are detachably arranged, and the placement stability of the base 400 is improved through the silica gel anti-slip pads 400b.

(40) As shown in FIG. 7, further, a first fixing part 400c and a second fixing part 400d are arranged in the fixing slot 400a.

(41) As shown in FIG. 8, each of the first fixing part 400c and the second fixing part 400d is provided with an opening 400e.

(42) The Z-shaped end 500b of the bead stringing assembly 500 is fixed in the openings 400e of the first fixing part 400c and the second fixing part 400d in the fixing slot 400a of the base 400. The Z-shaped end 500b of the bead stringing assembly 500 is clamped by the openings 400e of the first fixing part 400c and the second fixing part 400d, thereby improving the stability of the bead stringing assembly 500. Moreover, the beads 800 strung into the bead stringing assembly 500 may be limited by the fixing slot 400a.

(43) In some embodiments, as shown in FIG. 2 and FIG. 3, the main body 100 includes a first housing 110 and a second housing 120 that are of a hollow structure, and an open end 110a of the first housing 110 is matched with an open end 120a of the second housing 120 to form the hollow structure for placing the fixing part 600 and the driving assembly 700.

(44) A first connecting rod 110b is arranged in the first housing 110, a second connecting rod 120d corresponding to the first connecting rod 110b is arranged in the second housing 120, and the first connecting rod 110b and the second connecting rod 120d are fixed by a lead screw, such that the first housing 110 is fixedly matched with the second housing 120.

(45) In some embodiments, as shown in FIG. 3, in order to improve the operating reliability of the apparatus, the outer disc body 200 may be arranged in the apparatus. The outer disc body 200 is of a hollow structure (210b and 220b), and the rotating assembly 300 is arranged in the outer disc body 200.

(46) An inner wall of the outer disc body 200 is spaced apart from an outer wall of the rotating assembly 300 by a gap of at least 2-5 mm.

(47) The rotating assembly 300 is rotatable relative to the outer disc body 200.

(48) Specifically, the outer disc body 200 is fixed to the main body 100, and the rotating assembly 300 is embedded into the outer disc body 200. When the driving assembly 700 rotates, the outer disc body 200 remains stationary, and the rotating assembly 300 rotates. When the apparatus operates, the influence of the outer disc body 200 on people around is avoided, thereby improving the operating safety of the apparatus.

(49) In some embodiments, as shown in FIG. 3, the outer disc body 200 includes a first outer disc 210 and a second outer disc 220, where the first outer disc 210 and the second outer disc 220 are detachably arranged, and the second outer disc 220 is set to be of a penetration structure 220a.

(50) In some embodiments, as shown in FIG. 3, a connecting end surface 120b is arranged at an upper end of the second housing 120 and is fixedly matched with an outer end surface of the first outer disc 210.

(51) A fixing column 210b is arranged on an attaching surface between the second outer disc 220 and the connecting end surface 120b. During matching, the fixing column 210b on the second outer disc 220 penetrates through a corresponding through hole 120e and then is fixed by a lead screw.

(52) In some embodiments, as shown in FIG. 3, one end 710 of the driving assembly 700 is arranged on an inner side of the connecting end surface 120b of the second housing 120 through an opening 610 of the fixing part 600.

(53) In some embodiments, as shown in FIG. 3 and FIG. 6, the rotating shaft 720 of the driving assembly 700 is embedded into the connecting hole 310f of the first inner disc 310 through a through hole 120c of the connecting end surface 120b and a through hole 210c of the first outer disc 210.

(54) A connecting lug 730 is arranged on a periphery of the driving assembly 700, a connecting lug 620 is arranged on a periphery of the fixing part 600, one end 710 of the driving assembly 700 is embedded into the fixing part 600, and then a lead screw is used to penetrate through the connecting lug 730 and the connecting lug 620, such that the driving assembly 700 is fixed in the fixing part 600.

(55) The embodiments of the present disclosure have been described above in conjunction with the accompanying drawings, but the present disclosure is not limited to the above specific embodiments. The above specific embodiments are only schematic and not restrictive. Under the inspiration of the present disclosure, those of ordinary skill in the art may also make many forms without departing from the scope of protection of the objective and claims of the present disclosure, all of which fall within the scope of protection of the present disclosure.