CN210585784U - Water bores finished product classifying screen - Google Patents

Abstract

The utility model discloses a water bores finished product classifying screen belongs to water and bores production facility technical field. The vibrating plate comprises a frame, a vertical vibrating plate, a horizontal vibrating plate and a hierarchical structure; the hierarchical structure comprises a plurality of sub-sieve trays, a top plate, three flange fixing plates and a bolt, wherein the flange fixing plates are arranged along the vertical direction, the lower ends of the flange fixing plates are fixed on the horizontal vibrating plate, the top plate is horizontally arranged and fixed on the top end of the flange fixing plate, and the bolt is arranged along the vertical direction and penetrates through the top plate, and the lower ends of the bolt are inserted on the horizontal vibrating plate; the screening trays are horizontally arranged, and the top ends of the screening trays are outwards convexly provided with flanges; the plurality of screening trays are arranged side by side from top to bottom, and the screening holes on the screening trays are gradually reduced; a feed inlet is formed in the top plate and is positioned right above the screening disc; the three flange fixing plates and the bolt are arranged around the sieving plate in a cross shape, and a plurality of notches matched with the flanges are arranged on the inner sides of the flange fixing plates from top to bottom; the flanges are inserted into the corresponding notches, and the inner sides of the latches abut against the flanges.

Description

Water bores finished product classifying screen

Technical Field

The utility model belongs to the technical field of water bores production facility, in particular to water bores finished product classifying screen has convenient operation, divides the sieve degree of freedom height and can carry out advantages such as multiunit screening simultaneously.

Background

Rhinestones are popular because they are economical and have a diamond-like visual impression. The glass bead is generally obtained by grinding and polishing glass beads, the glass beads are bonded to a clamp through adhesives such as rosin in the processing process, and the glass beads are separated after the processing is finished. In the processing process, rosin, engine oil, dust and fine powder generated by grinding and polishing are likely to be adhered to the surface of the rhinestone blank, so that not only is the subsequent processing influenced, but also the surface smoothness of the rhinestone blank is influenced.

In the water bores processing, can lead to the water to bore not of uniform size or appear garrulous brill, need sort the water brill before dispatching from the factory. The usual method employs a vibrating screen for sorting. The patent for application number CN2017216039778 discloses a sieve rig, including the support frame, install at the quick-witted case on support frame upper portion, set up at the feed inlet on quick-witted case one end upper portion and set up the discharge gate in quick-witted case other end lower part, machine incasement portion is provided with the screen cloth, vibrating motor is installed to quick-witted case lower part, the inside baffle that is provided with of screen cloth, the baffle is separated into a plurality of sieve drill units that the size equals and mutually independent detachable along vertical direction with the screen cloth, and each sieve drill unit is inside to be provided with the hypotenuse and to curved first baffle and second baffle, first baffle is the same with second baffle size shape, and crisscross the setting, and first baffle, second baffle are the cockscomb structure and distribute.

The screen drilling machine is mainly used for screening the rhinestone blanks, and has the defects that the aperture of a screen mesh cannot be flexibly adjusted, only one group of products can be screened at a time, the unloading is complex and the like.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the embodiment of the utility model provides a grading sieve for finished rhinestone products, which can select and combine grading disks with different sieve pore sizes according to the actual situation, and has flexible sieving; meanwhile, a plurality of groups of hierarchical structures can be screened simultaneously; simple operation only needs the operation bolt can install and dismantle the branch sieve tray, and the water that directly will divide in the sieve tray when unloading bores and pours out can. The technical scheme is as follows:

the embodiment of the utility model provides a water bores finished product classifying screen, including frame 1, the vertical vibrating plate 2 directly over frame 1, the horizontal vibrating plate 3 directly over vertical vibrating plate 2 and at least a set of hierarchical structure 4 on the horizontal vibrating plate 3, vertical vibrating plate 2 and horizontal vibrating plate 3 all level and set up, be equipped with the vertical vibration structure that makes it vibrate in vertical direction between vertical vibrating plate 2 and the frame 1, be equipped with the horizontal vibration structure that makes it vibrate in the horizontal direction between horizontal vibrating plate 3 and vertical vibrating plate 2; the hierarchical structure 4 comprises a plurality of sub-sieve trays 5, a top plate 6, three flange fixing plates 7 and a bolt 8, wherein the flange fixing plates 7 are arranged in the vertical direction, the lower ends of the flange fixing plates 7 are fixed on the horizontal vibrating plate 3, the top plate 6 is horizontally arranged and fixed on the top end of the flange fixing plates 7, and the bolt 8 is arranged in the vertical direction, penetrates through the top plate 6 and is inserted into the horizontal vibrating plate 3 at the lower end; the screening disc 5 is horizontally arranged and is circular, the top end of the screening disc is provided with a flange 9 in an outward protruding mode, and the bottom of the screening disc is uniformly provided with screening holes 10; the plurality of screening trays 5 are arranged side by side from top to bottom, and the screen holes 10 on the screening trays are gradually reduced; a feed inlet 11 is formed in the top plate 6 and is positioned right above the screening disc 5; the three flange fixing plates 7 and the bolt 8 are arranged around the sieving plate 5 in a cross shape, and a plurality of notches 12 matched with the flanges 9 are formed in the inner sides of the flange fixing plates 7 from top to bottom; the flange 9 is embedded into the corresponding notch 12, and the inner side of the bolt 8 is abutted against the flange 9, so that the sieving disc 5 is fixed.

Wherein, the embodiment of the utility model provides a frame 1, vertical vibration board 2 and horizontal vibration board 3 all along controlling to setting up, bolt 8 top is leaned on the flange 9 of minute sieve tray 5 front side, and three flange fixed plates 7 are located left side, right side and the rear side of minute sieve tray 5 respectively, two flange fixed plates 7 of minute sieve tray 5 left and right sides set up with its centre of a circle bilateral symmetry, divide a bolt 8 of sieve tray 5 front side and a flange fixed plate 7 of rear side with its centre of a circle longitudinal symmetry setting.

Wherein, the embodiment of the utility model provides an in the embodiment of multiunit hierarchical structure 4 about set up side by side and quantity be 3-6 groups, roof 6 is shared to multiunit hierarchical structure 4, adjacent two sets of hierarchical structure 4 share a flange fixed plate 7, and the left and right sides of a flange fixed plate 7 of sharing all is equipped with breach 12.

Wherein, the embodiment of the utility model provides an in feed inlet 11 for with divide the round hole of 5 coaxial settings of sieve tray and its diameter be less than the diameter on 5 tops of sieve tray.

Wherein, in the same component hierarchical structure 4 of the embodiment of the utility model, the quantity of dividing sieve tray 5 is 5-10, and a plurality of 5 coaxial settings of branch sieve tray and adjacent two have the interval between the sieve tray 5, and the breach 12 that is used for fixed one to divide sieve tray 5 on three flange fixing plate 7 is located same horizontal plane.

Preferably, the diameter of the screening plate 5 in the embodiment of the present invention is gradually reduced from top to bottom; the flange 9 is horizontally arranged, and correspondingly, the notch 12 is a rectangular notch which is horizontally arranged and can be embedded into the flange 9.

Wherein, the sieve pore 10 in the embodiment of the present invention is circular.

Wherein, the embodiment of the utility model provides an in the vertical vibration structure including locate vertical vibrating motor 13 in frame 1, around along to rotate two drive shafts of locating the frame 1 left and right sides and two vertical eccentric wheels 14 at both ends around the drive shaft, one of them drive shaft is connected with the transmission of vertical vibrating motor 13, the downside of vertical vibration board 2 and vertical eccentric wheel 14's upside fixed connection.

Wherein, the embodiment of the utility model provides a horizontal vibration structure includes along vertical direction fix at the horizontal vibration motor 15 of vertical vibration board 2 downside and a plurality of horizontal eccentric wheelset 16 between vertical vibration board 2 and the horizontal vibration board 3, horizontal eccentric wheelset 16 sets up along vertical direction, horizontal vibration motor 15 is connected with 16 transmissions of one of them horizontal eccentric wheelset.

Furthermore, in the embodiment of the present invention, the horizontal vibrating plate 3 is provided with a jack block 17, and the jack block 17 is provided with a jack for inserting the plug pin 8; the top end of the bolt 8 is coaxially provided with an expansion part 18 and is positioned above the top plate 6 or is propped against the upper side of the top plate 6, and the lower end of the bolt is inserted into the jack.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the embodiment of the utility model provides a rhinestone finished product classifying screen, which can select classifying screen discs with different screen hole sizes to combine according to actual conditions, and the screening is flexible; meanwhile, a plurality of groups of hierarchical structures can be screened simultaneously; simple operation only needs the operation bolt can install and dismantle the branch sieve tray, and the water that directly will divide in the sieve tray when unloading bores and pours out can.

Drawings

Fig. 1 is a schematic structural view of a finished rhinestone classifying screen provided by an embodiment of the present invention;

FIG. 2 is a top view of a finished screen for a rhinestone;

fig. 3 is a schematic structural view of the sieving disc.

In the figure: the device comprises a frame 1, a vertical vibrating plate 2, a horizontal vibrating plate 3, a hierarchical structure 4, a sieve tray 5, a top plate 6, a flange fixing plate 7, a bolt 8, a flange 9, a sieve hole 10, a feed inlet 11, a gap 12, a vertical vibrating motor 13, a vertical eccentric wheel 14, a horizontal vibrating motor 15, a horizontal eccentric wheel set 16, a hole inserting block 17 and an expansion part 18.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-3, the embodiment of the utility model provides a water bores finished product classifying screen, including frame 1, vertical vibrating plate 2 directly over frame 1, the horizontal vibration board 3 directly over vertical vibrating plate 2 and the at least a set of hierarchical structure 4 on the horizontal vibration board 3 etc.. Wherein, vertical vibration board 2 sets up with the homolevel of horizontal vibration board 3, is equipped with the vertical vibration structure that makes vertical vibration board 2 vibrate in the vertical direction between vertical vibration board 2 and the frame 1, is equipped with the horizontal vibration structure that makes horizontal vibration board 3 vibrate in the horizontal direction between horizontal vibration board 3 and the vertical vibration board 2. Wherein, hierarchical structure 4 includes a plurality of branch sieve trays 5, a roof 6, three flange fixing plate 7 and a bolt 8 etc, flange fixing plate 7 sets up and its lower extreme is fixed on horizontal vibrating plate 3 along vertical direction, roof 6 sets up and fixes on flange fixing plate 7's top (be located the top of one branch sieve tray 5 of topmost) along the level, bolt 8 sets up and its lower extreme inserts on horizontal vibrating plate 3 after passing roof 6 (be equipped with the through-hole along vertical direction on it) along vertical direction. The screening tray 5 is horizontally arranged, is of a circular disc structure, requires a certain depth (preferably more than 3 cm) to prevent the rhinestone from being vibrated out, is provided with a flange 9 protruding outwards at the top end for being fixed with a flange fixing plate 7, and is uniformly distributed with screen holes 10 at the bottom (the top end is open). The plurality of sub-sieve trays 5 are arranged side by side from top to bottom and the sieve holes 10 on the sub-sieve trays are gradually reduced from top to bottom. A feed inlet 11 is arranged on the top plate 6 and right above the screening trays 5 (the topmost end) and is used for adding rhinestones into the topmost screening tray 5. Three flange fixing plates 7 and a bolt 8 are arranged around the sub-sieve tray 5 in a cross shape so as to facilitate the fixing and the separation of the sub-sieve tray 5. The inner side of the flange fixing plate 7 is provided with a plurality of notches 12 (inward openings) matched with the flange 9 from top to bottom, and the notches 12 are larger than the flange 9; the flange 9 engages in a corresponding recess 12, and the inner side of the bolt 8 rests against the flange 9, so that the screening disk 5 is fixed. Further, the lowermost screening tray 5 may be provided without the screen holes 10 or with very small openings 10 (e.g., all rhinestones cannot pass through).

Wherein, see fig. 1 and 2, frame 1 in the embodiment of the utility model, vertical vibration board 2 and horizontal vibration board 3 are all along controlling to setting up, bolt 8 pushes up and leans on the flange 9 that divides screen tray 5 front side, three flange fixing plates 7 (same hierarchical structure) are located the left side of dividing screen tray 5 respectively, right side and rear side (divide screen tray 5 rear side, left side and right side flange 9 imbed respectively in the breach 12 that corresponds the side), divide two flange fixing plates 7 of screen tray 5 left and right sides to set up with the centre of a circle bilateral symmetry that divides screen tray 5, divide a bolt 8 of screen tray 5 front side and a flange fixing plate 7 of rear side to set up with the centre of a circle longitudinal symmetry that divides screen tray 5. Specifically, the flange fixing plate 7 is a rectangular plate, the flange fixing plates 7 on the left and right sides are disposed in the left-right direction (the notch 12 is disposed on the left side or/and the right side thereof), and the flange fixing plate 7 on the rear side is disposed in the front-rear direction (the notch 12 is disposed on the front side thereof). The plug 8 in this embodiment is a round rod. In this patent, after the latch 8 is pulled out, the sifting tray 5 is pulled out forward to discharge (generally, poured into a cloth bag).

Wherein, see 1-3, the embodiment of the present invention provides a multi-group hierarchical structure 4 which is arranged side by side and the number of which is 3-6 groups (4 groups in this embodiment), a top plate 6 shared by the multi-group hierarchical structure 4, a flange fixing plate 7 shared by two adjacent groups of hierarchical structures 4 (left and right), and notches 12 are disposed on the left and right sides of the shared flange fixing plate 7. Specifically, 9 flange fixing plates 7 are used for 4 groups (5 left and right directions (3 in common) and 4 front and rear directions).

Wherein, referring to fig. 2, the feed inlet 11 in the embodiment of the present invention is a circular hole coaxially disposed with the sieving plate 5, and the diameter of the circular hole is smaller than the (open) diameter at the top end of the sieving plate 5 so as to facilitate feeding.

Wherein, referring to fig. 1, in the same group hierarchical structure 4 of the embodiment of the present invention, the number of the sub-sieve trays 5 is 5-10 (7 in this embodiment, correspondingly, 7 gaps 12 are provided on the flange fixing plate 7), a plurality of sub-sieve trays 5 are coaxially arranged, and two adjacent sub-sieve trays 5 have a space therebetween so as to be pulled out, and the gaps 12 for fixing one sub-sieve tray 5 on the three flange fixing plates 7 are located on the same horizontal plane. In the patent, the number of the screening trays 5 in each component hierarchical structure 4 may be equal or unequal; the size of the screen holes 10 of the screening plate 5 is selected according to the actual situation.

Preferably, referring to fig. 1, the diameter of the screening tray 5 in the embodiment of the present invention is gradually reduced from top to bottom (tapered), which not only facilitates discharging (pouring) but also prevents the water drill from being shaken out. The flange 9 is horizontally arranged, and correspondingly, the notch 12 is a rectangular notch which is horizontally arranged and can be embedded into the flange 9.

Referring to fig. 2 and 3, the sieve holes 10 in the embodiment of the present invention are circular, but may be regular polygons as needed.

Wherein, referring to fig. 1, the vertical vibration structure in the embodiment of the present invention includes a vertical vibration motor 13 disposed on the frame 1, two driving shafts disposed on the left and right sides of the frame 1 along the front and back direction rotation (through the bearing seat) and two vertical eccentric wheels 14 disposed on the front and back ends of the driving shafts, the vertical eccentric wheel 14 (rotating shaft) is disposed along the front and back direction, one of the driving shafts (such as the left side) is in transmission connection with the vertical vibration motor 13 (such as a chain or a belt), and the lower side of the vertical vibration plate 2 is fixedly connected with the upper side of the vertical eccentric wheel 14. Of course, in another embodiment of this patent, the vertical vibrating plate 2 may be driven to rock up and down by the vibration of the horizontal vibrating structure without the vertical vibrating motor 13.

Among them, referring to fig. 1, the horizontal vibration structure in the embodiment of the present invention includes a horizontal vibration motor 15 fixed at the lower side (middle portion) of the vertical vibration plate 2 along the vertical direction and a plurality of horizontal eccentric wheel sets 16 between the vertical vibration plate 2 and the horizontal vibration plate 3, the horizontal eccentric wheel set 16 may be constituted by a horizontal eccentric wheel and a bearing (connected through a shaft) which are arranged side by side from top to bottom, the bearing is fixed on the horizontal vibration plate 3, and the horizontal eccentric wheel rotates (is eccentric) and is disposed at the upper side of the vertical vibration plate 2. The horizontal eccentric wheel set 16 (rotating shaft) is arranged along the vertical direction, and the horizontal vibration motor 15 is in transmission connection with one of the horizontal eccentric wheel sets 16. Specifically, the horizontal vibration structure includes 4 horizontal eccentric wheel sets 16, 2 horizontal eccentric wheel sets 16 are located vertical vibration board 2 left sides side from beginning to end side by side, 1 horizontal eccentric wheel set 16 is located vertical vibration board 2 left side middle part, 1 horizontal eccentric wheel set 16 is located the intermediate position (is connected with horizontal vibration motor 15 transmission) at vertical vibration board 2 middle part.

Further, referring to fig. 1 and 2, in the embodiment of the present invention, a jack block 17 is disposed on the horizontal vibrating plate 3, and a jack (vertical arrangement) for inserting the plug pin 8 is disposed on the jack block 17. The top end of the bolt 8 is coaxially provided with an expanded part 18 (circular), the expanded part 18 is positioned above the top plate 6 or is propped against the upper side of the top plate 6, and the lower end of the bolt is inserted into the insertion hole.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The finished product grading sieve for the rhinestone is characterized by comprising a frame (1), a vertical vibrating plate (2) right above the frame (1), a horizontal vibrating plate (3) right above the vertical vibrating plate (2) and at least one group of grading structures (4) on the horizontal vibrating plate (3), wherein the vertical vibrating plate (2) and the horizontal vibrating plate (3) are both horizontally arranged, a vertical vibrating structure for enabling the vertical vibrating plate to vibrate in the vertical direction is arranged between the vertical vibrating plate (2) and the frame (1), and a horizontal vibrating structure for enabling the horizontal vibrating plate to vibrate in the horizontal direction is arranged between the horizontal vibrating plate (3) and the vertical vibrating plate (2);

the hierarchical structure (4) comprises a plurality of sub-sieve trays (5), a top plate (6), three flange fixing plates (7) and a bolt (8), the flange fixing plates (7) are arranged in the vertical direction, the lower ends of the flange fixing plates are fixed on the horizontal vibrating plate (3), the top plate (6) is horizontally arranged and fixed on the top end of the flange fixing plates (7), and the bolt (8) is arranged in the vertical direction, penetrates through the top plate (6) and is inserted into the horizontal vibrating plate (3) at the lower end; the screening disc (5) is horizontally arranged and is circular, the top end of the screening disc is provided with a flange (9) in an outward protruding mode, and the bottom of the screening disc is uniformly distributed with screening holes (10); the plurality of screening trays (5) are arranged side by side from top to bottom, and the screening holes (10) on the screening trays are gradually reduced; a feed inlet (11) is formed in the top plate (6) and is positioned right above the screening disc (5); the three flange fixing plates (7) and a bolt (8) are arranged around the sieving disc (5) in a cross shape, and a plurality of notches (12) matched with the flanges (9) are formed in the inner sides of the flange fixing plates (7) from top to bottom; the flange (9) is embedded into the corresponding notch (12), and the inner side of the bolt (8) is abutted against the flange (9) to realize the fixation of the sieving disc (5).

2. The finished rhinestone grading screen according to claim 1, wherein the frame (1), the vertical vibrating plate (2) and the horizontal vibrating plate (3) are arranged in the left-right direction, the bolt (8) abuts against a flange (9) at the front side of the screening plate (5), the three flange fixing plates (7) are respectively arranged at the left side, the right side and the rear side of the screening plate (5), the two flange fixing plates (7) at the left side and the right side of the screening plate (5) are arranged in a left-right symmetrical mode through the circle center of the two flange fixing plates, and the bolt (8) at the front side of the screening plate (5) and the flange fixing plate (7) at the rear side of the screening plate (5) are arranged in a front-back symmetrical mode through the circle center of the.

3. The finished rhinestone grading screen according to claim 2, wherein the multiple groups of grading structures (4) are arranged side by side from left to right and the number of the grading structures is 3-6, the multiple groups of grading structures (4) share one top plate (6), two adjacent groups of grading structures (4) share one flange fixing plate (7), and the left side and the right side of the shared flange fixing plate (7) are provided with notches (12).

4. The finished rhinestone grading screen according to claim 1, wherein the feed inlet (11) is a circular hole arranged coaxially with the grading disc (5) and has a diameter smaller than the diameter of the top end of the grading disc (5).

5. The finished rhinestone grading screen according to claim 1, wherein in the same group of grading structures (4), the number of the grading discs (5) is 5-10, a plurality of grading discs (5) are coaxially arranged, a space is reserved between two adjacent grading discs (5), and the notches (12) for fixing one grading disc (5) on the three flange fixing plates (7) are located on the same horizontal plane.

6. The finished rhinestone classifying screen according to claim 1, wherein the diameter of the classifying tray (5) is gradually reduced from top to bottom; the flange (9) is horizontally arranged, and correspondingly, the notch (12) is a rectangular notch which is horizontally arranged and can be embedded into the flange (9).

7. A finished rhinestone sizing screen according to claim 1, wherein the screen apertures (10) are circular.

8. The finished rhinestone grading screen according to claim 2, wherein the vertical vibration structure comprises a vertical vibration motor (13) arranged on the frame (1), two driving shafts arranged on the left and right sides of the frame (1) in a forward and backward direction, and two vertical eccentric wheels (14) arranged at the front and rear ends of the driving shafts, wherein one driving shaft is in transmission connection with the vertical vibration motor (13), and the lower side of the vertical vibration plate (2) is fixedly connected with the upper side of the vertical eccentric wheel (14).

9. The finished rhinestone grading screen according to claim 2, wherein the horizontal vibrating structure comprises a horizontal vibrating motor (15) fixed on the lower side of the vertical vibrating plate (2) along the vertical direction and a plurality of horizontal eccentric wheel sets (16) between the vertical vibrating plate (2) and the horizontal vibrating plate (3), the horizontal eccentric wheel sets (16) are arranged along the vertical direction, and the horizontal vibrating motor (15) is in transmission connection with one of the horizontal eccentric wheel sets (16).

10. The finished rhinestone grading screen according to claim 1, wherein a jack block (17) is arranged on the horizontal vibrating plate (3), and a jack for inserting a plug pin (8) is arranged on the jack block (17); the top end of the bolt (8) is coaxially provided with an expansion part (18) and is positioned above the top plate (6) or is propped against the upper side of the top plate (6), and the lower end of the bolt is inserted into the jack.

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