CN210080074U - Screening equipment for manufacturing conductive glass powder - Google Patents

Abstract

The utility model discloses a screening installation for making conductive glass powder, including the main casing body, feed inlet, motor main body, supporting leg, control switch and discharge gate, the top left and right sides of the main casing body is connected with the feed inlet, the bottom of the main casing body is connected with the supporting leg, and the right side surface of supporting leg is connected with control switch, the top of the main casing body is connected with motor main body, and motor main body's output is connected with the conveying roller, the bottom of conveying roller is connected with the head rod, and the head rod has cup jointed the arc filter screen near the surface of bottom, the bottom of arc filter screen is connected with the first connecting plate. The utility model discloses a be provided with arc filter screen, first connecting plate and first board of hitting, can effectively improve the device's screening effect, and the device can effectively reduce the possibility that first spring produced the jam through being provided with second link and scraper blade to can increase discharging efficiency.

Description

Screening equipment for manufacturing conductive glass powder

Technical Field

The utility model relates to a screening installation technical field specifically is a screening installation for making electrically conductive glass powder.

Background

The glass powder is an inorganic cubic hard ultrafine particle white powder with micron and micro-nano properties, raw materials such as high-temperature high-purity silicon oxide, aluminum oxide and the like are used in production, and then an ultraclean production process is carried out to form a glass transparent powder with a disordered structure, the chemical property is stable, the glass transparent powder has acid and alkali resistance, chemical inertness and a low expansion coefficient, and the glass powder needs to be screened in order to improve the quality of a finished product discharged by the glass powder.

Present partial glass powder screening installation, carry out the screening through vibrations filter screen, but vibrations filter screen leads to the noise that the device produced easily great, vibrations also can make more glass powder beat on the filter screen simultaneously, the screening efficiency has been reduced, and present partial glass powder screening installation, in ejection of compact process, because the glass powder is too tiny, make the inner wall of glass powder be stained with easily and attach at the discharge gate, make the glass powder form the bold granule on the discharge gate inner wall easily for a long time, influence discharging efficiency, therefore need a screening installation for making electrically conductive glass powder to solve above-mentioned problem urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a screening installation for making electrically conductive glass powder to the current partial glass powder screening installation screening efficiency who proposes in solving above-mentioned background art is not high, and the current partial glass powder screening installation discharge gate produces the problem of jam easily.

In order to achieve the above object, the utility model provides a following technical scheme: a screening device for manufacturing conductive glass powder comprises a main shell, a feed inlet, a motor main body, supporting legs, a control switch and a discharge outlet, wherein the feed inlet is connected to the left side and the right side of the top end of the main shell, the supporting legs are connected to the bottom end of the main shell, the control switch is connected to the right side surface of the supporting legs, the motor main body is connected to the top end of the main shell, the output end of the motor main body is connected with a conveying roller, the bottom end of the conveying roller is connected with a first connecting rod, an arc-shaped filter screen is sleeved on the surface, close to the bottom end, of the first connecting rod, a first connecting plate is connected to the bottom end of the arc-shaped filter screen, a first striking plate is abutted to the bottom end of the first connecting plate, waste collecting boxes are connected to the left side of the waste, the left side of the first limiting block is connected with a limiting rod, the left side of the limiting rod penetrates through the limiting cavity, the surface of the limiting rod is sleeved with a limiting spring, the top end of the limiting cavity is connected with a first connecting post, the top end of the first connecting column is sleeved with a first connecting block, the right side of the first connecting block is connected with a main shell, the bottom end of the arc-shaped filter screen is connected with a material passing cylinder, the inner wall of the material passing cylinder is connected with a microporous filter screen, the bottom end of the microporous filter screen is connected with a carrying plate, the bottom end of the material passing cylinder is connected with a discharge hole, and the inner wall of the discharge hole is connected with a scraper, one side of the scraper far away from the discharge hole is connected with a second connecting frame, a third connecting rod penetrates through the inner part of one side of the second connecting frame far away from the scraper, and the surface of the third connecting rod is sleeved with a first spring, and the bottom end surface of the first spring is sleeved with a first connecting frame.

Preferably, the shape structure of the arc-shaped filter screen is an arc shape.

Preferably, the output end of the control switch is electrically connected with the input end of the motor main body through a lead.

Preferably, the left side surface of the second connecting plate is provided with a limiting hole, and the inner diameter of the limiting hole is the same as the diameter of the right side surface of the first limiting block.

Preferably, one side of the limiting spring is connected with a first limiting block, the other side of the limiting spring is connected to the inner wall of the limiting cavity, and the elastic structure is formed by the first limiting block, the limiting cavity and the limiting spring.

Preferably, the diameter of the surface of the scraper is the same as the diameter of the inner wall of the discharge hole.

Compared with the prior art, the beneficial effects of the utility model are that: this a screening installation for making electrically conductive glass powder can effectively improve the device's screening effect through being provided with arc filter screen, first connecting plate and first board of strikeing, and the device can effectively reduce first spring and produce the possibility of blockking up through being provided with second link and scraper blade to can increase discharging efficiency.

(1) The device drives the head rod through being provided with arc filter screen, first connecting plate and first strike board, rotates through the motor main part, enables the head rod and drives first strike board and rotate to can drive the rotatory first connecting plate of striking of first strike board, and then can make arc filter screen surface receive vibrations, can reduce the possibility that glass powder blockked up the filtration pore, increase the device's screening effect.

(2) The device is through being provided with second link and scraper blade, after the device ejection of compact is ended, can manually stimulate the bottom of third connecting rod, make third connecting rod downstream, and make the second link drive together downstream by the third connecting rod, afterwards, the scraper blade that is located second link edge department can strike off the glass powder granule that the discharge gate inner wall is stained with and attaches, can effectively reduce the glass powder and be stained with the inner wall that attaches at the discharge gate, can form the bold granule in the long term, thereby influence discharging efficiency's possibility.

Drawings

FIG. 1 is a schematic sectional view of the front view of the structure of the present invention; FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention; fig. 3 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. a main housing; 2. a waste collection box; 3. a feed inlet; 4. a motor main body; 5. a conveying roller; 6. a first connecting rod; 7. an arc-shaped filter screen; 8. a first connecting plate; 9. a first striking plate; 10. a microporous filter screen; 11. supporting legs; 12. a control switch; 13. a second connecting plate; 14. passing through a charging barrel; 15. a first connection block; 16. a first connecting column; 17. a first stopper; 18. a limiting cavity; 19. a limiting spring; 20. a limiting rod; 21. a first connecting frame; 22. a third connecting rod; 23. a second link frame; 24. a squeegee; 25. a first spring; 26. a discharge port; 27. and a carrying plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides an embodiment: the utility model provides a screening installation for making electrically conductive glass powder, including main casing body 1, feed inlet 3, motor main body 4, supporting leg 11, control switch 12 and discharge gate 26, the top left and right sides of main casing body 1 is connected with feed inlet 3, the bottom of main casing body 1 is connected with supporting leg 11, and supporting leg 11's right side surface is connected with control switch 12, control switch 12's output carries out the electricity through the input of wire and motor main body 4 and connects. The top end of the main shell 1 is connected with a motor main body 4, and the motor main body 4 is of the type IHSS 57-36-20. And motor body 4's output is connected with conveying roller 5, conveying roller 5's bottom is connected with head rod 6, and head rod 6 has cup jointed arc filter screen 7 near the surface of bottom, arc filter screen 7's shape structure is the arc, the arc structure can effectively make large granule glass powder along arc structure surface slip, prevent to block up arc filter screen 7, arc filter screen 7's bottom is connected with first connecting plate 8, first connecting plate 8's bottom butt has first board of hitting 9.

The bottom left and right sides of arc filter screen 7 all is connected with garbage collection box 2, the left side of garbage collection box 2 is connected with second connecting plate 13, spacing hole has been seted up on the left surface of second connecting plate 13, and the inside diameter size in spacing hole is the same with the right side surface diameter size of first stopper 17, the same diameter size enables the block in the spacing hole in first stopper 17 and second connecting plate 13 surface inseparabler, and the top left side butt joint of second connecting plate 13 has first stopper 17, the left side of first stopper 17 and be connected with gag lever post 20, and spacing chamber 18 is run through in the left side of gag lever post 20.

Spacing spring 19 has been cup jointed on the surface of gag lever post 20, one side of spacing spring 19 is connected with first stopper 17, and the inner wall at spacing chamber 18 is connected to spacing spring 19's opposite side, first stopper 17, elastic construction is constituteed to spacing chamber 18 and spacing spring 19, enable the automatic block in spacing hole in first stopper 17 and second connecting plate 13 surface through constituteing elastic construction, the top in spacing chamber 18 is connected with first connector strut 16, and the top of first connector strut 16 has cup jointed first connector strut 15, the right side of first connector strut 15 is connected with main casing body 1, the bottom of arc filter screen 7 is connected with feed cylinder 14, and the inner wall of crossing feed cylinder 14 is connected with microporous filter screen 10.

The bottom of microporous filter screen 10 is connected with carries thing board 27, the bottom of crossing feed cylinder 14 is connected with discharge gate 26, and the inner wall butt of discharge gate 26 has scraper blade 24, the surface diameter size of scraper blade 24 is the same with the inner wall diameter size of discharge gate 26, the same diameter size enables more inseparabler of the inner wall butt of scraper blade 24 with discharge gate 26, one side that discharge gate 26 was kept away from to scraper blade 24 is connected with second link 23, the inside third connecting rod 22 that runs through in one side that scraper blade 24 was kept away from to second link 23, and first spring 25 has been cup jointed on the surface of third connecting rod 22, first link 21 has been cup jointed on the bottom surface of first spring 25.

The working principle is as follows: the device is powered by an external power supply, when in use, firstly, a control switch 12 is turned on, a motor main body 4 starts to drive a conveying roller 5 to rotate, then glass powder raw materials are filled in a feed inlet 3 and reach the surface of the conveying roller 5 through the feed inlet 3, the speed of the glass powder raw materials entering the inner part of a main shell 1 can be effectively reduced through the slow rotation of the conveying roller 5, meanwhile, the glass powder raw materials can reach the surface of an arc-shaped filter screen 7 after passing through the conveying roller 5, at the moment, large glass powder particles can be effectively blocked through filter holes on the surface of the arc-shaped filter screen 7, the glass powder particles slide to the periphery along the surface of the arc-shaped filter screen 7, the glass powder with overlarge size drops into a waste collecting box 2, then the glass powder particles with qualified size drop to a material passing cylinder 14 through the arc-shaped filter screen 7, and then the glass powder raw materials, then the glass powder raw materials can be along the surface of guide plate slide to the surface of micropore filter screen 10, subsequently, the glass powder raw materials of undersize can see through micropore filter screen 10, drops to carrying thing board 27 surface, and inside following carrying thing board 27 surface slide to garbage collection box 2, size and glass powder keep away from and can drop to the feed cylinder 14 bottom, accomplish the screening ejection of compact through discharge gate 26.

Can manually stimulate the bottom of third connecting rod 22 after the ejection of compact is ended, make third connecting rod 22 downstream, and make second link 23 driven together downstream by third connecting rod 22, subsequently, the scraper blade 24 that is located second link 23 edge can strike off the glass powder granule that the discharge gate 26 inner wall is stained with and attaches, can effectively reduce the glass powder and be stained with the inner wall that attaches at discharge gate 26, thereby produce the possibility that influences discharging efficiency, then can pull out gag lever post 20, make first stopper 17 and the spacing hole in second connecting plate 13 surface no longer block, open second connecting plate 13 afterwards, clear up the inside unqualified glass powder raw materials of garbage collection box 2, can end screening work.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a screening installation for making electrically conductive glass powder, includes main casing body (1), feed inlet (3), motor main body (4), supporting leg (11), control switch (12) and discharge gate (26), its characterized in that: the feed inlet (3) is connected to the left and right sides of the top of the main shell (1), the bottom of the main shell (1) is connected with supporting legs (11), the right side surface of each supporting leg (11) is connected with a control switch (12), the top of the main shell (1) is connected with a motor main body (4), the output end of the motor main body (4) is connected with a conveying roller (5), the bottom end of the conveying roller (5) is connected with a first connecting rod (6), an arc-shaped filter screen (7) is sleeved on the surface of the first connecting rod (6) close to the bottom end, the bottom end of the arc-shaped filter screen (7) is connected with a first connecting plate (8), the bottom end of the first connecting plate (8) is abutted with a first striking plate (9), the left and right sides of the bottom end of the arc-shaped filter screen (7) are both connected with a, and the left side of the top end of the second connecting plate (13) is abutted with a first limiting block (17), the left side of the first limiting block (17) is connected with a limiting rod (20), the left side of the limiting rod (20) penetrates through a limiting cavity (18), a limiting spring (19) is sleeved on the surface of the limiting rod (20), the top end of the limiting cavity (18) is connected with a first connecting column (16), the top end of the first connecting column (16) is sleeved with a first connecting block (15), the right side of the first connecting block (15) is connected with a main shell (1), the bottom end of the arc-shaped filter screen (7) is connected with a material passing cylinder (14), the inner wall of the material passing cylinder (14) is connected with a microporous filter screen (10), the bottom end of the microporous filter screen (10) is connected with a material carrying plate (27), the bottom end of the material passing cylinder (14) is connected with a material outlet (26), and the inner wall, one side that discharge gate (26) were kept away from in scraper blade (24) is connected with second link (23), third connecting rod (22) have been run through to one side inside that scraper blade (24) were kept away from in second link (23), and the surface of third connecting rod (22) has cup jointed first spring (25), first link (21) have been cup jointed to the bottom surface of first spring (25).

2. The screening apparatus for manufacturing conductive glass frits of claim 1 wherein: the shape structure of the arc-shaped filter screen (7) is arc-shaped.

3. The screening apparatus for manufacturing conductive glass frits of claim 1 wherein: the output end of the control switch (12) is electrically connected with the input end of the motor main body (4) through a lead.

4. The screening apparatus for manufacturing conductive glass frits of claim 1 wherein: the left side surface of the second connecting plate (13) is provided with a limiting hole, and the inner diameter of the limiting hole is the same as the diameter of the right side surface of the first limiting block (17).

5. The screening apparatus for manufacturing conductive glass frits of claim 1 wherein: one side of the limiting spring (19) is connected with a first limiting block (17), the other side of the limiting spring (19) is connected to the inner wall of the limiting cavity (18), and the first limiting block (17), the limiting cavity (18) and the limiting spring (19) form an elastic structure.

6. The screening apparatus for manufacturing conductive glass frits of claim 1 wherein: the surface diameter of the scraper (24) is the same as the inner wall diameter of the discharge hole (26).

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