CN217857291U - Sorting unit with adjustable graphite product raw materials - Google Patents

Abstract

The utility model provides a sorting unit with adjustable graphite products raw materials, relate to screening plant technical field, including the vibration main part, the top of vibration main part is equipped with the box, be equipped with a plurality of spring between the bottom surface of box and the vibration main part side by side, horizontal rigid coupling has the flitch that connects in the box, connect and seted up a plurality of rectangle blanking hole on the flitch side by side, the lower surface horizontal slip that connects the flitch is equipped with rather than the sorting medium plate of laminating mutually, set up a plurality of and the corresponding middle part blanking hole in rectangle blanking hole on the sorting medium plate, region between the adjacent middle part blanking hole is the screening mesopore region, the lower surface horizontal slip that selects separately the medium plate is equipped with rather than the sorting bottom plate of laminating mutually. The utility model provides a device among the conventional art when exporting the impurity in the graphite powder, graphite powder and impurity are in same derivation passageway, influence the problem of follow-up graphite powder sorting precision.

Description

Sorting unit with adjustable graphite product raw materials

Technical Field

The utility model relates to a screening plant technical field, concretely relates to sorting unit with adjustable graphite products raw materials.

Background

In the manufacturing process of the graphite parts, the graphite parts with different requirements need to be manufactured by adopting graphite powder with different particle sizes, and a screening device is needed, wherein the screening device utilizes the relative motion of bulk materials and a screen surface to make partial particles penetrate through screen holes to be divided into vibrating screening equipment with different grades according to the particle sizes.

The patent that a publication number is CN215507709U is disclosed among the prior art, and this scheme includes the base, is provided with the box on the base, by last first screening room, second screening room and the third screening room of having set gradually under to in the box, the bottom of third screening room is provided with the bin outlet, first screening indoor is provided with first brush and first screen cloth and cooperatees, second screening indoor is provided with correct grinding subassembly, second screen cloth and second brush, and the indoor third brush and the third screen cloth of being provided with of third screening, first screen cloth, second screen cloth and third screen cloth and box between be provided with respectively that first material receiving groove, second material receiving groove and third material receiving groove are used for accepting the material of screening, have the screening efficiency height, the characteristics that the graphite powder utilization ratio is high.

The prior device gradually exposes the defects of the technology along with the use, and mainly shows the following aspects:

first, current screening plant is when using, can't realize sorting out the different granularities of graphite powder, has influenced the sorting efficiency of graphite powder.

Second, current screening plant is when using because contain impurity and particulate matter in the graphite powder for when exporting the impurity in the graphite powder, graphite powder and impurity are in same derivation passageway, influence the sorting precision of follow-up graphite powder.

In view of the foregoing, it is apparent that the prior art has inconvenience and disadvantages in practical use, and thus, needs to be improved.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model solves the problem that the device in the traditional technology can not realize the separation of different particle sizes of graphite powder when in use; and when the impurities in the graphite powder are led out, the graphite powder and the impurities are in the same leading-out channel, so that the sorting precision of the subsequent graphite powder is influenced.

In order to solve the above problem, the utility model provides a following technical scheme:

the utility model provides a sorting unit with adjustable graphite product raw materials, includes the vibration main part, the top of vibration main part is equipped with the box, the bottom surface of box with be equipped with a plurality of spring between the vibration main part side by side, horizontal rigid coupling has the material receiving plate in the box, set up a plurality of rectangle blanking hole on the material receiving plate side by side, the lower surface horizontal slip of material receiving plate is equipped with the sorting medium plate rather than laminating mutually, set up a plurality of on the sorting medium plate with the middle part blanking hole that rectangle blanking hole corresponds, adjacent the region between the middle part blanking hole is the screening mesopore region, the lower surface horizontal slip of sorting medium plate is equipped with the sorting bottom plate rather than laminating mutually, set up a plurality of on the sorting bottom plate with the corresponding bottom blanking hole in middle part blanking hole, adjacent the region between the bottom blanking hole is the screening mesopore region.

As an optimized scheme, a slag discharging guide plate is obliquely and fixedly connected in the box body, and powder falling holes are uniformly distributed in the slag discharging guide plate.

As an optimized scheme, a powder guide-out plate is further obliquely and fixedly connected below the slag discharge guide plate, and the inclination direction of the powder guide-out plate is opposite to that of the slag discharge guide plate.

As an optimized scheme, a guide plate which is arranged in a relatively inclined manner is fixedly connected to the upper surface of the material receiving plate between the adjacent rectangular blanking holes.

As an optimized scheme, inclined plates are fixedly connected between the rectangular blanking holes at the two outermost sides and the inner wall of the box body.

As an optimized scheme, the end, facing the same direction, of the sorting middle plate and the sorting bottom plate are respectively and fixedly connected with a sliding rod, a sliding hole is formed in the side wall of the box body, and the sliding rod is slidably constrained in the sliding hole.

As an optimized scheme, two telescopic cylinders are fixedly connected to the outer wall of the box body opposite to the sliding hole, and telescopic ends of the two telescopic cylinders are respectively connected with the end portion of the sorting middle plate and the end portion of the sorting bottom plate.

As an optimized scheme, a slag discharging cylinder is fixedly connected to the outer wall of the box body, and the lower edge of the slag discharging cylinder is flush with the upper surface of the lower end of the slag discharging guide plate.

As an optimized scheme, a powder discharging cylinder is fixedly connected to the outer wall of the box body, and the lower edge of the powder discharging cylinder is flush with the upper surface of the lower end part of the powder guiding plate.

In an optimized scheme, the mesh number of the screening middle hole area is smaller than that of the screening bottom hole area.

As an optimized scheme, the slag discharging cylinder and the powder discharging cylinder are respectively and fixedly connected with a guiding cylinder.

As an optimized scheme, a bag body supporting ring is fixedly connected to the outer wall of the guide-out cylinder.

As an optimized scheme, an opening is formed in the upper end of the box body, and a feeding guide cylinder is fixedly connected with the box body.

Compared with the prior art, the beneficial effects of the utility model are that:

graphite powder raw materials are put into a feeding guide cylinder, a telescopic cylinder is used for controlling the sliding of a sorting medium plate and a sorting bottom plate, the graphite powder with different granularities is sorted by respectively corresponding a middle blanking hole, a screening middle hole area, a bottom blanking hole and a screening bottom hole area to a rectangular blanking hole, the sorted graphite powder falls onto a slag discharging guide plate, falls onto a powder guide plate through a powder falling hole and is discharged through a powder discharging cylinder;

when large particles and impurities on the material plate need to be discharged, the middle blanking hole and the bottom blanking hole are respectively aligned with the rectangular blanking hole, so that the large particles and the impurities fall onto a slag discharge guide plate and are discharged through a slag discharge barrel;

through installing the box on vibration main part, utilize vibration main part to realize vibrating the box, improve the sorting efficiency of graphite powder.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1-vibrating a body; 2-a spring; 3, a box body; 4-receiving plate; 5-sorting the middle plate; 6-sorting bottom plate; 7-rectangular blanking holes; 8-a middle blanking hole; 9-bottom blanking hole; 10-screening the mesoporous area; 11-screening the bottom hole area; 12-a deflector; 13-an inclined plate; 14-a feed guide; 15-a slide bar; 16-a telescopic cylinder; 17-slag discharge guide plate; 18-powder lead-out plate; 19-a slag discharge cylinder; 20-powder discharging cylinder; 21-a lead-out cylinder; 22-bag support ring.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, sorting unit with adjustable graphite products raw materials, including vibration main part 1, the top of vibration main part 1 is equipped with box 3, be equipped with a plurality of spring 2 between the bottom surface of box 3 and vibration main part 1 side by side, the horizontal rigid coupling has material receiving plate 4 in the box 3, material receiving plate 4 is last to have seted up a plurality of rectangle blanking hole 7 side by side, material receiving plate 4's lower surface horizontal slip is equipped with the separation medium plate 5 rather than laminating, set up a plurality of middle part blanking hole 8 corresponding with rectangle blanking hole 7 on the separation medium plate 5, the region between the adjacent middle part blanking hole 8 is screening mesopore region 10, the lower surface horizontal slip of separation medium plate 5 is equipped with the separation bottom plate 6 rather than laminating, set up a plurality of bottom blanking hole 9 corresponding with middle part blanking hole 8 on the separation bottom plate 6, the region between the adjacent bottom blanking hole 9 is screening mesopore region 11.

A slag discharging guide plate 17 is obliquely and fixedly connected in the box body 3, and powder falling holes are uniformly distributed on the slag discharging guide plate 17.

A powder guide plate 18 is also obliquely and fixedly connected below the slag discharge guide plate 17, and the inclination direction of the powder guide plate 18 is opposite to that of the slag discharge guide plate 17.

The upper surface of the material receiving plate 4 between the adjacent rectangular blanking holes 7 is fixedly connected with a guide plate 12 which is arranged in an opposite inclined way.

An inclined plate 13 is fixedly connected between the rectangular blanking holes 7 at the two outermost sides and the inner wall of the box body 3.

The sorting middle plate 5 and the sorting bottom plate 6 are fixedly connected with a sliding rod 15 respectively towards the same end, a sliding hole is formed in the side wall of the box body 3, and the sliding rod 15 is constrained in the sliding hole in a sliding mode.

Two telescopic cylinders 16 are fixedly connected to the outer wall of the box body 3 opposite to the sliding hole, and the telescopic ends of the two telescopic cylinders 16 are respectively connected with the end part of the sorting middle plate 5 and the end part of the sorting bottom plate 6.

The outer wall of the box body 3 is fixedly connected with a slag discharging barrel 19, and the lower edge of the slag discharging barrel 19 is flush with the upper surface of the lower end part of the slag discharging guide plate 17.

The outer wall of the box body 3 is fixedly connected with a powder discharge cylinder 20, and the lower edge of the powder discharge cylinder 20 is flush with the upper surface of the lower end part of the powder guide-out plate 18.

The mesh number of the screening middle hole area 10 is smaller than that of the screening bottom hole area 11.

The slag discharging cylinder 19 and the powder discharging cylinder 20 are respectively and fixedly connected with a guiding cylinder 21.

A bag support ring 22 is fixedly connected to the outer wall of the guide-out cylinder 21, and the upper end opening of the bag is fixed to the bag support ring 22 and is clamped by tweezers.

The upper end opening of the box body 3 is provided and fixedly connected with a feeding guide cylinder 14.

The working principle of the device is as follows:

graphite powder raw materials are put into a feeding guide cylinder 14, a telescopic cylinder 16 is used for controlling the sliding of a sorting middle plate 5 and a sorting bottom plate 6, the graphite powder with different granularities is sorted by corresponding to a rectangular blanking hole 7 through a middle blanking hole 8, a screening middle hole area 10, a bottom blanking hole 9 and a screening bottom hole area 11, the sorted graphite powder falls onto a slag discharging guide plate 17, falls onto a powder guide plate 18 through the blanking hole and is discharged through a powder discharging cylinder 20;

when large particles and impurities on the material plate 4 need to be discharged, the large particles and the impurities fall onto a slag discharge guide plate 17 through the alignment of the middle blanking hole 8 and the bottom blanking hole 9 with the rectangular blanking hole 7 respectively, and are discharged through a slag discharge barrel 19;

when the graphite powder granularity screening is needed by utilizing the sorting middle plate 5, aligning the screening middle hole area 10 and the bottom blanking hole 9 with the rectangular blanking hole 7;

when the sorting bottom plate 6 is required to be utilized for screening the graphite powder granularity, the middle blanking hole 8 and the screening bottom hole area 11 are aligned with the rectangular blanking hole 7;

through installing box 3 on vibration main part 1, utilize vibration main part 1 to realize vibrating box 3, improve the sorting efficiency of graphite powder.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides a sorting unit with adjustable graphite product raw materials which characterized in that: including vibration main part (1), the top of vibration main part (1) is equipped with box (3), the bottom surface of box (3) with be equipped with a plurality of spring (2) between vibration main part (1) side by side, horizontal rigid coupling has material receiving plate (4) in box (3), a plurality of rectangle blanking hole (7) have been seted up on material receiving plate (4) side by side, the lower surface horizontal slip that material receiving plate (4) is equipped with rather than the sorting medium plate (5) of laminating mutually, set up on sorting medium plate (5) a plurality of with middle part blanking hole (8) corresponding in rectangle blanking hole (7), it is adjacent region between middle part blanking hole (8) is screening mesopore region (10), the lower surface horizontal slip that selects separately medium plate (5) is equipped with rather than the sorting bottom plate (6) of laminating mutually, set up on sorting bottom plate (6) a plurality of with bottom blanking hole (9) corresponding in middle part blanking hole (8), it is adjacent region for screening bottom hole (11) between bottom blanking hole (9).

2. The adjustable graphite product raw material sorting device according to claim 1, wherein: the box body (3) is internally and obliquely fixedly connected with a slag discharging guide plate (17), and the slag discharging guide plate (17) is uniformly provided with powder falling holes.

3. The adjustable graphite product raw material sorting device according to claim 2, wherein: and a powder guide-out plate (18) is obliquely and fixedly connected below the slag discharge guide plate (17), and the oblique direction of the powder guide-out plate (18) is opposite to that of the slag discharge guide plate (17).

4. The adjustable graphite product raw material sorting device according to claim 1, wherein: the upper surface of the material receiving plate (4) between the adjacent rectangular blanking holes (7) is fixedly connected with a guide plate (12) which is arranged in a relatively inclined mode, and the rectangular blanking holes (7) at the two outermost sides and the inner wall of the box body (3) are fixedly connected with an inclined plate (13).

5. The adjustable graphite product raw material sorting device according to claim 4, wherein: the sorting middle plate (5) and the sorting bottom plate (6) are fixedly connected with a sliding rod (15) towards the same end respectively, a sliding hole is formed in the side wall of the box body (3), and the sliding rod (15) is constrained in the sliding hole in a sliding mode.

6. The adjustable graphite product raw material sorting device according to claim 5, wherein: two telescopic cylinders (16) are fixedly connected to the outer wall, opposite to the sliding hole, of the box body (3), and the telescopic ends of the two telescopic cylinders (16) are connected with the end portion of the sorting middle plate (5) and the end portion of the sorting bottom plate (6) respectively.

7. The adjustable graphite product raw material sorting device according to claim 3, wherein: the slag discharging device is characterized in that a slag discharging barrel (19) is fixedly connected to the outer wall of the box body (3), and the lower edge of the slag discharging barrel (19) is flush with the upper surface of the end part below the slag discharging guide plate (17).

8. The adjustable graphite product raw material sorting device according to claim 7, wherein: the powder discharging box is characterized in that a powder discharging cylinder (20) is fixedly connected to the outer wall of the box body (3), and the lower edge of the powder discharging cylinder (20) is flush with the upper surface of the end part below the powder guide-out plate (18).

9. The adjustable graphite product raw material sorting device according to claim 1, wherein: the mesh number of the screening middle hole area (10) is smaller than that of the screening bottom hole area (11).

10. The adjustable graphite product raw material sorting device according to claim 8, wherein: arrange sediment section of thick bamboo (19) with it has a derivation section of thick bamboo (21) to go up the rigid coupling respectively on the powder discharge section of thick bamboo (20), the rigid coupling has bag body support ring (22) on the outer wall of deriving a section of thick bamboo (21).

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