CN210546383U - Diamond micro-powder shape selecting disc - Google Patents

Abstract

The utility model relates to a diamond micropowder lectotype dish, including bearing the base disc, connecting spout, lectotype dish, wherein bear the base disc and include bottom plate and protection curb plate, the apex angle position of bottom plate goes out and establishes the charge door, a plurality of discharge gates of base equipartition, and the mutual sliding connection of terminal surface under bottom plate upper surface is through connecting spout and lectotype dish, and lectotype dish up end communicates each other with charge door and discharge gate respectively, and a plurality of separation tank of lectotype dish up end equipartition. This novel one side can adjust equipment structure in a flexible way to effectively satisfy the categorised needs of different grade type diamond screening, on the other hand can effectual improvement lectotype dish equipment trouble discharge and repair the operating efficiency.

Description

Diamond micro-powder shape selecting disc

Technical Field

The utility model relates to a shape selecting plate structure, which belongs to the field of artificial diamond processing machinery.

Background

In the production and raw material processing operation of the artificial diamond, the diamond micro powder is required to be selected and classified according to the particle size of the artificial diamond, the currently used diamond type selection equipment mainly classifies the diamond type selection through the type selection disc, but in use, the currently used type selection disc can meet the use requirement to a certain extent, but is always of an integrated structure, so that the current type selection disc can not flexibly meet the requirements of the diamond micro powder type selection and classification operation with different particle sizes according to the use requirement, the universality and the use flexibility of the current type selection disc are relatively poor, and meanwhile, when the current type selection disc fails, the failed part can not be effectively replaced and repaired, so that the failure repair rate of the current type selection disc is low, and the integral rejection rate is high, the maintenance and use cost of the model selection disc are relatively high, in addition, the currently used model selection disc usually adopts a high-pressure sand blasting method on the surface of a basic disc surface, a plurality of uniformly distributed pits are manufactured on the disc surface through external force, although the requirement of model selection operation can be met, the processing method also causes relatively poor control precision of the processing structure of the pits, so that the requirement of model selection can be basically met for common diamond micro powder with structures such as round crystals, continuous crystals and the like when the model selection of the fine steel micro powder is carried out, the requirement of model selection separation cannot be carried out on the diamond micro powder with special structures such as square crystals, sharp crystals and the like, and the precision and the model selection efficiency of the model selection operation are seriously influenced.

Therefore, in view of the current situation, a new type-selecting disc structure is urgently needed to be developed to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists on the prior art, the utility model provides a diamond micropowder lectotype dish, this novel simple structure, it is nimble convenient to use, the commonality is good, it is little to conduct oneself with dignity, lectotype precision and operating efficiency are high, production preparation and routine maintenance low cost, on the one hand can be according to the use needs, nimble adjustment equipment structure, thereby effectively satisfy different grade type diamond screening classification needs, very big improve equipment uses flexibility and commonality, on the other hand can effectual improvement lectotype dish equipment trouble discharge and repair operation efficiency, thereby improve the stability of lectotype dish equipment use, the reliability, and reduce the maintenance cost of equipment.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a diamond micropowder shape selecting disc comprises a bearing base disc, connecting sliding grooves and a shape selecting disc, wherein the bearing base disc comprises a bottom plate and a protective side plate, the bottom plate is of an isosceles triangle structure, the left side surface and the right side surface of the bottom plate are respectively provided with the protective side plate, the cross section of the bottom plate and the protective side plate is of a U-shaped groove-shaped structure, the vertex angle position of the bottom plate is provided with a feeding port, the bottom edge is uniformly provided with a plurality of discharge ports, the discharge ports are uniformly distributed along the bottom edge of the bottom plate and are mutually connected in parallel, the upper surface of the bottom plate is uniformly provided with at least two connecting sliding grooves and are mutually connected with the lower end surface of the shape selecting disc in a sliding manner through the connecting sliding grooves, the shape selecting disc is embedded in the bearing base disc and is of an isosceles triangle structure which is distributed in parallel with the bottom plate of the bearing base disc and has the same area, the shape selecting disc is abutted against the inner side surfaces of, the distance between the upper end surface of the shape selecting disc and the upper end surface of the protective side plate is not less than 1/4 of the effective height of the protective side plate, the upper end surface of the shape selecting disc is respectively communicated with the feed inlet and the discharge outlet, a plurality of sorting grooves are uniformly distributed on the upper end surface of the shape selecting disc, the sorting grooves are in an isosceles triangle structure, and are uniformly distributed layer by layer from the apex angle position to the bottom edge position of the model selection plate along the axial direction of the model selection plate, and in the separation grooves of two adjacent layers, the bottom edge of the sorting groove close to the vertex angle position of the model selection disc is mutually communicated with the vertex angles of at least two sorting grooves far away from the vertex angle position of the model selection disc, the sorting grooves are distributed along the radius direction of a virtual circle taking the vertex angle of the model selection disc as the center of a circle, and the axial lines of all the sorting grooves distributed in the same radius direction form an included angle of 0-30 degrees with the upper end surface of the model selection disc, and the depth of each sorting groove is 0.01 mm to 1/4 of the effective thickness of the model selection disc.

Furthermore, the model selecting plate is connected with the connecting sliding groove in a sliding mode through at least three elastic supports.

Furthermore, the side surfaces of the protective side plates and the side surfaces of the bottom plate are hinged with each other through a ratchet mechanism, and the included angle between each protective side plate and the upper end surface of the bottom plate is 45-135 degrees.

Furthermore, the total area of the sorting grooves on the upper end surface of the type selection disc is 1.3 to 2.5 times of the surface area of the upper end surface of the type selection disc, and the bottom area of a single sorting groove is not more than 2mm²。

Furthermore, in the sorting grooves, the depth of each sorting groove increases gradually from the top corner position of the selective disc to the bottom edge position.

Furthermore, in the sorting grooves, the depth of each sorting groove is gradually reduced from the top angle position of the selective disc to the bottom edge position of the selective disc layer by layer.

Furthermore, in the sorting grooves, the distance between two adjacent sorting grooves is not more than 2 mm.

Furthermore, the cross section of the groove bottom is in any one of a rectangular structure and an arc-shaped structure.

This novel simple structure, it is nimble convenient to use, the commonality is good, it is little to conduct oneself with dignity, lectotype precision and operating efficiency are high, production preparation and routine maintenance low cost, on the one hand can be according to the use needs, nimble adjustment equipment structure, thereby effectively satisfy the categorised needs of different grade type diamond screening, flexibility and the commonality that very big improve equipment used, on the other hand can effectual improvement lectotype dish equipment trouble discharge and repair the operating efficiency, thereby improve the stability, the reliability of lectotype dish equipment use, and reduce the equipment maintenance cost.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic diagram of the novel side view structure of the present invention;

FIG. 3 is a schematic diagram of a sorting trough layout.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

The diamond micropowder shape selecting disc as shown in fig. 1-3 comprises a bearing base disc 1, connecting sliding grooves 2 and a shape selecting disc 3, wherein the bearing base disc 1 comprises a bottom plate 101 and a protective side plate 102, the bottom plate 101 is of an isosceles triangle structure, the left side surface and the right side surface of the bottom plate are both provided with the protective side plate 102, the left side surface and the right side surface of the bottom plate and the protective side plate 102 form a U-shaped groove-shaped cross section structure, a charging opening 103 is arranged at the vertex angle position of the bottom plate 101, a plurality of discharging openings 104 are uniformly distributed at the bottom edge, the discharging openings 104 are uniformly distributed along the bottom edge of the bottom plate and are mutually connected in parallel, at least two connecting sliding grooves 2 are uniformly distributed on the upper surface of the bottom plate 101 and are mutually connected with the lower end surface of the shape selecting disc 3 in a sliding manner through the connecting sliding grooves 2, the shape selecting disc 3 is embedded in the bearing base disc 1 and is of an isosceles triangle, the distance between the lower end face of the type selection disc 3 and the bottom plate 101 is not less than 3 mm, the upper end face of the type selection disc 3 is at least 5 mm lower than the upper end face of the protection side plate 102, the distance between the upper end face of the type selection disc 3 and the upper end face of the protection side plate 102 is not less than 1/4 of the effective height of the protection side plate 102, the upper end face of the type selection disc 3 is respectively communicated with the feed inlet 103 and the discharge outlet 104, a plurality of separation grooves 4 are uniformly distributed on the upper end face of the type selection disc 3, the separation grooves 4 are of an isosceles triangle structure and are uniformly distributed from the vertex angle position of the type selection disc 3 to the vertex angle position of the bottom edge layer by layer along the axial direction of the type selection disc 3, in the separation grooves 4 of two adjacent layers, the bottom edge of the separation groove 4 close to the vertex angle position of the type selection disc 3 is communicated with the vertex angles of at least two separation grooves 4 far away from the vertex angle position of the type selection disc, the separation grooves 4 are distributed along the radius direction of a virtual circle In each sorting channel 4, the depth of the sorting channel 4 is 0.01 mm to 1/4 of the effective thickness of the shape selecting plate 3.

The model selecting plate 3 is connected with the connecting chute 2 in a sliding manner through at least three elastic supports 5.

In this embodiment, the side surfaces of the protection side plate 102 and the bottom plate 101 are hinged to each other through the ratchet mechanism 6, and the upper end surface of the protection side plate 102 and the upper end surface of the bottom plate 101 form an included angle of 45-135 degrees.

Meanwhile, the total area of the sorting grooves 4 on the upper end surface of the type selection disc 3 is 1.3-2.5 times of the surface area of the upper end surface of the type selection disc 3, and the area of the groove bottom of the single sorting groove 4 is not more than 2mm²In the separation grooves 4, the depth of each separation groove 4 gradually increases from the vertex angle position of the selective disc 3 to the bottom edge position layer by layer, or in the separation grooves 4, the depth of each separation groove 4 gradually decreases from the vertex angle position of the selective disc to the bottom edge position layer by layer.

In addition, in the sorting grooves 4, the distance between two adjacent sorting grooves 4 is not more than 2mm, and the cross section of the groove bottom is in any one of a rectangular structure and an arc-shaped structure.

This is novel in concrete implementation, at first according to the user demand, selects the structure and the distribution structure who satisfies the structure type of bearing the base plate, lectotype dish and the sorting groove on the lectotype dish that use needs, and the selection bears base plate, lectotype dish, then assembles this novel lectotype dish to bearing the base plate, connecting the spout, lectotype dish and constitutes to install the lectotype equipment with this novel lectotype dish after the assembly on, and make this novel axis personally submit 15-90 contained angles with the level, can accomplish this novel assembly spare.

When carrying out the lectotype, at first make this novel ultrasonic oscillation mechanism drive by the lectotype equipment be in the oscillation state, then will treat the polished steel stone miropowder of lectotype through the charge door direct addition to this novel lectotype dish, and make the polished steel stone miropowder of treating the lectotype under ultrasonic oscillation mechanism drive action and self action of gravity, from lectotype dish apex angle position to lectotype dish bottom edge position landing, utilize different particle diameter diamond miropowder falling speed difference to reposition of redundant personnel at the lectotype dish up end diamond miropowder through each separation groove at the landing, and the diamond miropowder after will shunting is followed each discharge gate department and is discharged, thereby accomplish diamond lectotype operation.

At the lectotype in-process, can be according to use needs and the equipment trouble condition, nimble this neotype base plate that bears, lectotype dish and the adjustment of connecting the spout of constitution are assembled to when satisfying different grade type diamond miropowder lectotype operation, this neotype commonality and troubleshooting rate of effectual improvement reduce and use and maintenance cost.

Simultaneously, in the use, the structure and the distribution layout of each separation groove in this neotype are unified standard to effectual separation groove that has improved efficiency and the reposition of redundant personnel precision to diamond miropowder water conservancy diversion, reposition of redundant personnel, and effectively satisfy the needs of the type selection operation of the diamond micropowder of different structure types, improve this neotype commonality.

In addition, in operation, the driving force of the ultrasonic oscillation mechanism of the type selection equipment can be effectively transmitted and strengthened through the elastic support, and the efficiency of the type selection operation of the diamond micro powder is further improved.

This novel simple structure, it is nimble convenient to use, the commonality is good, it is little to conduct oneself with dignity, lectotype precision and operating efficiency are high, production preparation and routine maintenance low cost, on the one hand can be according to the use needs, nimble adjustment equipment structure, thereby effectively satisfy the categorised needs of different grade type diamond screening, flexibility and the commonality that very big improve equipment used, on the other hand can effectual improvement lectotype dish equipment trouble discharge and repair the operating efficiency, thereby improve the stability, the reliability of lectotype dish equipment use, and reduce the equipment maintenance cost.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The diamond micro-powder shape selecting disc is characterized in that: the diamond micropowder shape selecting disc comprises a bearing base disc, connecting sliding grooves and a shape selecting disc, wherein the bearing base disc comprises a bottom plate and a protective side plate, the bottom plate is of an isosceles triangle structure, the left side surface and the right side surface of the bottom plate are both provided with the protective side plate, the cross section of the bottom plate and the protective side plate is of a U-shaped groove-shaped structure, the vertex angle position of the bottom plate is provided with a feeding port, the bottom edge of the bottom plate is uniformly provided with a plurality of discharge ports, the discharge ports are uniformly distributed along the bottom edge of the bottom plate and are mutually connected in parallel, the upper surface of the bottom plate is uniformly provided with at least two connecting sliding grooves which are mutually connected with the lower end surface of the shape selecting disc in a sliding manner through the connecting sliding grooves, the shape selecting disc is embedded in the bearing base disc and is of an isosceles triangle structure which is distributed in parallel with the bottom plate of the bearing base disc and has the same area, and, the upper end surface of the model selection disc is at least 5 mm lower than the upper end surface of the protective side plate, the distance between the upper end surface of the model selection disc and the upper end surface of the protective side plate is not less than 1/4 of the effective height of the protective side plate, the upper end surface of the model selection disc is respectively communicated with the feed inlet and the discharge outlet, a plurality of separation grooves are uniformly distributed on the upper end surface of the model selection disc, the separation grooves are of isosceles triangle structures and are uniformly distributed from the vertex angle position of the model selection disc to the bottom edge position layer by layer along the axis direction of the model selection disc, in the separation grooves of two adjacent layers, the bottom edge of the separation groove close to the vertex angle position of the model selection disc is communicated with the vertex angles of at least two separation grooves far away from the vertex angle position of the model selection disc, the separation grooves are distributed along the radius direction of a virtual circle with the vertex angle of the model selection disc as the center of a circle, the axes of, the depth of the sorting groove is 0.01 mm to 1/4 of the effective thickness of the type selecting disc.

2. A diamond micropowder sizing disk according to claim 1, wherein: the model selecting plate is connected with the connecting sliding groove in a sliding mode through at least three elastic supports.

3. A diamond micropowder sizing disk according to claim 1, wherein: the side surfaces of the protective side plates and the side surfaces of the bottom plate are hinged with each other through a ratchet mechanism, and the included angle between each protective side plate and the upper end surface of the bottom plate is 45-135 degrees.

4. A diamond micropowder sizing disk according to claim 1, wherein: the total area of the sorting grooves on the upper end surface of the type selection disc is 1.3 of the surface area of the upper end surface of the type selection disc2.5 times and the bottom area of a single sorting groove is not more than 2mm²。

5. A diamond micropowder sizing disk according to claim 1, wherein: in the sorting grooves, the depth of each sorting groove is gradually increased from the top angle position of the selective disc to the bottom edge position layer by layer.

6. A diamond micropowder sizing disk according to claim 1, wherein: in the sorting grooves, the depth of each sorting groove is gradually reduced from the top angle position of the selective disc to the bottom edge position layer by layer.

7. A diamond micropowder sizing disk according to claim 1, wherein: in the sorting grooves, the distance between two adjacent sorting grooves is not more than 2 mm.

8. A diamond micropowder sizing disk according to claim 1, wherein: the cross section of the bottom of the sorting groove is in any one of a rectangular structure and an arc-shaped structure.

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