CN216779504U - Non-metallic mineral goods detection device with classification structure - Google Patents

Abstract

The utility model discloses a nonmetal mineral product detection device with a classification structure, which comprises a base and an auxiliary assembly, wherein a connecting seat is installed at the top of the base, a material table is installed at the top of the connecting seat, a metal grid is installed on the surface of the material table, a material receiving box is installed outside the metal grid, a rotating seat is installed inside the material table, a servo motor is installed at the bottom of the rotating seat, and a feeding channel is installed below the left side of the material table. This non-metallic mineral products detection device with classified structure passes through the inside rotation seat of material platform and rotates under servo motor drives, thereby can mix the mineral substance of inside, this rotation seat is round platform column structure, thereby can carry the mineral substance to the material in the way, through the setting of material platform inner wall metal grid, make and to pass through metal grid with tiny granule and discharge at the pivoted in-process, and collect centralized processing through material receiving box, make things convenient for staff's cleaning work, reduce its intensity of labour.

Description

Non-metallic mineral goods detection device with classification structure

Technical Field

The utility model relates to the technical field of non-metallic mineral products, in particular to a non-metallic mineral product detection device with a classification structure.

Background

The non-metallic mineral is a mineral which has no metallic or semi-metallic luster, is colorless or has various light colors, is transparent or semitransparent under a sheet with the thickness of 0.03 mm, and has poor electric conductivity and thermal conductivity, can be used for manufacturing various products, and needs a detection device to remove impurities in the non-metallic mineral before processing.

The nonmetal mineral product detection device on the market does not have a wear-resisting function, mineral substances are very easy to rub against the inner wall of the nonmetal mineral product detection device in the loading process in the using process, and the long-term use can influence the service cycle of the device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a nonmetal mineral product detection device with a classification structure, which solves the problems that the nonmetal mineral product detection device provided by the background technology does not have a wear-resisting function, and minerals are easy to rub against the inner wall of the nonmetal mineral product detection device in the feeding process in the using process, so that the service cycle of the nonmetal mineral product detection device is influenced after long-term use.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a non-metallic mineral goods detection device with classified structure, includes base and auxiliary assembly, the connecting seat is installed at the base top, just the material platform is installed at the connecting seat top, material platform surface mounting has the metal grid, just the externally mounted of metal grid has the material receiving box, material platform internally mounted has the rotation seat, just rotate the seat bottom and install servo motor, the material loading is said to the left side below of material platform, auxiliary assembly install in the inner wall that the material loading was said, auxiliary assembly includes mounting bracket, reset spring, sliding seat and abrasionproof roller, mounting bracket internally mounted have reset spring, just the reset spring other end is connected with the sliding seat, install in the sliding seat outside the abrasionproof roller.

Preferably, the material receiving box is connected with the metal grating in a clamping manner, and four groups of the material receiving box and four groups of the metal grating are arranged.

Preferably, the outer dimension of the rotating seat is smaller than the inner dimension of the material table, and the surface of the rotating seat is in a circular truncated cone shape.

Preferably, the mounting bracket with the inside of material loading way is laminated each other, just the mounting bracket is about the axis of material loading way is the symmetric distribution.

Preferably, a detection assembly is installed on one side of the feeding channel, a sub-channel is arranged at the bottom of the feeding channel, the detection assembly comprises a placement frame, a detection camera, a metal detector, a servo motor and a guide plate, the detection camera is installed at the top of the placement frame, the metal detector is installed at the bottom of the placement frame, the servo motor is installed on one side of the placement frame, and the output end of the servo motor is connected with the guide plate.

Preferably, the left side of the feeding channel is connected with a classification plate, a stirring baffle is arranged in the classification plate, and the bottom of the stirring baffle is connected with a driving motor.

Preferably, the limiting plate is mounted on the surface of the classification plate, and a discharging channel is connected to the outside of the classification plate.

The utility model provides a nonmetal mineral product detection device with a classification structure, which has the following beneficial effects:

1. this non-metallic mineral goods detection device with classified structure, adopt the mutually supporting setting between a plurality of subassemblies, make it not only can discharge the tiny impurity in inside with the in-process of material loading, can also reduce the wearing and tearing of mineral substance and material loading way inner wall simultaneously, the integrality that the material loading was said has been guaranteed to a certain extent, thereby can prolong its life cycle, setting through determine module, make it can detect the inside impurity of mineral substance, can get rid of impurity, the setting of classification dish simultaneously, make it can be according to the categorised unloading of size with the mineral substance, and convenient to use.

2. According to the utility model, the rotating seat in the material platform is driven by the servo motor to rotate, so that internal mineral substances can be stirred, the rotating seat is in a round platform-shaped structure, so that the mineral substances can be conveyed into the material channel, fine particles can be discharged through the metal grating in the rotating process through the arrangement of the metal grating on the inner wall of the material platform, and the fine particles are collected and centralized by the material receiving box, so that the cleaning work of workers is facilitated, and the labor intensity of the workers is reduced.

3. According to the utility model, through the arrangement of the auxiliary assembly on the inner wall of the feeding channel, when the material platform conveys the raw materials into the feeding channel, the return spring, the sliding seat and the anti-abrasion roller in the mounting frame are matched with each other, so that the raw materials are not directly rubbed with the interior of the feeding channel but are contacted with the anti-abrasion roller, and due to the mobility of the anti-abrasion roller, the sliding friction between the anti-abrasion roller and the mounting frame is changed into rolling friction to reduce the friction coefficient of the anti-abrasion roller, so that the abrasion can be reduced while the material is conveyed conveniently, the service life of the feeding channel is effectively prolonged, and the sliding seat has certain elastic telescopic capacity through the return spring and the mounting frame, so that the interior of the feeding channel is ensured to have certain mobility, and the feeding process is facilitated.

4. According to the utility model, through the arrangement of the detection assembly, the detection camera arranged at the top of the placement frame can be used for detecting different types in the raw materials, meanwhile, whether the raw materials contain metal impurities can be detected through the metal detector, and the guide plate is driven by the servo motor to be transferred into the branch channel to be discharged, so that the removal work is completed.

5. According to the utility model, through the arrangement of the classification discs, the detected raw materials enter the classification discs together, the stirring baffle is arranged in the classification discs and driven by the driving motor to rotate at a constant speed, and meanwhile, through the limiting discs arranged on the inner walls of the classification discs, the limiting discs are made of metals with different apertures, so that the raw materials in the classification discs can be classified according to size and discharged through the discharging channel, and the subsequent processing process is facilitated.

Drawings

FIG. 1 is a schematic view showing the overall structure of a nonmetallic mineral product detecting apparatus having a sorting structure according to the present invention;

FIG. 2 is a schematic side view of a connecting seat of the detecting device for nonmetallic mineral products according to the present invention;

FIG. 3 is an enlarged view of the detection apparatus for nonmetallic mineral products according to the present invention, shown in FIG. 1 at A;

FIG. 4 is a schematic view of an auxiliary assembly of the nonmetallic mineral product detecting apparatus according to the present invention;

FIG. 5 is a schematic view of a detecting assembly of a nonmetallic mineral product detecting device with a classification structure according to the present invention.

In the figure: 1. a base; 2. a connecting seat; 3. a material platform; 4. a metal grid; 5. a material receiving box; 6. a rotating seat; 7. a servo motor; 8. a feeding channel; 9. an auxiliary component; 901. a mounting frame; 902. a return spring; 903. a sliding seat; 904. anti-grinding roller; 10. a detection component; 1001. a placement frame; 1002. detecting a camera; 1003. a metal detector; 1004. a servo motor; 1005. a guide plate; 11. a shunt channel; 12. sorting the discs; 13. a stirring baffle; 14. a drive motor; 15. a limiting disc; 16. and (4) a discharging channel.

Detailed Description

As shown in figure 1, the nonmetal mineral product detection device with a classification structure comprises a base 1 and an auxiliary assembly 9, wherein a connecting seat 2 is installed at the top of the base 1, a material platform 3 is installed at the top of the connecting seat 2, a metal grid 4 is installed on the surface of the material platform 3, a material receiving box 5 is installed outside the metal grid 4, a rotating seat 6 is installed inside the material platform 3, a servo motor 7 is installed at the bottom of the rotating seat 6, a feeding channel 8 is installed below the left side of the material platform 3, the auxiliary assembly 9 is installed on the inner wall of the feeding channel 8,

referring to fig. 1-3, the receiving box 5 is connected with the metal grid 4 in a snap-fit manner, four groups of the receiving box 5 and the metal grid 4 are provided, the outer dimension of the rotating seat 6 is smaller than the inner dimension of the material table 3, the surface of the rotating seat 6 is in a circular truncated cone shape, the rotating seat 6 inside the material table 3 is driven by the servo motor 7 to rotate, so that the mineral substances inside can be stirred, the rotating seat 6 is in a circular truncated cone-shaped structure, so that the mineral substances can be conveyed into the material loading channel 8, the arrangement of the metal grid 4 on the inner wall of the material table 3 enables fine particles to be discharged through the metal grid 4 in the rotating process, the fine particles are collected and concentrated by the receiving box 5, the cleaning work of workers is facilitated, the labor intensity is reduced, the detection assembly 10 is installed on one side of the material loading channel 8, the bottom of the material loading channel 8 is provided with the branch channel 11, the left side of the material loading channel 8 is connected with the classification disc 12, and classification dish 12 internally mounted has stirring baffle 13, stirring baffle 13 bottom is connected with driving motor 14, spacing dish 15 is installed on classification dish 12 surface, and classification dish 12 external connection has unloading way 16, setting through classification dish 12, make through the raw materials after the detection together get into classification dish 12, this classification dish 12 internally mounted has stirring baffle 13 at the uniform velocity under driving motor 14's drive and rotates, simultaneously through the spacing dish 15 of its inner wall installation, this spacing dish 15 constitutes for the sheetmetal that the aperture is different, make it can be with classifying dish 12 inside raw materials according to size classification, discharge through unloading way 16, make things convenient for subsequent course of working.

Referring to fig. 1 and 4, the auxiliary assembly 9 is composed of a mounting frame 901, a return spring 902, a sliding seat 903 and an anti-wear roller 904,

wherein, the mounting bracket 901 is internally provided with a return spring 902, the other end of the return spring 902 is connected with a sliding seat 903, the outer side of the sliding seat 903 is provided with a grinding-proof roller 904, the mounting bracket 901 is mutually attached to the inside of the feeding channel 8, the mounting bracket 901 is symmetrically distributed about the central axis of the feeding channel 8, and the raw material is not directly rubbed with the inside of the feeding channel 8 but is contacted with the grinding-proof roller 904 by the arrangement of the auxiliary component 9 on the inner wall of the feeding channel 8 when the material table 3 conveys the raw material to the inside of the feeding channel 8 through the return spring 902 in the mounting bracket 901 and the mutual matching arrangement between the sliding seat 903 and the grinding-proof roller 904, because of the mobility of the grinding-proof roller 904, the sliding friction between the two is changed into rolling friction to reduce the friction coefficient, the wear can be reduced while the material is convenient to convey, the service life of the feeding channel 8 is effectively prolonged, the sliding seat 903 has certain elastic telescopic capability through the return spring 902 and the mounting bracket 901, thereby ensuring that the interior of the feeding channel 8 has certain mobility and facilitating the feeding process.

Referring to fig. 2 and 5, the inspection assembly 10 is composed of a rack 1001, an inspection camera 1002, a metal detector 1003, a servo motor 1004, and a guide plate 1005,

the top of the placing frame 1001 is provided with a detection camera 1002, the metal detector 1003 is arranged at the bottom of the placing frame 1001, the servo motor 1004 is arranged on one side of the placing frame 1001, the output end of the servo motor 1004 is connected with a guide plate 1005, through the arrangement of the detection assembly 10, the detection camera 1002 arranged at the top of the placing frame 1001 can be used for detecting different types in raw materials, meanwhile, whether the raw materials contain metal impurities or not can be detected through the metal detector 1003, the guide plate 1005 is driven by the servo motor 1004 to be transferred to the branch runner 11 to be discharged, and the removing work is completed.

In conclusion, the nonmetal mineral product detection device with the classification structure is used, firstly, the servo motor 7 is started to drive the rotating seat 6 in the material table 3 to rotate to work, the rotating seat 6 is in a round table structure, mineral substances can be conveyed into the material channel 8 when the nonmetal mineral product detection device rotates, fine particles can be discharged through the metal grating 4 in the rotating process through the arrangement of the metal grating 4 on the inner wall of the material table 3, the fine particles are collected and centralized by the material receiving box 5, the cleaning work of workers is facilitated, the labor intensity is reduced, the raw materials are not directly rubbed with the inner wall of the material channel 8 but are contacted with the anti-grinding roller 904 through the arrangement of the auxiliary component 9 on the inner wall of the material channel 8, the sliding friction between the anti-grinding roller 904 and the rolling friction is changed into the rolling friction to reduce the friction coefficient, the abrasion is reduced while the material conveying is facilitated, the service life of the feeding channel 8 is effectively prolonged, the sliding seat 903 has certain elastic telescopic capacity through the space between the return spring 902 and the mounting frame 901, so that certain mobility inside the feeding channel 8 is ensured, the feeding process is facilitated, then different types of raw materials can be detected through the detection camera 1002 arranged at the top of the mounting frame 1001, meanwhile, whether the raw materials contain metal impurities can be detected through the metal detector 1003, the guide plate 1005 is driven by the servo motor 1004 to be transferred to the branch channel 11 to be discharged, the removing work is completed, finally, the detected raw materials enter the classification disc 12 together, the stirring baffle 13 arranged inside the classification disc 12 is driven by the driving motor 14 to rotate at a constant speed, meanwhile, the limiting disc 15 arranged on the inner wall of the classification disc 15 is formed by metal sheets with different apertures, so that the raw materials inside the classification disc 12 can be classified according to size, and is discharged through the discharging channel 16, so that the subsequent processing process is facilitated.

Claims (7)

1. The non-metallic mineral product detection device with the classification structure comprises a base (1) and an auxiliary assembly (9), and is characterized in that a connecting seat (2) is installed at the top of the base (1), a material platform (3) is installed at the top of the connecting seat (2), a metal grating (4) is installed on the surface of the material platform (3), a material receiving box (5) is installed outside the metal grating (4), a rotating seat (6) is installed inside the material platform (3), a servo motor (7) is installed at the bottom of the rotating seat (6), a feeding channel (8) is installed below the left side of the material platform (3), the auxiliary assembly (9) is installed on the inner wall of the feeding channel (8), the auxiliary assembly (9) comprises an installation frame (901), a reset spring (902), a sliding seat (903) and a grinding-preventing roller (904), the reset spring (902) is installed inside the installation frame (901), and the other end of the return spring (902) is connected with the sliding seat (903), and the anti-grinding roller (904) is installed on the outer side of the sliding seat (903).

2. The nonmetallic mineral product detecting device of claim 1, wherein the material receiving box (5) and the metal grid (4) are connected in a snap-fit manner, and four groups of the material receiving box (5) and the metal grid (4) are provided.

3. The nonmetallic mineral product detecting apparatus as set forth in claim 1, wherein the outer dimension of the rotary base (6) is smaller than the inner dimension of the material table (3), and the surface of the rotary base (6) is in the shape of a circular truncated cone.

4. The nonmetal mineral product detecting device with the classification structure of claim 1, wherein the mounting rack (901) is attached to the inside of the feeding channel (8), and the mounting rack (901) is symmetrically distributed about the central axis of the feeding channel (8).

5. The nonmetallic mineral product detecting device with a classifying structure according to claim 1, wherein a detecting assembly (10) is installed on one side of the feeding channel (8), a branch channel (11) is arranged at the bottom of the feeding channel (8), the detecting assembly (10) comprises a placement frame (1001), a detecting camera (1002), a metal detector (1003), a servo motor (1004) and a guide plate (1005), the detecting camera (1002) is installed on the top of the placement frame (1001), the metal detector (1003) is installed at the bottom of the placement frame (1001), the servo motor (1004) is installed on one side of the placement frame (1001), and the guide plate (1005) is connected to the output end of the servo motor (1004).

6. The nonmetallic mineral product detecting device with a classifying structure as set forth in claim 1, wherein a classifying plate (12) is connected to the left side of the feeding channel (8), and a stirring baffle (13) is installed inside the classifying plate (12), and a driving motor (14) is connected to the bottom of the stirring baffle (13).

7. The nonmetal mineral product detecting device with the classification structure according to claim 6, wherein a limiting plate (15) is installed on the surface of the classification plate (12), and a blanking channel (16) is connected to the outside of the classification plate (12).

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