CN220559764U - Multistage screening plant of material - Google Patents

Abstract

The utility model relates to the technical field of diamond machining, in particular to a material multi-stage screening device. The technical proposal comprises: the device comprises a base, a shell and a baffle, wherein the top end surface of the base is welded with the shell through a mounting frame; the top end surface of the inner wall of the shell is welded with a supporting plate through a limiting frame, a rotating shaft is welded in the limiting frame, and a baffle is sleeved on the rotating shaft; a first limit rod is welded on the top end surface of the supporting plate, and a buffer cushion is attached to the inner wall of the first limit rod; a second limiting rod is welded on the bottom end surface of the baffle; the screen cloth I and the screen cloth II are installed to the inner wall side terminal surface of casing, and vibrating motor is all installed to the bottom terminal surface of screen cloth I and screen cloth II, driving motor is installed to the bottom terminal surface of screen cloth II, and is provided with the dead lever on driving motor's the output shaft. The utility model meets the requirements of diamond processing screening, and prevents the screen mesh from being damaged by impact caused by falling of direct injection materials during screening.

Description

Multistage screening plant of material

Technical Field

The utility model relates to the technical field of diamond machining, in particular to a material multi-stage screening device.

Background

In the diamond processing process, particularly in the initial stage of the process, the raw materials are generally required to be screened in multiple stages, and then mixed and proportioned according to a certain proportion so as to carry out subsequent operation flows such as roasting and the like.

Most diamond is broken back direct injection screening plant is interior sieves to carry out the reprocessing operation after the screening, but when injecting the material sieve, diamond is most direct notes material, and the dead weight of material easily directly strikes the screen cloth and causes the damage when annotating the material, therefore need carry out the guide and perfect.

Disclosure of Invention

The utility model aims to provide a material multi-stage screening device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a multi-stage screening device for materials comprises a base, a shell and a baffle,

the top end surface of the base is welded with a shell through a mounting frame;

the top end surface of the inner wall of the shell is welded with a supporting plate through a limiting frame, a rotating shaft is welded in the limiting frame, and a baffle is sleeved on the rotating shaft;

a first limit rod is welded on the top end surface of the supporting plate, and a buffer cushion is attached to the inner wall of the first limit rod;

a second limiting rod is welded on the bottom end surface of the baffle;

the screen cloth I and the screen cloth II are installed to the inner wall side terminal surface of casing, and vibrating motor is all installed to the bottom terminal surface of screen cloth I and screen cloth II, driving motor is installed to the bottom terminal surface of screen cloth II, and is provided with the dead lever on driving motor's the output shaft.

Preferably, a limit groove is formed in the base, and a storage box is sleeved in the limit groove in a sliding mode. The storage box is sleeved in the limiting groove in a sliding manner, so that a person can put the diamond material after screening in the storage box.

Preferably, the bottom end surface of the base is welded with supporting blocks, the four supporting blocks are arranged in total, and the four supporting blocks are distributed in a rectangular array relative to the base. The base can be installed and fixed through the supporting blocks.

Preferably, the top end surface of the shell is embedded and fixed with a feeding pipe, and the feeding pipe is communicated with the shell. The device is communicated with the shell through the feed pipe, so that personnel can inject the diamond into the shell through the feed pipe to screen after crushing the diamond.

Preferably, the bottom end surface of the shell is embedded and fixed with a discharging pipe, and the discharging pipe is communicated with the shell. The material screening device is communicated with the shell through the discharging pipe, so that the material screened in the shell is discharged and discharged through the discharging pipe.

Preferably, the second limiting rod is sleeved in the first limiting rod in a sliding mode, and the second limiting rod is arranged on the buffer cushion through a buffer spring. The second limiting rod is sleeved in the first limiting rod in a sliding mode, so that the baffle is installed and limited, a person impacts the baffle after injecting diamond materials into the shell during limiting, and the impact force received by the baffle is relieved through the buffer spring and the buffer pad after the diamond materials fall onto the baffle.

Preferably, the first fixing tube and the second fixing tube are embedded and fixed on the side end face of the shell, and the first fixing tube and the second fixing tube are communicated with the shell. Through the first fixed pipe, the second fixed pipe and the shell, particles which are not in line with the size after being screened by the first screen and the second screen are discharged through the first fixed pipe and the second fixed pipe.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, by arranging the baffle, when a person sieves the diamond material, the person is communicated with the shell through the feeding pipe, the person can fill the shell through the feeding pipe to sieve after crushing the diamond, and the person is sleeved in the first limiting rod in a sliding manner through the second limiting rod when filling the material, so that the baffle is installed and limited, when the person is limited, the person impacts the baffle after filling the diamond material into the shell and falls on the baffle, the impact force received by the baffle is slowed down through the buffer spring and the buffer pad, so that the diamond material slides down to reach the second screen after being buffered by the baffle, and the damage of the screen caused by the impact force of the diamond material directly falling is prevented.

2. According to the utility model, by arranging the shell, when a person sieves the diamond material, the diamond material slides down to the second screen through the buffer of the baffle plate, so that the person can open the vibrating motor to drive the first screen and the second screen to vibrate, the first screen and the second screen can be used for sieving the diamond material, the person opens the driving motor to drive the fixing rod to rotate during sieving, and the material falling on the second screen can be stirred during rotation of the fixing rod, so that the diamond material is prevented from directly falling and accumulating to influence sieving, and diamond processing and use are met.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic side view of the spacing frame of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

In the figure: 1. a support block; 2. a base; 3. a limit groove; 4. a storage box; 5. a housing; 6. a discharge pipe; 7. a vibration motor; 8. a driving motor; 9. a fixed rod; 10. a first screen; 11. a second screen; 12. a mounting frame; 13. a first fixed pipe; 14. a second fixed pipe; 15. a limiting frame; 16. a feed pipe; 17. a baffle; 18. a support plate; 19. a rotating shaft; 20. a cushion pad; 21. a first limit rod; 22. a second limiting rod; 23. and a buffer spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1-3, the multi-stage screening device for materials provided by the utility model comprises a base 2, a shell 5 and a baffle 17,

the top end surface of the base 2 is welded with a shell 5 through a mounting frame 12;

the supporting plate 18 is welded on the top end surface of the inner wall of the shell 5 through the limiting frame 15, the rotating shaft 19 is welded in the limiting frame 15, and the baffle 17 is sleeved on the rotating shaft 19;

a first limiting rod 21 is welded on the top end surface of the supporting plate 18, and a cushion pad 20 is attached to the inner wall of the first limiting rod 21;

a second limiting rod 22 is welded on the bottom end surface of the baffle 17;

the screen cloth I10 and the screen cloth II 11 are installed to the inner wall side terminal surface of casing 5, and vibrating motor 7 is all installed to the bottom terminal surface of screen cloth I10 and screen cloth II 11, and driving motor 8 is installed to the bottom terminal surface of screen cloth II 11, and is provided with dead lever 9 on driving motor 8's the output shaft.

The top end surface of the shell 5 is embedded and fixed with a feed pipe 16, the feed pipe 16 is communicated with the shell 5, and the feed pipe 16 is communicated with the shell 5, so that people can inject the diamond into the shell 5 through the feed pipe 16 for screening after crushing the diamond.

The second limiting rod 22 is sleeved in the first limiting rod 21 in a sliding manner, the second limiting rod 22 is installed on the buffer cushion 20 through the buffer spring 23, and the second limiting rod 22 is sleeved in the first limiting rod 21 in a sliding manner, so that the baffle 17 is installed and limited, and when the diamond material is injected into the shell 5, a person impacts on the baffle 17, and after the diamond material falls on the baffle 17, the impact force received by the baffle 17 is relieved through the buffer spring 23 and the buffer cushion 20.

The side end face of the shell 5 is embedded and fixed with a first fixed pipe 13 and a second fixed pipe 14, the first fixed pipe 13 and the second fixed pipe 14 are communicated with the shell 5, and particles which are not in accordance with the size after being screened by the first screen 10 and the second screen 11 are discharged through the first fixed pipe 13 and the second fixed pipe 14 and the shell 5.

Based on example 1: personnel are in the screening to diamond material, be linked together through inlet pipe 16 and casing 5, make personnel sieve in the casing 5 is poured into to accessible inlet pipe 16 after the diamond is broken, slide through gag lever post second 22 and cup joint in gag lever post first 21 when pouring into the material, thereby install and spacing baffle 17, personnel strike on baffle 17 after pouring into casing 5 to diamond material in the time of spacing, fall on baffle 17 after, the impact force that baffle 17 received slows down through buffer spring 23 and buffer pad 20, make diamond material through baffle 17 buffering back slip whereabouts to reach on screen cloth second 11, prevent the impact force that the diamond material directly falls to cause the damage of screen cloth.

Example two

As shown in fig. 1-3, the multi-stage screening device for materials according to the present utility model further includes, compared to the first embodiment: a base 2, a shell 5 and a baffle 17,

the top end surface of the base 2 is welded with a shell 5 through a mounting frame 12;

the supporting plate 18 is welded on the top end surface of the inner wall of the shell 5 through the limiting frame 15, the rotating shaft 19 is welded in the limiting frame 15, and the baffle 17 is sleeved on the rotating shaft 19;

a first limiting rod 21 is welded on the top end surface of the supporting plate 18, and a cushion pad 20 is attached to the inner wall of the first limiting rod 21;

a second limiting rod 22 is welded on the bottom end surface of the baffle 17;

the screen cloth I10 and the screen cloth II 11 are installed to the inner wall side terminal surface of casing 5, and vibrating motor 7 is all installed to the bottom terminal surface of screen cloth I10 and screen cloth II 11, and driving motor 8 is installed to the bottom terminal surface of screen cloth II 11, and is provided with dead lever 9 on driving motor 8's the output shaft.

The bottom end face of the base 2 is welded with supporting blocks 1, the supporting blocks 1 are provided with four, the four supporting blocks 1 are distributed in rectangular arrays relative to the base 2, and the base 2 can be installed and fixed through the supporting blocks 1.

The limiting groove 3 is formed in the base 2, the storage box 4 is sleeved in the limiting groove 3 in a sliding mode, and the storage box 4 is sleeved in the limiting groove 3 in a sliding mode, so that a person can take and pick up the screened diamond materials after placing the storage box 4.

The bottom end face embedding of casing 5 is fixed with discharging pipe 6, and discharging pipe 6 is linked together with casing 5, is linked together with casing 5 through discharging pipe 6, makes the material after screening in casing 5 carry out the screening discharge through discharging pipe 6.

Based on example 2: personnel when sieving diamond material, diamond material passes through baffle 17 buffering back slip whereabouts and reaches on screen cloth two 11, make personnel can open vibrating motor 7 and drive screen cloth one 10 and screen cloth two 11 and vibrate to accessible screen cloth one 10 and screen cloth two 11 sieve diamond material, personnel open driving motor 8 and drive dead lever 9 and rotate during the screening, can stir the material that falls on screen cloth two 11 when dead lever 9 rotates, prevent that diamond material from directly falling behind pile up influence screening.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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 (7)

1. The utility model provides a multistage screening plant of material, includes base (2), casing (5) and baffle (17), its characterized in that:

the top end surface of the base (2) is welded with a shell (5) through a mounting rack (12);

a supporting plate (18) is welded on the top end surface of the inner wall of the shell (5) through a limiting frame (15), a rotating shaft (19) is welded in the limiting frame (15), and a baffle (17) is sleeved on the rotating shaft (19);

a first limiting rod (21) is welded on the top end surface of the supporting plate (18), and a buffer cushion (20) is mounted on the inner wall of the first limiting rod (21) in a fitting manner;

a second limiting rod (22) is welded on the bottom end surface of the baffle (17);

the screen cloth I (10) and screen cloth II (11) are installed to the inner wall side terminal surface of casing (5), and vibrating motor (7) are all installed to the bottom surface of screen cloth I (10) and screen cloth II (11), driving motor (8) are installed to the bottom surface of screen cloth II (11), and are provided with dead lever (9) on the output shaft of driving motor (8).

2. A multi-stage material screening apparatus according to claim 1, wherein: a limit groove (3) is formed in the base (2), and a storage box (4) is sleeved in the limit groove (3) in a sliding mode.

3. A multi-stage material screening apparatus according to claim 1, wherein: the bottom end face of the base (2) is welded with supporting blocks (1), the four supporting blocks (1) are arranged in total, and the four supporting blocks (1) are distributed in a rectangular array relative to the base (2).

4. A multi-stage material screening apparatus according to claim 1, wherein: the top end surface of the shell (5) is embedded and fixed with a feeding pipe (16), and the feeding pipe (16) is communicated with the shell (5).

5. A multi-stage material screening apparatus according to claim 1, wherein: the bottom end face of the shell (5) is embedded and fixed with a discharging pipe (6), and the discharging pipe (6) is communicated with the shell (5).

6. A multi-stage material screening apparatus according to claim 1, wherein: the second limiting rod (22) is sleeved in the first limiting rod (21) in a sliding mode, and the second limiting rod (22) is installed on the buffer cushion (20) through a buffer spring (23).

7. A multi-stage material screening apparatus according to claim 1, wherein: the side end face of the shell (5) is embedded and fixed with a first fixed pipe (13) and a second fixed pipe (14), and the first fixed pipe (13) and the second fixed pipe (14) are communicated with the shell (5).