CN220618768U - Novel pre-heater spills workbin - Google Patents

Abstract

The utility model relates to the technical field of pre-heater material scattering, in particular to a novel pre-heater material scattering box. The technical proposal comprises: the feeding pipe is embedded and fixed on the top end face of the scattering box body, the second driving motor is installed on the rear end face of the feeding pipe, and a roll shaft is arranged on an output shaft of the second driving motor; the bottom end surface of the material scattering box body is fixedly embedded in the air pipe of the preheater through a material discharging pipe, a driving motor III is arranged on the rear end surface of the material discharging pipe, and a stirring rod is welded on an output shaft of the driving motor III through a rotating shaft; a screen is arranged on the vibration motor; the top end surface of the fixed pipe is provided with a first driving motor, and a spiral blade is welded on an output shaft of the first driving motor through a connecting shaft; the side end face of the fixed pipe is embedded and fixed with a first connecting pipe and a second connecting pipe. The utility model meets the requirements of material scattering of the preheater, and secondary processing and screening are carried out during material scattering.

Description

Novel pre-heater spills workbin

Technical Field

The utility model relates to the technical field of pre-heater material scattering, in particular to a novel pre-heater material scattering box.

Background

In the novel dry cement clinker process, materials are added into an air pipe of a preheater, and the materials are preheated by utilizing waste heat, so that a material scattering device is arranged on the air pipe of the preheater to uniformly scatter the materials into the air pipe.

However, when the materials are subjected to bulk material, the particle size is not uniform, so that the materials need to be processed and sieved again, the uniformity of the particle size is guaranteed, the heating is improved, and the materials need to be fed and processed again after sieving, so that the normal production of the bulk material can be met.

Disclosure of Invention

The utility model aims to provide a novel pre-heater scattering box so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a novel pre-heater material scattering box, which comprises a pre-heater air pipe, a material scattering box body, a vibrating motor and a fixed pipe,

the feeding pipe is fixedly embedded into the top end surface of the scattering box body, the second driving motor is installed on the rear end surface of the feeding pipe, and a roll shaft is arranged on an output shaft of the second driving motor;

the bottom end surface of the material scattering box body is fixedly embedded in the air pipe of the preheater through a material discharging pipe, a driving motor III is arranged on the rear end surface of the material discharging pipe, and a stirring rod is welded on an output shaft of the driving motor III through a rotating shaft;

a screen is arranged on the vibration motor;

the top end surface of the fixed pipe is provided with a first driving motor, and a spiral blade is welded on an output shaft of the first driving motor through a connecting shaft;

the side end face of the fixed pipe is embedded and fixed with a first connecting pipe and a second connecting pipe.

Preferably, the discharging pipe is communicated with the scattering box body, and the discharging pipe is communicated with the air pipe of the preheater. The material feeding device is communicated with the air pipe of the preheater, so that materials which enter the material scattering box body for processing and screening can be discharged into the air pipe of the preheater through the material feeding pipe, and the driving motor III can be turned on to drive the stirring rod to rotate through the rotating shaft before being discharged, so that the stirring rod can break up the materials.

Preferably, the connecting block is installed to vibrating motor's side terminal surface, and the one end that the connecting block deviates from vibrating motor installs on spilling the workbin body. The vibration motor can be arranged on the scattering box body through the connecting block.

Preferably, one end of the second connecting pipe, which is away from the fixed pipe, is embedded and fixed in the scattering box body, and the scattering box body is communicated with the fixed pipe through the second connecting pipe. The second connecting pipe can discharge the materials which cannot pass through the meshes after being screened on the screen into the fixed pipe.

Preferably, one end of the first connecting pipe, which is away from the fixed pipe, is embedded and fixed in the feeding pipe, and the feeding pipe is communicated with the fixed pipe through the first connecting pipe. The material entering the fixed pipe can be discharged into the feeding pipe through the connecting pipe I.

Preferably, the side end face of the fixed pipe is welded with a mounting frame, and one end of the mounting frame, deviating from the fixed pipe, is welded on the scattering box body. The fixing pipe can be arranged on the scattering box body through the mounting frame.

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

1. according to the utility model, by arranging the material scattering box body, when a person scatters materials in the air pipe of the preheater, the person can inject the materials to be processed and preheated into the material scattering box body through the material feeding pipe, the person can open the driving motor II to drive the roll shaft to carry out secondary processing on the materials during injection, the phenomenon that the sizes of particles are different is prevented from influencing the feeding heating, after the materials are processed and fall on the screen, the person can open the vibrating motor to drive the screen to vibrate and screen the materials, so that the materials with the sizes of composite particles can be fed, the materials are communicated with the air pipe of the preheater through the material discharging pipe, the materials which enter the air pipe of the material scattering box body for processing and screening can be discharged into the air pipe of the preheater through the material discharging pipe, and the driving motor III can be opened to drive the stirring rod to rotate through the rotating shaft before discharging, so that the stirring rod can scatter the materials, and the materials are heated more uniformly during feeding, and the requirement of later use is met.

2. According to the utility model, by arranging the fixed pipe, when a person performs material scattering in the air pipe of the preheater, the second connecting pipe can be used for discharging the material which cannot pass through the mesh after screening on the screen into the fixed pipe, the first driving motor can be started by the person after discharging to drive the spiral blade to rotate through the connecting shaft, so that the material can be spirally conveyed to move upwards, the first connecting pipe can be used for discharging the material entering the fixed pipe into the feeding pipe after moving upwards, the material can be processed again to meet the requirement of later material scattering production, and the material can be processed again after backflow.

Drawings

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

FIG. 2 is a schematic diagram of the front view of the present utility model;

fig. 3 is a schematic rear view of the present utility model.

In the figure: 1. a preheater air duct; 2. a discharge pipe; 3. a rotating shaft; 4. a spreading box body; 5. a screen; 6. a vibration motor; 7. a connecting block; 8. a feed pipe; 9. a roll shaft; 10. a first connecting pipe; 11. driving a first motor; 12. a connecting shaft; 13. a helical blade; 14. a mounting frame; 15. a second connecting pipe; 16. a fixed tube; 17. a stirring rod; 18. a second driving motor; 19. and driving a motor III.

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 novel pre-heater material scattering box provided by the utility model comprises a pre-heater air pipe 1, a material scattering box body 4, a vibrating motor 6 and a fixed pipe 16,

the top end surface of the spreading box body 4 is embedded and fixed with a feeding pipe 8, the rear end surface of the feeding pipe 8 is provided with a second driving motor 18, and the output shaft of the second driving motor 18 is provided with a roll shaft 9;

the bottom end surface of the scattering box body 4 is embedded and fixed in the air pipe 1 of the preheater through a discharging pipe 2, a driving motor III 19 is arranged on the rear end surface of the discharging pipe 2, and a stirring rod 17 is welded on the output shaft of the driving motor III 19 through a rotating shaft 3;

the vibration motor 6 is provided with a screen 5;

the top end surface of the fixed pipe 16 is provided with a first driving motor 11, and a spiral blade 13 is welded on the output shaft of the first driving motor 11 through a connecting shaft 12;

the side end face of the fixed pipe 16 is embedded and fixed with a first connecting pipe 10 and a second connecting pipe 15.

The discharging pipe 2 is communicated with the material scattering box body 4, the discharging pipe 2 is communicated with the preheater air pipe 1, the material which enters the material scattering box body 4 for processing and screening can be discharged into the preheater air pipe 1 through the discharging pipe 2, and the driving motor III 19 can be turned on before the material is discharged to drive the stirring rod 17 to rotate through the rotating shaft 3, so that the stirring rod 17 can break up the material.

The connecting block 7 is installed to the side terminal surface of vibrating motor 6, and the one end that the connecting block 7 deviates from vibrating motor 6 is installed on spilling case body 4, can install vibrating motor 6 on spilling case body 4 through connecting block 7.

Based on example 1: personnel can inject the material that needs processing to preheat into spilling the workbin body 4 through inlet pipe 8 when spilling the material in to preheater tuber pipe 1, personnel can open driving motor two 18 and drive roller 9 can be to material secondary operation during the injection, prevent that the granule size is different to influence the feeding heating, and after the material processing back falls on screen cloth 5, personnel can open vibrating motor 6 and drive screen cloth 5 and vibrate and sieve the material, thereby can carry out the unloading to the material of compound granule size, and be linked together with preheater tuber pipe 1 through discharging pipe 2, make the material accessible discharging pipe 2 that gets into and process in spilling the workbin body 4 and sieve in, can open driving motor three 19 and drive puddler 17 through pivot 3 and rotate before the row, thereby make puddler 17 can break up the material, thereby be heated more evenly when making the material feeding.

Example two

As shown in fig. 1-3, compared with the first embodiment, the novel pre-heater scattering box provided by the present utility model further includes: a preheater air pipe 1, a scattering box body 4, a vibrating motor 6 and a fixed pipe 16,

the top end surface of the spreading box body 4 is embedded and fixed with a feeding pipe 8, the rear end surface of the feeding pipe 8 is provided with a second driving motor 18, and the output shaft of the second driving motor 18 is provided with a roll shaft 9;

the bottom end surface of the scattering box body 4 is embedded and fixed in the air pipe 1 of the preheater through a discharging pipe 2, a driving motor III 19 is arranged on the rear end surface of the discharging pipe 2, and a stirring rod 17 is welded on the output shaft of the driving motor III 19 through a rotating shaft 3;

the vibration motor 6 is provided with a screen 5;

the top end surface of the fixed pipe 16 is provided with a first driving motor 11, and a spiral blade 13 is welded on the output shaft of the first driving motor 11 through a connecting shaft 12;

the side end face of the fixed pipe 16 is embedded and fixed with a first connecting pipe 10 and a second connecting pipe 15.

One end of the second connecting pipe 15, which is far away from the fixed pipe 16, is embedded and fixed in the scattering box body 4, the scattering box body 4 is communicated with the fixed pipe 16 through the second connecting pipe 15, and materials which cannot pass through meshes after being screened on the screen 5 can be discharged into the fixed pipe 16 through the second connecting pipe 15.

One end of the first connecting pipe 10, which is away from the fixed pipe 16, is embedded and fixed in the feeding pipe 8, the feeding pipe 8 is communicated with the fixed pipe 16 through the first connecting pipe 10, and materials entering the fixed pipe 16 can be discharged into the feeding pipe 8 through the first connecting pipe 10.

The side end face of the fixed pipe 16 is welded with the mounting frame 14, one end of the mounting frame 14, which is away from the fixed pipe 16, is welded on the scattering box body 4, and the fixed pipe 16 can be mounted on the scattering box body 4 through the mounting frame 14.

Based on example 2: when a person sprays materials in the air pipe 1 of the preheater, the second connecting pipe 15 can discharge the materials which cannot pass through meshes after screening on the screen 5 into the fixed pipe 16, the first driving motor 11 can be started to drive the helical blade 13 to rotate through the connecting shaft 12 after discharging, so that the materials can be conveyed in a spiral manner to move upwards, and the materials entering the fixed pipe 16 can be discharged into the feed pipe 8 through the first connecting pipe 10 after moving upwards, so that the materials are processed again to meet the requirement of later material spraying production.

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 (6)

1. The utility model provides a novel pre-heater spills workbin, includes pre-heater tuber pipe (1), spills workbin body (4), vibrating motor (6) and fixed pipe (16), its characterized in that:

a feeding pipe (8) is fixedly embedded into the top end surface of the scattering box body (4), a second driving motor (18) is mounted on the rear end surface of the feeding pipe (8), and a roll shaft (9) is arranged on an output shaft of the second driving motor (18);

the bottom end surface of the material scattering box body (4) is embedded and fixed in the air pipe (1) of the preheater through a material discharging pipe (2), a driving motor III (19) is arranged on the rear end surface of the material discharging pipe (2), and a stirring rod (17) is welded on an output shaft of the driving motor III (19) through a rotating shaft (3);

a screen (5) is arranged on the vibration motor (6);

a first driving motor (11) is arranged on the top end surface of the fixed pipe (16), and a spiral blade (13) is welded on an output shaft of the first driving motor (11) through a connecting shaft (12);

the side end face of the fixed pipe (16) is embedded and fixed with a first connecting pipe (10) and a second connecting pipe (15).

2. A novel preheater spreading box as set forth in claim 1, wherein: the discharging pipe (2) is communicated with the material scattering box body (4), and the discharging pipe (2) is communicated with the air pipe (1) of the preheater.

3. A novel preheater spreading box as set forth in claim 1, wherein: the side end face of the vibrating motor (6) is provided with a connecting block (7), and one end of the connecting block (7) deviating from the vibrating motor (6) is arranged on the scattering box body (4).

4. A novel preheater spreading box as set forth in claim 1, wherein: one end of the second connecting pipe (15) deviating from the fixed pipe (16) is embedded and fixed in the scattering box body (4), and the scattering box body (4) is communicated with the fixed pipe (16) through the second connecting pipe (15).

5. A novel preheater spreading box as set forth in claim 1, wherein: one end of the first connecting pipe (10) deviating from the fixed pipe (16) is embedded and fixed in the feeding pipe (8), and the feeding pipe (8) is communicated with the fixed pipe (16) through the first connecting pipe (10).

6. A novel preheater spreading box as set forth in claim 1, wherein: the side end face of the fixed pipe (16) is welded with the mounting frame (14), and one end of the mounting frame (14) deviating from the fixed pipe (16) is welded on the scattering box body (4).