CN219433783U - A high temperature processingequipment for ceramic alumina powder production - Google Patents

Abstract

The utility model discloses a high-temperature processing device for ceramic alumina powder production, which comprises a processing box body, a high-temperature mixing box and a second air blower, wherein the high-temperature mixing box is arranged on the right side of the interior of the processing box body, a stirring mechanism is arranged below a first power motor through an output shaft, and a second hot air pipe and a second air supply pipe are respectively arranged on the left side and the right side of the first air blower. This a high temperature processingequipment for ceramic alumina powder production is provided with first air-blower, second hot-blast main and second blast main, starts first air-blower, and first air-blower draws the heat of processing box through the second hot-blast main, makes the ceramic alumina powder surface temperature that the processing box internal heating was accomplished reduce gradually to can not take place the condensation phenomenon because the difference in temperature is too big when making ceramic alumina powder ejection of compact, and the heat that the second hot-blast main was taken out is carried to the heating cabinet through the second blast main, plays heat recovery's effect, more energy-concerving and environment-protective.

Description

A high temperature processingequipment for ceramic alumina powder production

Technical Field

The utility model relates to the technical field of alumina powder, in particular to a high-temperature processing device for ceramic alumina powder production.

Background

The production process of alumina powder is higher and higher, and alumina powder with the diameter of less than 1 micron can be produced. The transparent nano alumina liquid XZ-LY101 is colorless and transparent, and the ceramic alumina can be used for preparing ceramics, has the characteristics of extremely hard quality, high melting point, acid and alkali resistance, corrosion resistance and good insulativity, and needs to be heated in the preparation of the ceramic alumina powder so as to take out the moisture in the powder.

The high-temperature processing device for producing the ceramic alumina powder has the advantages that the filtering and screening of the alumina powder can be conveniently realized through the common cooperation of a motor, a connecting shaft, rolling contact of a cam and a sliding plate, a reset spring, a filter plate which is obliquely arranged, a guide plate which is obliquely arranged, a hot air blower, an air delivery pipe, an air outlet pipe, a large belt pulley, a small belt pulley and a belt, a rotating shaft and a plurality of stirring shafts, unqualified alumina powder can be discharged, and the alumina powder can be fully heated and processed, but the device has certain defects;

1. the device is heated simultaneously when sieving ceramic alumina powder, and qualified aluminum powder after sieving is heated continuously again, so that ceramic alumina powder is heated more fully, ceramic alumina powder sieved on a filter plate is not heated fully, and the moisture in the powder is easy to adhere the ceramic alumina powder to the filter plate, so that the filter plate is blocked, and the sieving effect is affected.

2. The ceramic alumina powder just heated is directly discharged from a discharge port, and because the surface temperature of the ceramic alumina powder is higher and the temperature difference between the ceramic alumina powder and the external environment is larger, when the ceramic alumina powder with high temperature enters the external environment with relatively low temperature, condensation can occur, so that the ceramic alumina powder generates moisture due to condensation.

We have therefore proposed a high temperature processing apparatus for ceramic alumina powder production in order to solve the problems set forth above.

Disclosure of Invention

The utility model aims to provide a high-temperature processing device for ceramic alumina powder production, which aims to solve the problems that the high-temperature processing device for ceramic alumina powder production, which is currently available in the market and is proposed in the background art, is used for simultaneously heating when screening ceramic alumina powder, and qualified alumina powder after screening is continuously heated, so that the ceramic alumina powder is more fully heated, and the ceramic alumina powder screened on a filter plate is not fully heated, so that moisture in the powder is easy to adhere the ceramic alumina powder to the filter plate, and the filter plate is blocked, thereby influencing the screening effect; the ceramic alumina powder just heated is directly discharged from a discharge port, and because the surface temperature of the ceramic alumina powder is higher, the temperature difference between the ceramic alumina powder and the external environment is larger, and when the ceramic alumina powder with high temperature enters the external environment with relatively low temperature, condensation can occur, so that the problem that the ceramic alumina powder generates moisture due to condensation is caused.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a high temperature processingequipment for ceramic alumina powder production, includes processing box, high temperature mixing box and second air-blower, feed inlet, first air-blower, first power motor and heating cabinet are installed in proper order from a left side to the right side to the top of processing box, and the second power motor is installed in the left side of processing box, and the internally mounted of processing box has the conveyer pipe, the conveyer auger is installed through the output shaft on the right side of second power motor, the high temperature mixing box is installed on the inside right side of processing box, and the first discharge gate is installed to the left end of high temperature mixing box, rabbling mechanism is installed through the output shaft to the below of first power motor, the second air-blower is installed on the right side of processing box, and the upper and lower both sides of second air-blower are installed first hot-blast pipe and first blast pipe respectively, vibration motor is installed in the left side of processing box, and the inside of processing box is installed from last filter plate and the lower side in proper order to the filter plate, but the second discharge gate is installed to the inside of processing box, but the top surface setting up the high temperature mixing box.

Preferably, the upper port of the feed inlet is of an inclined structure design, and the lower end of the feed inlet is connected with the inside of the conveying pipe.

By adopting the structural design, the ceramic alumina powder is conveniently put into the conveying pipe from the feed inlet, and the ceramic alumina powder is prevented from being blocked at the position of the feed inlet.

Preferably, the conveying auger is located in the conveying pipe, and the central line of the conveying pipe and the central line of the conveying auger are mutually overlapped.

By adopting the structural design, the second power motor is started, the second power motor drives the conveying auger to rotate through the output shaft, and then the conveying auger breaks up the ceramic alumina powder and uniformly conveys the ceramic alumina powder into the high-temperature mixing box for heating, so that the ceramic alumina powder is prevented from being adhered together.

Preferably, a through hole is formed above the high-temperature mixing box, the high-temperature mixing box and the conveying pipe are connected through a guide plate, the right side of the guide plate is connected with the left side of the through hole, and the stirring mechanism is located inside the high-temperature mixing box.

By adopting the structural design, the ceramic alumina powder enters the high-temperature mixing box through the guide plate at the position of the through hole to be heated, the first power motor is started, and the first power motor drives the stirring mechanism to rotate through the output shaft, and the stirring mechanism stirs the ceramic alumina powder in the high-temperature mixing box, so that the ceramic alumina powder is heated more uniformly.

Preferably, the right end of first hot-blast main is connected with the heating cabinet, and the first blast pipe of first hot-blast main below is connected with the high temperature mixing box, can add the heating wire according to heating temperature's demand in the high temperature mixing box moreover.

By adopting the structural design, the heating box and the second air blower are started, and the second air blower extracts heat from the heating box through the first hot air pipe and conveys the heat to the high-temperature mixing box through the first air supply pipe to heat the ceramic alumina powder.

Preferably, the second hot air pipe is connected with the inside of the processing box body, and the second air supply pipe on the right side of the second hot air pipe is connected with the left end of the heating box.

By adopting the structural design, the first air blower is started, and the first air blower extracts heat of the processing box body through the second hot air pipe, so that the surface temperature of the ceramic alumina powder heated in the processing box body is gradually reduced, and therefore, the phenomenon of condensation can not occur due to overlarge temperature difference when the ceramic alumina powder is discharged, and the heat extracted by the second hot air pipe is conveyed to the heating box through the second air pipe, so that the effect of heat recovery is achieved, and the ceramic alumina powder is more energy-saving and environment-friendly.

Preferably, the filter screen and the material collecting plate are of a reverse inclined structural design, the vibration motor is located at the left end of the filter screen, and the second discharge port and the third discharge port are located above the filter screen and the material collecting plate respectively.

By adopting the structural design, the vibration motor is started, the vibration motor drives the filter screen to vibrate, qualified ceramic alumina powder on the surface of the filter screen is filtered onto the material collecting plate and is discharged through the third discharge port, and unqualified ceramic alumina powder is discharged through the second discharge port.

Compared with the prior art, the utility model has the beneficial effects that: this a high temperature processingequipment for ceramic alumina powder production:

1. the conveying auger is arranged, the second power motor is started, the second power motor drives the conveying auger to rotate through the output shaft, and then the conveying auger uniformly breaks up the ceramic alumina powder and conveys the ceramic alumina powder into the high-temperature mixing box for heating, so that the ceramic alumina powder is prevented from being adhered together;

2. the ceramic alumina powder heating device is provided with a high-temperature mixing box, a through hole, a guide plate and a stirring mechanism, so that the ceramic alumina powder enters the high-temperature mixing box through the guide plate to be heated at the position of the through hole, and a first power motor is started and drives the stirring mechanism to rotate through an output shaft, and the stirring mechanism stirs the ceramic alumina powder in the high-temperature mixing box, so that the ceramic alumina powder is heated more uniformly;

3. the ceramic alumina powder heating device is provided with a heating box, a second air blower, a first hot air pipe and a first air supply pipe, wherein the heating box and the second air blower are started, the second air blower extracts heat of the heating box through the first hot air pipe and conveys the heat of the heating box into the high-temperature mixing box through the first air supply pipe to heat the ceramic alumina powder;

4. be provided with first air-blower, second hot-blast main and second blast main, start first air-blower, first air-blower is taken out the heat of processing box through the second hot-blast main, makes the ceramic alumina powder surface temperature that the processing box internal heating was accomplished reduce gradually to can not take place the condensation phenomenon because of the too big difference in temperature when making ceramic alumina powder ejection of compact, and the heat that the second hot-blast main was taken out is carried to the heating cabinet through the second blast main, plays heat recovery's effect, more energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic view of the main section structure of the present utility model;

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

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1B according to the present utility model;

FIG. 5 is a schematic view of the structure of the feed inlet of the present utility model.

In the figure: 1. processing the box body; 2. a feed inlet; 3. a first blower; 4. a first power motor; 5. a heating box; 6. a second power motor; 7. a delivery tube; 8. conveying the auger; 9. a high temperature mixing box; 10. a through hole; 11. a first discharge port; 12. a deflector; 13. a stirring mechanism; 14. a second blower; 15. a first hot air duct; 16. a first air supply pipe; 17. a second hot air duct; 18. a second air supply pipe; 19. a vibration motor; 20. a filter screen; 21. a collecting plate; 22. a second discharge port; 23. a third discharge port; 24. a material carrying plate; 25. and a visual window.

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.

Referring to fig. 1-5, the present utility model provides a technical solution: a high temperature processingequipment for ceramic alumina powder production, including processing box 1, feed inlet 2, first air-blower 3, first power motor 4, heating cabinet 5, second power motor 6, conveyer pipe 7, carry auger 8, high temperature mixing box 9, through-hole 10, first discharge gate 11, the guide plate 12, rabbling mechanism 13, second air-blower 14, first hot-blast main 15, first blast pipe 16, second hot-blast main 17, second blast pipe 18, vibrations motor 19, filter screen 20, aggregate plate 21, second discharge gate 22, third discharge gate 23, carry plate 24 and visual window 25, feed inlet 2 is installed in proper order from a left side to the right side to the top of processing box 1, first air-blower 3, first power motor 4 and heating cabinet 5, and second power motor 6 is installed in the left side of processing box 1, moreover, the internally mounted of processing box 1 has conveyer pipe 7, the port is the slope structure design on feed inlet 2, and the lower extreme of feed inlet 2 is connected with the inside of conveyer pipe 7, be convenient for carry the motor 2 with the ceramic alumina powder 7 in the inside diameter of the second power motor 8 to prevent that the inside from taking place the ceramic alumina powder 8 from the inside the second power motor 8, prevent that the ceramic alumina powder from taking place in the fact the high-speed 8, the ceramic alumina powder 8 from the inside the ceramic alumina powder 8 is carried out, the ceramic alumina powder is carried out the inside the ceramic alumina powder 8, and the ceramic alumina powder is guaranteed to be the ceramic alumina powder 8, and the ceramic alumina powder is well-finished, and the ceramic alumina powder is mounted in the ceramic alumina powder, and the ceramic alumina powder is the ceramic alumina powder, and the high temperature is the high temperature.

The inside right side of processing box 1 installs high temperature mixing box 9, and first discharge gate 11 is installed to high temperature mixing box 9's left end, rabbling mechanism 13 is installed through the output shaft to the below of first power motor 4, through-hole 10 has been seted up to high temperature mixing box 9's top, and high temperature mixing box 9 is connected through guide plate 12 with conveyer pipe 7, and the right side of guide plate 12 is connected with the left side of through-hole 10 moreover, and rabbling mechanism 13 is located high temperature mixing box 9's inside, make ceramic alumina powder get into high temperature mixing box 9 internal heating through guide plate 12 in through-hole 10 position, and start first power motor 4, first power motor 4 passes through output shaft drive rabbling mechanism 13 rotatory, rabbling mechanism 13 stirs ceramic alumina powder in the high temperature mixing box 9, make ceramic alumina powder heated more evenly.

The second air blower 14 is installed on the right side of the processing box body 1, and the first hot-blast main 15 and the first blast main 16 are installed respectively to the upper and lower both sides of the second air blower 14, first hot-blast main 15 is connected with the right-hand member of heating box 5, and the first blast main 16 of first hot-blast main 15 below is connected with high temperature mixing box 9, can add the heating wire according to heating temperature's demand in the high temperature mixing box 9 moreover, start heating box 5 and second air blower 14, the second air blower 14 is taken out the heating box 5 heat through first hot-blast main 15, and carry and heat ceramic alumina powder to the high temperature mixing box 9 through first blast main 16, second hot-blast main 17 and second blast main 18 are installed respectively to the left and right sides of first air blower 3, second hot-blast main 17 is connected with the inside of processing box body 1, and the second blast main 18 on the right side of second hot-blast main 17 is connected with the left end of heating box 5, start first air blower 3, the first air blower 3 is taken out the heat of processing box body 1 through second hot-blast main 17, thereby the ceramic alumina powder is cooled down to the second hot-blast main 17, the temperature difference is more than the ceramic alumina powder is taken out to the heating box body is more energy-conserving when the second hot-blast main 1, the ceramic alumina powder is taken out, and the ceramic alumina powder is more than the second alumina powder is cooled down, and the ceramic alumina powder is more energy-conserving, and the ceramic alumina powder is more cooled.

The vibration motor 19 is installed in the left side of processing box 1, and filter screen 20 and material collecting plate 21 have been installed in proper order from top to bottom to the inside of processing box 1, and third discharge gate 23 and second discharge gate 22 are installed respectively in the left and right sides of processing box 1 moreover, filter screen 20 and material collecting plate 21 are reverse slope structural design, and vibration motor 19 is located the left end of filter screen 20, and second discharge gate 22 and third discharge gate 23 are located the top of filter screen 20 and material collecting plate 21 respectively, start vibration motor 19, vibration motor 19 drives filter screen 20 vibrations, filter the qualified ceramic alumina powder on filter screen 20 surface to material collecting plate 21 on, and discharge through third discharge gate 23, unqualified ceramic alumina powder passes through second discharge gate 22 and discharges, the slope of high temperature mixing box 9 inside is provided with material carrying plate 24, visual window 25 is installed on the front surface of processing box 1.

Working principle: when the high-temperature processing device for producing the ceramic alumina powder is used, firstly, the first blower 3, the first power motor 4, the heating box 5, the second power motor 6, the second blower 14 and the vibration motor 19 are started, then the ceramic alumina powder is put into the conveying pipe 7 through the feeding hole 2 and uniformly conveyed into the high-temperature mixing box 9 through the conveying auger 8, the second blower 14 pumps out the heat of the heating box 5 through the first hot air pipe 15 and conveys the heat into the high-temperature mixing box 9 through the first air pipe 16 to heat the ceramic alumina powder, then the first power motor 4 drives the stirring mechanism 13 to rotate through the output shaft, and the stirring mechanism 13 stirs the ceramic alumina powder in the high-temperature mixing box 9, so that the ceramic alumina powder is heated more uniformly.

The ceramic alumina powder falls into the filter screen 20 by the loading plate 24 and the first discharge port 11, then the first blower 3 extracts the heat of the processing box body 1 through the second hot air pipe 17, so that the surface temperature of the ceramic alumina powder heated in the processing box body 1 is gradually reduced, the phenomenon of condensation can not occur due to overlarge temperature difference during discharging of the ceramic alumina powder, the heat extracted by the second hot air pipe 17 is conveyed to the heating box 5 through the second air pipe 18, the effect of heat recovery is achieved, the energy is more saved, the environment is protected, then the vibration motor 19 drives the filter screen 20 to vibrate, the qualified ceramic alumina powder on the surface of the filter screen 20 is filtered onto the aggregate plate 21, the unqualified ceramic alumina powder is discharged through the third discharge port 23, and the unqualified ceramic alumina powder is discharged through the second discharge port 22. Thereby completing a series of works. What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A high temperature processingequipment for ceramic alumina powder production, including processing box (1), high temperature mixing box (9) and second air-blower (14), its characterized in that: the upper part of the processing box body (1) is provided with a feed inlet (2), a first air blower (3), a first power motor (4) and a heating box (5) from left to right in sequence, the left side of the processing box body (1) is provided with a second power motor (6), the inside of the processing box body (1) is provided with a conveying pipe (7), the right side of the second power motor (6) is provided with a conveying auger (8) through an output shaft, the right side of the inside of the processing box body (1) is provided with a high-temperature mixing box (9), the left end of the high-temperature mixing box (9) is provided with a first discharge hole (11), the lower part of the first power motor (4) is provided with a stirring mechanism (13) through an output shaft, the right side of the processing box body (1) is provided with a second air blower (14), the upper side and the lower side of the second air blower (14) are respectively provided with a first hot air pipe (15) and a first air supply pipe (16), the left side and the right side of the first air blower (3) are respectively provided with a second hot air pipe (17) and a second air supply pipe (18), the left side of the processing box body (1) is provided with a vibration motor (19), the inside of the processing box body (1) is provided with a filter screen (20) and a collecting plate (21) from top to bottom in sequence, and the left and right sides of processing box (1) are installed third discharge gate (23) and second discharge gate (22) respectively, high temperature mixing box (9) inside slope is provided with carries flitch (24), visual window (25) are installed to the front surface of processing box (1).

2. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: the upper port of the feed inlet (2) is of an inclined structure design, and the lower end of the feed inlet (2) is connected with the inside of the conveying pipe (7).

3. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: the conveying auger (8) is positioned in the conveying pipe (7), and the central line of the conveying pipe (7) and the central line of the conveying auger (8) are mutually overlapped.

4. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: through holes (10) are formed in the upper portion of the high-temperature mixing box (9), the high-temperature mixing box (9) and the conveying pipe (7) are connected through guide plates (12), the right sides of the guide plates (12) are connected with the left sides of the through holes (10), and the stirring mechanism (13) is located inside the high-temperature mixing box (9).

5. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: the first hot-blast pipe (15) is connected with the right end of the heating box (5), the first blast pipe (16) below the first hot-blast pipe (15) is connected with the high-temperature mixing box (9), and the heating wire can be additionally arranged in the high-temperature mixing box (9) according to the heating temperature requirement.

6. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: the second hot air pipe (17) is connected with the inside of the processing box body (1), and a second air supply pipe (18) on the right side of the second hot air pipe (17) is connected with the left end of the heating box (5).

7. A high temperature processing apparatus for ceramic alumina powder production according to claim 1, wherein: the filter screen (20) and the collecting plate (21) are of a reverse inclined structural design, the vibration motor (19) is located at the left end of the filter screen (20), and the second discharge port (22) and the third discharge port (23) are located above the filter screen (20) and the collecting plate (21) respectively.