CN114046649A

CN114046649A - Drying device for storing powder photocatalytic material

Info

Publication number: CN114046649A
Application number: CN202111348121.1A
Authority: CN
Inventors: 张蓓蓓; 奚新国; 刘超; 董鹏玉; 陈小卫; 王勿忧
Original assignee: Yancheng Institute of Technology
Current assignee: Yancheng Institute of Technology
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-15
Anticipated expiration: 2041-11-15
Also published as: CN114046649B

Abstract

The invention discloses a drying device for storing a powder photocatalytic material, relates to the technical field of photocatalytic materials, and aims to solve the problems that most of drying devices on the market in the prior art adopt vacuum drying and drying, the motion track of materials is basically smooth when the materials are dried, the free effect of photocatalytic material powder is not good enough when the photocatalytic material powder is dried, the powder is easy to accumulate together, and moisture in the accumulated powder cannot be effectively removed. Conical drying cylinder is installed to drying device's below, and conical drying cylinder passes through bolt fixed connection with drying device, the air-supply line is installed to conical drying cylinder's below, and the air-supply line passes through flange fixed connection with conical drying cylinder, the air-blower is installed to the one end of air-supply line, and the air-blower passes through flange fixed connection with the air-supply line, the support is installed to drying device's top.

Description

Drying device for storing powder photocatalytic material

Technical Field

The invention relates to the technical field of photocatalytic materials, in particular to a drying device for storing a powder photocatalytic material.

Background

The photocatalytic material is a semiconductor catalyst material required by photochemical reaction generated under the action of light, and can be used as a photocatalytic material in the world, and comprises a plurality of oxide sulfide semiconductors such as titanium dioxide, zinc oxide, tin oxide, zirconium dioxide, cadmium sulfide and the like, wherein the titanium dioxide is the most red nano photocatalyst material in the world due to strong oxidizing capability and stable and nontoxic chemical properties.

During regeneration of the photocatalytic material, the photocatalytic material is stored in a powder state, the powder needs to be dried before storage, but most of drying devices on the market currently adopt vacuum drying and drying, and when the material is dried, the motion track of the material is basically smooth, so that the free effect of the photocatalytic material powder is not good enough when the photocatalytic material powder is dried, the powder is easy to stack together, and moisture in the stacked powder cannot be effectively removed; therefore, the market is urgently needed to develop a drying device for storing the powder photocatalytic material to help people to solve the existing problems.

Disclosure of Invention

The invention aims to provide a drying device for storing a powder photocatalytic material, and aims to solve the problems that most of the existing drying devices in the prior art adopt vacuum drying and drying, when materials are dried, the motion trail of the materials is basically smooth, so that the free effect of the photocatalytic material powder is not good enough when the photocatalytic material powder is dried, the powder is easy to accumulate together, and moisture in the accumulated powder cannot be effectively removed.

In order to achieve the purpose, the invention provides the following technical scheme: a drying device for storing powder photocatalytic materials comprises a drying device and a leakage-proof box, wherein a conical drying cylinder is installed below the drying device and fixedly connected with the drying device through a bolt, an air inlet pipe is installed below the conical drying cylinder and fixedly connected with the conical drying cylinder through a flange, an air blower is installed at one end of the air inlet pipe and fixedly connected with the air inlet pipe through a flange, a support is installed above the drying device and fixedly connected with the drying device through a fastening screw, a material returning pump is installed above the support and fixedly connected with the support through a fastening screw, a tundish is installed above the drying device and fixedly connected with the drying device through a flange, material conveying pipes are installed on two sides of the tundish, and the material returning pump and the tundish are fixedly connected with the material conveying pipes through flanges, drying device's internally mounted has the inlet pipe, and the inlet pipe passes through fastening screw fixed connection with drying device, inlet pipe and middle package intercommunication.

Preferably, the internally mounted of conical drying cylinder has the bracing piece, and the bracing piece passes through fastening screw fixed connection with conical drying cylinder, the pillar is installed to the top of bracing piece, and the pillar passes through bolt fixed connection with the bracing piece, the spiral dish is installed in the outside of pillar, and spiral dish and pillar welded connection.

Preferably, the inside of drying device is provided with the arc guiding disc, and arc guiding disc sets up structure as an organic whole with drying device, drying device's inside is provided with first filter sack, first filter sack passes through fastening screw fixed connection with the arc guiding disc, the blast pipe is installed to drying device's top, and blast pipe and drying device pass through fastening screw fixed connection, the inside of leak protection case is provided with the drainage.

Preferably, row's material pipe is installed to drying device's below, and arranges material pipe and drying device and pass through fastening screw fixed connection, arrange one side of material pipe and install the feed back pipe, arrange material pipe and feed back pump and all pass through flange and feed back pipe fixed connection, outer electric heating board is installed in the outside of conical drying cylinder, and outer electric heating board passes through fastening screw fixed connection with conical drying cylinder.

Preferably, the inside mounting of air-supply line has the second to filter the sack, and the second filters the sack and passes through fastening screw fixed connection with the air-supply line, the internally mounted of air-supply line has the heating resistor silk, and the heating resistor silk passes through insulating screw fixed connection with the air-supply line, the feeder hopper is installed to the top of middle package, and the feeder hopper passes through fastening screw fixed connection with middle package.

Preferably, first backup pad is installed to one side of feeder hopper, and first backup pad passes through fastening screw fixed connection with the feeder hopper, first servo motor is installed to the below of first backup pad, and just first servo motor passes through fastening screw fixed connection with first backup pad, first reduction gear is installed to one side of first servo motor, and first reduction gear passes through shaft coupling fixed connection with first servo motor, the internally mounted of feeder hopper has first blowing dish, and just first blowing dish passes through the bearing rotation with the feeder hopper and is connected, first blowing dish is through company's axle fixed connection with first reduction gear.

Preferably, the second backup pad is installed to one side of middle package, and the second backup pad passes through fastening screw fixed connection with middle package, second servo motor is installed to the below of second backup pad, and second servo motor passes through fastening screw fixed connection with the second backup pad, the second reduction gear is installed to one side of second servo motor, and the second reduction gear passes through shaft coupling fixed connection with second servo motor, the internally mounted of middle package has the second blowing dish, and the second blowing dish passes through the bearing rotation with middle package and is connected, the second blowing dish passes through even axle fixed connection with the second reduction gear.

Preferably, arrange one side of material pipe and install the third backup pad, and the third backup pad passes through fastening screw fixed connection with row material pipe, third servo motor is installed to the top of third backup pad, and third servo motor passes through fastening screw fixed connection with the third backup pad, the third reduction gear is installed to one side of third servo motor, and the third reduction gear passes through shaft coupling fixed connection with third servo motor, arrange the internally mounted of material pipe and have the third blowing dish, and the third blowing dish passes through the bearing rotation with row material pipe and is connected, the third blowing dish passes through even axle fixed connection with the third reduction gear.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the arrangement of the material returning pump, the air blower and the conical drying cylinder, the photocatalytic material of the powder is dried in the conical drying cylinder, the air blower can blow the powder in the conical drying cylinder upwards to enable the powder to be in a free state in the conical drying cylinder and flow towards two sides of the conical drying cylinder, the powder after primary drying is blown into the conical drying cylinder from the right above the conical drying cylinder through the material returning pump, and opposite air flow is formed by the air flow blown in by the air blower, so that the powder continuously flows between the conical drying cylinder and the material returning pump, the condition of powder accumulation is avoided, water vapor in the powder is dried, and the drying effect is improved.

2. According to the invention, through the arrangement of the spiral disk, when photocatalytic powder enters the conical drying cylinder for the first time, the spiral disk can enable the powder to flow to the bottom of the conical drying cylinder in a spiral state, and meanwhile, when the powder is blown, the powder rises in a spiral state, so that the staying time of the powder in the conical drying cylinder is prolonged, the heating time of the powder is prolonged, and when the photocatalytic powder is dried for the first time, water vapor in the powder can be removed more effectively, and the drying efficiency is improved.

Drawings

FIG. 1 is a schematic view of the internal structure of a drying apparatus for storing a powdered photocatalytic material according to the present invention;

FIG. 2 is an enlarged schematic view at A of the present invention;

FIG. 3 is an enlarged schematic view at B of the present invention;

FIG. 4 is an enlarged schematic view at C of the drawing of the present invention;

fig. 5 is an enlarged schematic view at D in the drawing of the present invention.

In the figure: 1. a drying device; 2. a leakage-proof box; 3. a tundish; 4. a feed hopper; 5. a feed pipe; 6. an arc-shaped flow guide disc; 7. a first filter cloth bag; 8. a pillar; 9. a spiral disc; 10. a support bar; 11. an external electric heating plate; 12. a blower; 13. a discharge pipe; 14. a material return pipe; 15. a material return pump; 16. a delivery pipe; 17. a support; 18. an exhaust pipe; 19. filtering water; 20. a first material placing tray; 21. a first servo motor; 22. a first decelerator; 23. a first support plate; 24. a second material placing tray; 25. a second servo motor; 26. a second decelerator; 27. a second support plate; 28. a third material placing disc; 29. a third servo motor; 30. a third speed reducer; 31. a third support plate; 32. an air inlet pipe; 33. a second filter cloth bag; 34. heating resistance wires; 35. a conical drying cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a drying device for storing powder photocatalytic materials comprises a drying device 1 and a leakage-proof box 2, wherein a conical drying cylinder 35 is installed below the drying device 1, the conical drying cylinder 35 is fixedly connected with the drying device 1 through bolts, an air inlet pipe 32 is installed below the conical drying cylinder 35, the air inlet pipe 32 is fixedly connected with the conical drying cylinder 35 through a flange, an air blower 12 is installed at one end of the air inlet pipe 32, the air blower 12 is fixedly connected with the air inlet pipe 32 through a flange, a support 17 is installed above the drying device 1, the support 17 is fixedly connected with the drying device 1 through a fastening screw, a material returning pump 15 is installed above the support 17, the material returning pump 15 is fixedly connected with the support 17 through a fastening screw, a tundish 3 is installed above the drying device 1, the tundish 3 is fixedly connected with the drying device 1 through a flange, material conveying pipes 16 are installed on two sides of the tundish 3, the material returning pump 15 and the tundish 3 are fixedly connected with a material conveying pipe 16 through flanges, a material inlet pipe 5 is arranged inside the drying device 1, the material inlet pipe 5 is fixedly connected with the drying device 1 through a fastening screw, the material inlet pipe 5 is communicated with the tundish 3, a support rod 10 is arranged inside the conical drying cylinder 35, the support rod 10 is fixedly connected with the conical drying cylinder 35 through the fastening screw, a support column 8 is arranged above the support rod 10, the support column 8 is fixedly connected with the support rod 10 through a bolt, a spiral disc 9 is arranged outside the support column 8, the spiral disc 9 is welded with the support column 8, the inner diameter of the spiral disc 9 is gradually reduced along with the inner diameter of the conical drying cylinder 35 from high to low, a material discharging pipe 13 is arranged below the drying device 1, the material discharging pipe 13 is fixedly connected with the drying device 1 through the fastening screw, a material returning pipe 14 is arranged on one side of the material discharging pipe 13, and the material returning pump 15 are both fixedly connected with the material returning pipe 14 through flanges, an outer electric heating plate 11 is arranged on the outer side of a conical drying cylinder 35, the outer electric heating plate 11 is fixedly connected with the conical drying cylinder 35 through fastening screws, two discharging pipes 13 are arranged, the internal structure of the discharging pipes is the same, a third supporting plate 31 is arranged on one side of each discharging pipe 13, the third supporting plate 31 is fixedly connected with each discharging pipe 13 through the fastening screws, a third servo motor 29 is arranged above each third supporting plate 31, the third servo motor 29 is fixedly connected with each third supporting plate 31 through the fastening screws, a third speed reducer 30 is arranged on one side of each third servo motor 29, each third speed reducer 30 is fixedly connected with each third servo motor 29 through a coupler, a third discharging disc 28 is arranged inside each discharging pipe 13, each third discharging disc 28 is rotatably connected with each discharging pipe 13 through a bearing, each third discharging disc 28 is fixedly connected with each third speed reducer 30 through a connecting shaft, and a second filtering cloth bag 33 is arranged inside each air inlet pipe 32, the second filtering cloth bag 33 is fixedly connected with the air inlet pipe 32 through fastening screws, a heating resistance wire 34 is arranged inside the air inlet pipe 32, the heating resistance wire 34 is fixedly connected with the air inlet pipe 32 through insulating screws, a feed hopper 4 is arranged above the tundish 3, the feed hopper 4 is fixedly connected with the tundish 3 through fastening screws, an arc-shaped flow guide disc 6 is arranged inside the drying device 1, the arc-shaped flow guide disc 6 and the drying device 1 are arranged into an integral structure, a first filtering cloth bag 7 is arranged inside the drying device 1, the first filtering cloth bag 7 is fixedly connected with the arc-shaped flow guide disc 6 through fastening screws, an exhaust pipe 18 is arranged above the drying device 1, the exhaust pipe 18 is fixedly connected with the drying device 1 through fastening screws, filtering water 19 is arranged inside the leakage-proof box 2, two first filtering cloth bags 7 are arranged, and the arc-shaped flow guide disc 6 divides the inner space of the drying device 1 into two parts, the drying device is divided into an exhaust chamber and a drying chamber, one side of a tundish 3 is provided with a second supporting plate 27, the second supporting plate 27 is fixedly connected with the tundish 3 through a fastening screw, a second servo motor 25 is arranged below the second supporting plate 27, the second servo motor 25 is fixedly connected with the second supporting plate 27 through the fastening screw, one side of the second servo motor 25 is provided with a second speed reducer 26, the second speed reducer 26 is fixedly connected with the second servo motor 25 through a coupler, a second discharging tray 24 is arranged inside the tundish 3, the second discharging tray 24 is rotatably connected with the tundish 3 through a bearing, the second discharging tray 24 is fixedly connected with the second speed reducer 26 through a connecting shaft, one side of a feed hopper 4 is provided with a first supporting plate 23, the first supporting plate 23 is fixedly connected with the feed hopper 4 through the fastening screw, a first servo motor 21 is arranged below the first supporting plate 23, the first servo motor 21 is fixedly connected with the first supporting plate 23 through the fastening screw, first reduction gear 22 is installed to one side of first servo motor 21, and first reduction gear 22 passes through shaft coupling fixed connection with first servo motor 21, and the internally mounted of feeder hopper 4 has first blowing dish 20, and first blowing dish 20 passes through the bearing rotation with feeder hopper 4 and is connected, and first blowing dish 20 passes through even axle fixed connection with first reduction gear 22.

The working principle is as follows: when the device is used, photocatalytic material powder is injected into the tundish 3 through the feed hopper 4, the first servo motor 21 is started, the first servo motor 21 drives the first discharging tray 20 to rotate after being decelerated by the first speed reducer 22, so that the feed hopper 4 is communicated with the tundish 3, after enough photocatalytic material powder is injected into the tundish 3, the channel between the feed hopper 4 and the tundish 3 is closed through the first discharging tray 20, then the second servo motor 25 is started, the second discharging tray 24 is driven to rotate after being decelerated by the second speed reducer 26, the channel between the tundish 3 and the feed pipe 5 is communicated, so that the powder in the tundish 3 can enter the conical drying cylinder 35 through the feed pipe 5, at the moment, the powder continuously flows to the bottom of the conical drying cylinder 35 in a spiral state through the spiral disc 9, and then the external electric heating plate 11 and the heating plate 34 are electrified, and starting the air blower 12 to heat and dry the powder inside the conical drying cylinder 35, wherein the powder inside the conical drying cylinder 35 flows upwards under the pushing of the air flow of the air blower 12 and flows in a spiral state, the powder flows towards two sides under the guiding of the arc-shaped flow guide disc 6, the powder is filtered by the first filter cloth bag 7, the feed back pump 15 is started to enable the bottom of the discharge pipe 13 to be in negative pressure, the quality of the powder is higher than that of water vapor, a large amount of powder flows towards the bottom of the discharge pipe 13 under the action of gravity, the water vapor flows towards the first filter cloth bag 7 under the guiding of the arc-shaped flow guide disc 6 and enters the exhaust pipe 18 through the first filter cloth bag 7, the water vapor and the air are used for attaching and collecting the filtered water 19, a small amount of powder escaping from the first filter cloth bag 7 is prevented from being scattered in the air, the feed back pump 15 is used for extracting the powder inside the discharge pipe 13 through the feed back pipe 14 and discharging the powder into the middle package through the feed back pipe 16 again 3, then pour into conical drying cylinder 35 again through inlet pipe 5 to form the convection current with the air current that air-blower 12 blowed in, thereby make powder and air get into row material pipe 13 once more, realize the separation work to powder and steam, accomplish the drying work to the photocatalytic material powder, after drying work is accomplished, start third servo motor 29, third servo motor 29 will order about third blowing dish 28 after slowing down through third reduction gear 30 and rotate, discharge drying device 1 through row material pipe 13 with the powder that the drying was accomplished.

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

1. A drying device for storing powder photocatalytic materials, comprising a drying device (1) and a leakage-proof box (2), and is characterized in that: conical drying cylinder (35) is installed to the below of drying device (1), and conical drying cylinder (35) passes through bolt fixed connection with drying device (1), air-supply line (32) is installed to the below of conical drying cylinder (35), and air-supply line (32) and conical drying cylinder (35) pass through flange fixed connection, air-blower (12) is installed to the one end of air-supply line (32), and air-blower (12) and air-supply line (32) pass through flange fixed connection, support (17) is installed to the top of drying device (1), and support (17) and drying device (1) pass through fastening screw fixed connection, feed back pump (15) is installed to the top of support (17), and feed back pump (15) and support (17) pass through fastening screw fixed connection, tundish (3) is installed to the top of drying device (1), and middle package (3) and drying device (1) pass through flange fixed connection, conveying pipeline (16) are all installed to the both sides of middle package (3), feed back pump (15) and middle package (3) are all through flange and conveying pipeline (16) fixed connection, the internally mounted of drying device (1) has inlet pipe (5), and inlet pipe (5) and drying device (1) pass through fastening screw fixed connection, inlet pipe (5) and middle package (3) intercommunication.

2. A drying apparatus for storing a powdered photocatalytic material as set forth in claim 1, wherein: the internally mounted of conical drying cylinder (35) has bracing piece (10), and bracing piece (10) and conical drying cylinder (35) pass through fastening screw fixed connection, pillar (8) are installed to the top of bracing piece (10), and pillar (8) and bracing piece (10) pass through bolt fixed connection, spiral plate (9) are installed in the outside of pillar (8), and spiral plate (9) and pillar (8) welded connection.

3. A drying apparatus for storing a powdered photocatalytic material as set forth in claim 1, wherein: the inside of drying device (1) is provided with arc guiding disc (6), and arc guiding disc (6) sets up structure as an organic whole with drying device (1), the inside of drying device (1) is provided with first filter sack (7), first filter sack (7) pass through fastening screw fixed connection with arc guiding disc (6), blast pipe (18) are installed to the top of drying device (1), and blast pipe (18) pass through fastening screw fixed connection with drying device (1), the inside of leak-proof case (2) is provided with crosses water (19).

4. A drying apparatus for storing a powdered photocatalytic material as set forth in claim 1, wherein: arrange material pipe (13) and pass through fastening screw fixed connection with drying device (1) in the below of drying device (1), arrange material pipe (13) one side and install feed back pipe (14), arrange material pipe (13) and feed back pump (15) and all pass through flange and feed back pipe (14) fixed connection, outer electric heating board (11) are installed in the outside of conical drying cylinder (35), and outer electric heating board (11) pass through fastening screw fixed connection with conical drying cylinder (35).

5. A drying apparatus for storing a powdered photocatalytic material as set forth in claim 1, wherein: the internally mounted of air-supply line (32) has second filter cloth bag (33), and second filter cloth bag (33) and air-supply line (32) pass through fastening screw fixed connection, the internally mounted of air-supply line (32) has heating resistor silk (34), and heating resistor silk (34) and air-supply line (32) pass through insulating screw fixed connection, feeder hopper (4) are installed to the top of middle package (3), and feeder hopper (4) and middle package (3) pass through fastening screw fixed connection.

6. A drying apparatus for storing powdered photocatalytic material as in claim 5, characterized by: first backup pad (23) are installed to one side of feeder hopper (4), and first backup pad (23) pass through fastening screw fixed connection with feeder hopper (4), first servo motor (21) are installed to the below of first backup pad (23), and just first servo motor (21) pass through fastening screw fixed connection with first backup pad (23), first reduction gear (22) are installed to one side of first servo motor (21), and just first reduction gear (22) pass through shaft coupling fixed connection with first servo motor (21), the internally mounted of feeder hopper (4) has first blowing dish (20), and just first blowing dish (20) rotate through the bearing with feeder hopper (4) and be connected, first blowing dish (20) are through linking a fixed connection with first reduction gear (22).

7. A drying apparatus for storing a powdered photocatalytic material as set forth in claim 1, wherein: second backup pad (27) is installed to one side of middle package (3), and second backup pad (27) and middle package (3) pass through fastening screw fixed connection, second servo motor (25) are installed to the below of second backup pad (27), and second servo motor (25) and second backup pad (27) pass through fastening screw fixed connection, second reduction gear (26) are installed to one side of second servo motor (25), and second reduction gear (26) and second servo motor (25) pass through shaft coupling fixed connection, the internally mounted of middle package (3) has second blowing dish (24), and second blowing dish (24) and middle package (3) pass through the bearing rotation and are connected, second blowing dish (24) and second reduction gear (26) are through linking a fixed connection.

8. A drying apparatus for storing powdered photocatalytic material as in claim 4, characterized by: arrange one side of material pipe (13) and install third backup pad (31), and third backup pad (31) and arrange material pipe (13) through fastening screw fixed connection, third servo motor (29) are installed to the top of third backup pad (31), and third servo motor (29) and third backup pad (31) pass through fastening screw fixed connection, third reduction gear (30) are installed to one side of third servo motor (29), and third reduction gear (30) and third servo motor (29) pass through shaft coupling fixed connection, the internally mounted who arranges material pipe (13) has third blowing dish (28), and third blowing dish (28) and arrange material pipe (13) and be connected through bearing rotation, third blowing dish (28) and third reduction gear (30) are through linking a fixed connection.