阅读说明：本技术 一种石英颗粒超声清洗烘干一体装置及其工作方法 (Quartz particle ultrasonic cleaning and drying integrated device and working method thereof ) 是由 李晨 李洪亮 于 2021-06-25 设计创作，主要内容包括：本发明公开了一种石英颗粒超声清洗烘干一体装置及其工作方法,所述装置包括壳体,壳体内设有一组内壁板,内壁板将壳体内部由左至右依次分为清洗腔、沥水腔、烘干腔,清洗腔内设有清洗池和倾斜跨设于清洗腔和沥水腔的第一输送网带,清洗池底部设有一组超声发生器,沥水腔中设有倾斜跨设于沥水腔和烘干腔的第二输送网带；第一输送网带和第二输送网带上设有刮板,且网带孔径小于石英颗粒的粒径；烘干腔内设有一组烘料盘,烘料盘设在第二输送网带右端的下方。本发明所述的石英颗粒超声清洗烘干一体装置在同一设备内即可完成超声清洗和烘干的工序,生产加工连续化程度高,节约设备占地面积,减少在不同装置之间转运的设备成本、时间成本和人力成本。(The invention discloses an ultrasonic cleaning and drying integrated device for quartz particles and a working method thereof, wherein the device comprises a shell, a group of inner wall plates are arranged in the shell, the inner wall plates divide the interior of the shell into a cleaning cavity, a draining cavity and a drying cavity from left to right in sequence, a cleaning pool and a first conveying mesh belt obliquely striding over the cleaning cavity and the draining cavity are arranged in the cleaning cavity, a group of ultrasonic generators are arranged at the bottom of the cleaning pool, and a second conveying mesh belt obliquely striding over the draining cavity and the drying cavity is arranged in the draining cavity; scrapers are arranged on the first conveying mesh belt and the second conveying mesh belt, and the mesh belt aperture is smaller than the particle size of the quartz particles; a group of drying trays are arranged in the drying cavity, and the drying trays are arranged below the right end of the second conveying mesh belt. The quartz particle ultrasonic cleaning and drying integrated device can complete ultrasonic cleaning and drying processes in the same equipment, has high degree of continuity in production and processing, saves the occupied area of the equipment, and reduces the equipment cost, time cost and labor cost of transferring among different devices.)

1. The ultrasonic cleaning and drying integrated device for the quartz particles is characterized by comprising a shell (1), wherein a group of inner wall plates (2) are arranged in the shell (1), the inner wall plates (2) divide the interior of the shell (1) from left to right into a cleaning cavity (3), a draining cavity (4) and a drying cavity (5), a cleaning pool (31) and a first conveying mesh belt (32) are arranged in the cleaning cavity (3), an included angle of 10-20 degrees is formed between the first conveying mesh belt (32) and the horizontal plane, the first conveying mesh belt (32) penetrates through the inner wall plates (2), one end of the first conveying mesh belt is arranged in the cleaning pool (31), the other end of the first conveying mesh belt is arranged in the draining cavity (4), and a group of ultrasonic generators (33) are arranged at the bottom of the cleaning pool (31); a second conveying mesh belt (41) is arranged in the draining cavity (4), an included angle of 20-30 degrees is formed between the second conveying mesh belt (41) and the horizontal plane, the second conveying mesh belt (41) penetrates through the inner wall plate (2), one end of the second conveying mesh belt is arranged below one end, close to the drying cavity (5), of the first conveying mesh belt (32), and the other end of the second conveying mesh belt is arranged in the drying cavity (5); the first conveying mesh belt (32) and the second conveying mesh belt (41) are provided with scrapers (6), and the pore diameter of the first conveying mesh belt (32) and the pore diameter of the second conveying mesh belt (41) are smaller than the particle size of quartz particles; a group of drying trays (51) are arranged in the drying cavity (5), and the drying trays (51) are arranged below one end, far away from the cleaning cavity (3), of the second conveying mesh belt (41); a feeding hole (11) is formed above the shell (1) on the left side of the cleaning cavity (3), and a discharging hole (12) is formed below the shell (1) on the right side of the drying cavity (5).

2. The ultrasonic cleaning and drying integrated device for quartz particles as claimed in claim 1, wherein the height of the tank wall of the cleaning tank (31) at one side close to the draining cavity (4) is lower than that at the other side, and the height of the bottom in the cleaning tank (31) at one side close to the draining cavity (4) is lower than that at the other side; wash pond (31) and keep away from waterlogging caused by excessive rainfall chamber (4) a side pool wall and be equipped with a set of shower nozzle (34), wash pond (31) and keep away from the pool wall bottom of waterlogging caused by excessive rainfall chamber (4) one side and be equipped with drainage pipe (35), casing (1) is worn to locate by drainage pipe (35).

3. The ultrasonic cleaning and drying integrated device for quartz particles as claimed in claim 1, wherein a water receiving tank (42) is arranged at the bottom inside the draining cavity (4).

4. The ultrasonic cleaning and drying integrated device for the quartz particles as claimed in claim 1, further comprising a rotating motor (7), wherein the rotating motor (7) is arranged above the housing (1), a main shaft of the rotating motor (7) is connected with a rotating shaft (71), and the rotating shaft (71) is vertically arranged in the drying chamber (5); drying material dish (51) cover is established on rotation axis (71), drying material dish (51) diameter from top to bottom increases in proper order, be equipped with hourglass material hole (511) on drying material dish (51).

5. The ultrasonic cleaning and drying integrated device for quartz particles as claimed in claim 4, wherein a set of fixing rods (52) is fixedly arranged on the inner wall of the right side of the drying chamber (5), a fixing plate (53) is arranged on one side of the fixing rods (52) close to the rotating shaft (71), and bristles (54) are arranged on the fixing plate (53); the height of the fixing rod (52) is adapted to that of the baking tray (51), and the length of the fixing plate (53) is adapted to the radius of the baking tray (51).

6. The integrated device for ultrasonic cleaning and drying of quartz particles as claimed in claim 1, wherein the bottom of the drying chamber (5) is further provided with a heating plate (55) which is obliquely arranged, one end of the heating plate (55) close to the draining chamber (4) is higher than the other end, and the heating plate (55) comprises two heat conducting plates (551) and a heating pipe (552) arranged between the heat conducting plates (551).

7. The ultrasonic cleaning and drying integrated device for the quartz particles as claimed in claim 1, further comprising a blower (8), wherein the blower (8) is arranged above the housing (1), a baffle (81) and a set of air inlets (82) are fixedly arranged on the inner wall of the right side of the drying cavity (5), the baffle (81) is arranged above the discharge hole (12), and the air inlets (82) are arranged below the drying tray (51); the air inlet (82) is connected with the blower (8) through an air inlet pipe (83).

8. The quartz particle ultrasonic cleaning and drying integrated device according to claim 1, further comprising an air pump (9), wherein the air pump (9) is arranged above the shell (1), a first exhaust port (91) is arranged on the inner wall of the left side of the top of the drying cavity (5), a second exhaust port (92) is arranged on the inner wall of the top of the draining cavity (4), and the first exhaust port (91) and the second exhaust port (92) are connected with the air pump (9) through an exhaust pipe (93).

9. The integrated ultrasonic cleaning and drying device for quartz particles as claimed in claim 8, wherein the first exhaust port (91) and the second exhaust port (92) are provided with filter screens (94).

10. The working method of the quartz particle ultrasonic cleaning and drying integrated device as claimed in any one of claims 1 to 9, comprising the steps of:

adding high-purity water into a cleaning pool (31) and starting an ultrasonic generator (33); the quartz particles to be cleaned fall onto the first conveying mesh belt (32) through the feed inlet (11) and begin to be cleaned by ultrasonic;

secondly, after the quartz particles are cleaned, starting a first conveying mesh belt (32), conveying the quartz particles to a second conveying mesh belt (41) in the draining cavity (4), starting an air pump (9), and draining the quartz particles in the draining cavity (4);

thirdly, after the quartz particles are drained in the draining cavity (4), starting a second conveying mesh belt (41), and conveying the drained quartz particles to a drying tray (51);

starting the blower (8), and blowing air into the drying cavity (5) by the blower (8) through the air inlet (82); starting the rotating motor (7), driving the drying tray (51) to rotate by the rotating motor (7), dispersing and spreading out the quartz particles gathered in the rotating process by the brush bristles (54), leaking a part of the quartz particles to the next layer of drying tray (51) and the heating plate (55) through the material leaking hole (511), and dropping a part of the quartz particles along the edge of the drying tray (51);

fifthly, all the quartz particles fall on the heating plate (55) along with the drying, and are discharged through the discharge hole (12) after being completely dried.

Technical Field

The invention belongs to the technical field of quartz particle processing, and particularly relates to an ultrasonic cleaning and drying integrated device for quartz particles and a working method thereof.

Background

The quartz particles are granular substances obtained by crushing quartz stone, are hard, wear-resistant and chemically stable silicate minerals, and mainly comprise SiO₂. The quartz particles have wide application, are raw materials of nearly hundreds of industrial products, and are mainly used for industries such as glass, casting, ceramics, optical coating materials, fireproof materials and the like.

When high-purity quartz particles are produced, the quartz particles subjected to magnetic separation, dehydroxylation and flotation need to be cleaned and dried so as to further remove impurities in the quartz particles. In current quartz particle processing production, above-mentioned process generally goes on in independent equipment, and every one process of having gone on all needs artifical the transportation or transports through longer conveyer belt, very big influence production efficiency, increased time cost and human cost.

Therefore, the above problems need to be solved.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the invention aims to provide the quartz particle ultrasonic cleaning and drying integrated device and the working method thereof, the working method is simple and convenient, the degree of continuity of production and processing is high, the occupied area of equipment is saved, and the equipment cost, the time cost and the labor cost of transferring among different devices are reduced.

The technical scheme is as follows: in order to achieve the purpose, the invention provides an ultrasonic cleaning and drying integrated device for quartz particles, which comprises a shell, wherein a group of inner wall plates are arranged in the shell, the inner wall plates divide the interior of the shell into a cleaning cavity, a draining cavity and a drying cavity from left to right in sequence, a cleaning pool and a first conveying mesh belt are arranged in the cleaning cavity, an included angle of 10-20 degrees is formed between the first conveying mesh belt and the horizontal plane, the first conveying mesh belt penetrates through the inner wall plates, one end of the first conveying mesh belt is arranged in the cleaning pool, the other end of the first conveying mesh belt is arranged in the draining cavity, and a group of ultrasonic generators are arranged at the bottom of the cleaning pool; a second conveying mesh belt is arranged in the draining cavity, an included angle of 20-30 degrees is formed between the second conveying mesh belt and the horizontal plane, the second conveying mesh belt penetrates through the inner wall plate, one end of the second conveying mesh belt is arranged below one end, close to the drying cavity, of the first conveying mesh belt, and the other end of the second conveying mesh belt is arranged in the drying cavity; the first conveying mesh belt and the second conveying mesh belt are provided with scrapers, and the pore diameter of the first conveying mesh belt and the pore diameter of the second conveying mesh belt are smaller than the particle size of quartz particles; a group of drying trays are arranged in the drying cavity, and the drying trays are arranged below one end, far away from the cleaning cavity, of the second conveying mesh belt; the left casing top in washing chamber is equipped with the feed inlet, the casing below on stoving chamber right side is equipped with the discharge gate. In the ultrasonic cleaning and drying integrated device for quartz particles, the first conveying mesh belt and the second conveying mesh belt have a draining function, and the conveying mesh belts are partitioned by the scraper, so that the quartz particles can be prevented from being accumulated and agglomerated, and the quartz particles can be smoothly conveyed on the inclined conveying mesh belts; the processing procedures of ultrasonic cleaning and drying are combined in the same device, the device is high in compactness, high in processing continuity, small in equipment floor area and low in processing time cost.

Further, in the ultrasonic cleaning and drying integrated device for quartz particles, the height of the wall of the cleaning pool close to the draining cavity is lower than that of the other side, and the height of the bottom in the cleaning pool close to the draining cavity is lower than that of the other side; the washing pond is kept away from and is equipped with a set of shower nozzle on the waterlogging caused by excessive rainfall chamber side pool wall, the pool wall bottom of keeping away from waterlogging caused by excessive rainfall chamber side in the washing pond is equipped with drainage pipe, drainage pipe wears to locate the casing. The tank wall on the left side of the cleaning tank of the ultrasonic cleaning and drying integrated device for quartz particles is higher than the tank wall on the right side, so that the inclination angle of the first conveying mesh belt is smaller, the part of the first conveying mesh belt, which is immersed into the cleaning tank, is longer, and the cleaning efficiency of the quartz particles is improved; the main cleaning position of the quartz particles is arranged on the left side of the cleaning pool, the left side with lower pool bottom can contain deeper high-purity water, and the right pool bottom which does not need to be cleaned is higher than the left side, so that the using amount of the high-purity water can be saved; the spray head can wash the quartz particles fed through the feeding hole; after the cleaning is finished, the high-purity water in the cleaning tank can be discharged through a drainage pipeline.

Further, the bottom in the draining cavity is provided with a water receiving pool. According to the ultrasonic cleaning and drying integrated device for the quartz particles, disclosed by the invention, in the process that the quartz particles are conveyed to the drying cavity through the second conveying mesh belt, a part of flowing water can be drained into the water receiving tank through the meshes of the second conveying mesh belt, so that the cleanness and cleanness of equipment are ensured.

Further, the quartz particle ultrasonic cleaning and drying integrated device further comprises a rotating motor, wherein the rotating motor is arranged above the shell, a main shaft of the rotating motor is connected with a rotating shaft, and the rotating shaft is vertically arranged in the drying cavity; the material drying plate is sleeved on the rotating shaft, the diameter of the material drying plate is sequentially increased from top to bottom, and material leakage holes are formed in the material drying plate. When the ultrasonic cleaning and drying integrated device for the quartz particles works, the quartz particles can gradually fall to the next layer of the drying plate through the material leaking holes, the drying area is large, the drying effect is good, and the material drying efficiency is further improved by the rotating drying plate.

Further, in the ultrasonic cleaning and drying integrated device for quartz particles, a group of fixed rods is fixedly arranged on the inner wall of the right side of the drying cavity, a fixed plate is arranged on one side of each fixed rod close to the rotating shaft, and bristles are arranged on the fixed plate; the height of the fixed rod is adapted to the height of the material drying disc, and the length of the fixed plate is adapted to the radius of the material drying disc. The quartz particle ultrasonic cleaning and drying integrated device provided by the invention rotates along with the drying tray, the bristles can flatten the quartz particles, the drying speed is improved, part of the quartz particles fall to the next layer of drying tray through the material leakage hole, and part of the quartz particles fall to the next layer of drying tray through the edge of the drying tray.

Further, foretell quartz particle ultrasonic cleaning dries integrative device, stoving chamber bottom still is equipped with the hot plate that the slope was placed, the one end in the nearly waterlogging caused by excessive rainfall chamber of hot plate is higher than the other end, the hot plate includes two-layer heat-conducting plate and establishes the heating pipe between the heat-conducting plate. According to the ultrasonic cleaning and drying integrated device for the quartz particles, the quartz particles gradually fall onto the heating plate for further drying, are accumulated towards the right side on the inclined heating plate, and are discharged through the discharge hole after being completely dried.

Further, the ultrasonic cleaning and drying integrated device for the quartz particles further comprises a blower, wherein the blower is arranged above the shell, a baffle and a group of air inlets are fixedly arranged on the inner wall of the right side of the drying cavity, the baffle is arranged above the discharge port, and the air inlets are arranged below the drying plate; the air inlet is connected with the air blower through an air inlet pipe. According to the ultrasonic cleaning and drying integrated device for the quartz particles, the drying efficiency can be further improved by blowing air into the drying cavity through the air inlet, and the wind shield can prevent the quartz particles on the heating plate from being blown up by the air introduced from the air inlet.

Further, foretell integrative device of quartz particle ultrasonic cleaning stoving still includes the aspiration pump, the aspiration pump is established in the casing top, be equipped with first gas vent on the left inner wall in stoving chamber top, be equipped with the second gas vent on the inner wall at waterlogging caused by excessive rainfall chamber top, first gas vent and second gas vent pass through the blast pipe and connect the aspiration pump. According to the ultrasonic cleaning and drying integrated device for the quartz particles, the first exhaust port is arranged at the upper left of the drying cavity, and circulating airflow is formed between the first exhaust port and the air inlet arranged at the right side, so that moisture in the quartz particles is better taken away.

Furthermore, the first exhaust port and the second exhaust port are provided with filter screens, so that the quartz particle ultrasonic cleaning and drying integrated device is simple in structure and convenient to use. According to the ultrasonic cleaning and drying integrated device for the quartz particles, disclosed by the invention, the filter screen is arranged to prevent fine quartz particles from entering the air pump to cause damage to the pump body.

Further, the working method of the quartz particle ultrasonic cleaning and drying integrated device comprises the following steps:

adding high-purity water into a cleaning tank, and starting an ultrasonic generator; the quartz particles to be cleaned fall onto the first conveying mesh belt through the feeding hole, and ultrasonic cleaning is started;

secondly, after the quartz particles are cleaned, starting a first conveying mesh belt, conveying the quartz particles to a second conveying mesh belt in a draining cavity, starting an air pump, and draining the quartz particles in the draining cavity;

thirdly, after the quartz particles are drained in the draining cavity, starting a second conveying mesh belt, and conveying the drained quartz particles to a drying tray;

starting a blower, and blowing air into the drying cavity through an air inlet by the blower; starting a rotating motor, driving a drying tray to rotate by the rotating motor, dispersing and spreading out the quartz particles gathered in the rotating process by the bristles, leaking a part of the quartz particles onto the next layer of the drying tray and the heating plate through a material leaking hole, and dropping a part of the quartz particles along the edge of the drying tray;

fifthly, all the quartz particles fall on the heating plate along with the drying, and are discharged through the discharge hole after being completely dried.

The technical scheme shows that the invention has the following beneficial effects:

1. the first conveying mesh belt and the second conveying mesh belt in the ultrasonic cleaning and drying integrated device for the quartz particles have a draining function, and the conveying mesh belts are partitioned by the scraper, so that the quartz particles can be prevented from being accumulated and agglomerated, and the quartz particles can be smoothly conveyed on the inclined conveying mesh belts.

2. According to the ultrasonic cleaning and drying integrated device for the quartz particles, the drying plate with the radius gradually increased is arranged, and through the matching of the bristles and the material leaking hole, the quartz particles can be paved, the drying surface area is increased, and the drying efficiency and the drying effect are improved.

3. According to the ultrasonic cleaning and drying integrated device for the quartz particles, the first exhaust port is arranged at the upper left part of the drying cavity, the air inlet is arranged at the right side of the drying cavity, so that circulating air flow is formed between the first exhaust port and the air inlet, and moisture in the quartz particles is better taken away.

4. The quartz particle ultrasonic cleaning and drying integrated device can complete ultrasonic cleaning and drying processes in the same equipment, has high device compactness, simple and convenient working method and high production and processing continuity, saves the floor area of the equipment, and reduces the equipment cost, time cost and labor cost of transferring among different devices.

Drawings

FIG. 1 is a schematic structural diagram of an ultrasonic cleaning and drying integrated device for quartz particles according to the present invention;

FIG. 2 is a schematic structural diagram of a drying chamber in the integrated device for ultrasonic cleaning and drying of quartz particles according to the present invention;

FIG. 3 is a detailed schematic view of a portion A in FIG. 1 of the ultrasonic cleaning and drying integrated apparatus for quartz particles according to the present invention;

FIG. 4 is a schematic structural diagram of a drying plate in the integrated device for ultrasonic cleaning and drying of quartz particles according to the present invention;

FIG. 5 is a schematic view of a first structure of a heating plate in the integrated device for ultrasonic cleaning and drying of quartz particles according to the present invention;

FIG. 6 is a schematic view of a second structure of a heating plate in the integrated device for ultrasonic cleaning and drying of quartz particles according to the present invention;

in the figure: 1. a housing; 11. a feed inlet; 12. a discharge port; 2. an inner wall panel; 3. a cleaning chamber; 31. a cleaning tank; 32. a first conveying mesh belt; 33. an ultrasonic generator; 34. a spray head; 35. a water discharge pipeline; 4. a draining cavity; 41. a second conveying mesh belt; 42. a water receiving pool; 5. a drying cavity; 51. a material drying plate; 511. a material leaking hole; 52. fixing the rod; 53. a fixing plate; 54. brushing; 55. heating plates; 551. a heat conducting plate; 552. heating a tube; 6. a squeegee; 7. a rotating electric machine; 71. a rotating shaft; 8. a blower; 81. a baffle plate; 82. an air inlet; 83. an air inlet pipe; 9. an air pump; 91. a first exhaust port; 92. a second exhaust port; 93. an exhaust pipe; 94. and (4) a filter screen.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

An ultrasonic cleaning and drying integrated device for quartz particles comprises a shell 1, wherein a group of inner wall plates 2 are arranged in the shell 1, the inner wall plates 2 divide the interior of the shell 1 into a cleaning cavity 3, a draining cavity 4 and a drying cavity 5 from left to right in sequence, a cleaning pool 31 and a first conveying mesh belt 32 are arranged in the cleaning cavity 3, an included angle of 10-20 degrees is formed between the first conveying mesh belt 32 and the horizontal plane, the first conveying mesh belt 32 penetrates through the inner wall plates 2, one end of the first conveying mesh belt is arranged in the cleaning pool 31, the other end of the first conveying mesh belt is arranged in the draining cavity 4, and a group of ultrasonic generators 33 are arranged at the bottom of the cleaning pool 31; a second conveying mesh belt 41 is arranged in the draining cavity 4, an included angle of 20-30 degrees is formed between the second conveying mesh belt 41 and the horizontal plane, the second conveying mesh belt 41 penetrates through the inner wall plate 2, one end of the second conveying mesh belt is arranged below one end, close to the drying cavity 5, of the first conveying mesh belt 32, and the other end of the second conveying mesh belt is arranged in the drying cavity 5; the first conveying mesh belt 32 and the second conveying mesh belt 41 are provided with scrapers 6, and the pore diameter of the first conveying mesh belt 32 and the second conveying mesh belt 41 is smaller than the particle size of quartz particles; a group of drying trays 51 are arranged in the drying cavity 5, and the drying trays 51 are arranged below one end of the second conveying mesh belt 41 far away from the cleaning cavity 3; a feeding hole 11 is formed in the left side of the cleaning cavity 3 above the shell 1, and a discharging hole 12 is formed in the right side of the drying cavity 5 below the shell 1.

Further, the height of the tank wall of the cleaning tank 31 close to the draining cavity 4 is lower than that of the other side, and the height of the bottom in the cleaning tank 31 close to the draining cavity 4 is lower than that of the other side; wash pond 31 and keep away from waterlogging caused by excessive rainfall chamber 4 one side pool wall on be equipped with a set of shower nozzle 34, wash pond 31 and keep away from waterlogging caused by excessive rainfall chamber 4 one side pool wall bottom and be equipped with drainage pipe 35, drainage pipe 35 wears to locate casing 1.

The drying device also comprises a rotating motor 7, wherein the rotating motor 7 is arranged above the shell 1, a main shaft of the rotating motor 7 is connected with a rotating shaft 71, and the rotating shaft 71 is vertically arranged in the drying cavity 5; the drying tray 51 is sleeved on the rotating shaft 71, the diameter of the drying tray 51 is sequentially increased from top to bottom, and the drying tray 51 is provided with a material leaking hole 511.

The bottom of the drying chamber 5 is further provided with a heating plate 55 which is obliquely arranged, one end of the heating plate 55 close to the draining chamber 4 is higher than the other end, and the heating plate 55 comprises two heat-conducting plates 551 and a heating pipe 552 arranged between the heat-conducting plates 551.

Example 2

The ultrasonic cleaning and drying integrated device for quartz particles shown in fig. 1-6 comprises a shell 1, wherein a group of inner wall plates 2 are arranged in the shell 1, the inner wall plates 2 divide the interior of the shell 1 into a cleaning cavity 3, a draining cavity 4 and a drying cavity 5 from left to right in sequence, a cleaning pool 31 and a first conveying mesh belt 32 are arranged in the cleaning cavity 3, an included angle of 10-20 degrees is formed between the first conveying mesh belt 32 and the horizontal plane, the first conveying mesh belt 32 penetrates through the inner wall plates 2, one end of the first conveying mesh belt is arranged in the cleaning pool 31, the other end of the first conveying mesh belt is arranged in the draining cavity 4, and a group of ultrasonic generators 33 are arranged at the bottom of the cleaning pool 31; a second conveying mesh belt 41 is arranged in the draining cavity 4, an included angle of 20-30 degrees is formed between the second conveying mesh belt 41 and the horizontal plane, the second conveying mesh belt 41 penetrates through the inner wall plate 2, one end of the second conveying mesh belt is arranged below one end, close to the drying cavity 5, of the first conveying mesh belt 32, and the other end of the second conveying mesh belt is arranged in the drying cavity 5; the first conveying mesh belt 32 and the second conveying mesh belt 41 are provided with scrapers 6, and the pore diameter of the first conveying mesh belt 32 and the second conveying mesh belt 41 is smaller than the particle size of quartz particles; a group of drying trays 51 are arranged in the drying cavity 5, and the drying trays 51 are arranged below one end of the second conveying mesh belt 41 far away from the cleaning cavity 3; a feeding hole 11 is formed in the left side of the cleaning cavity 3 above the shell 1, and a discharging hole 12 is formed in the right side of the drying cavity 5 below the shell 1.

The height of the wall of the cleaning pool 31 close to one side of the draining cavity 4 is lower than that of the other side of the draining cavity, and the height of the bottom of the cleaning pool 31 close to one side of the draining cavity 4 is lower than that of the other side of the draining cavity; wash pond 31 and keep away from waterlogging caused by excessive rainfall chamber 4 one side pool wall on be equipped with a set of shower nozzle 34, wash pond 31 and keep away from waterlogging caused by excessive rainfall chamber 4 one side pool wall bottom and be equipped with drainage pipe 35, drainage pipe 35 wears to locate casing 1.

And a water receiving tank 42 is arranged at the bottom in the draining cavity 4.

The drying device also comprises a rotating motor 7, wherein the rotating motor 7 is arranged above the shell 1, a main shaft of the rotating motor 7 is connected with a rotating shaft 71, and the rotating shaft 71 is vertically arranged in the drying cavity 5; the drying tray 51 is sleeved on the rotating shaft 71, the diameter of the drying tray 51 is sequentially increased from top to bottom, and the drying tray 51 is provided with a material leaking hole 511.

A group of fixing rods 52 are fixedly arranged on the inner wall of the right side of the drying cavity 5, a fixing plate 53 is arranged on one side, close to a rotating shaft 71, of each fixing rod 52, and bristles 54 are arranged on the fixing plate 53; the height of the fixing rod 52 is adapted to the height of the baking tray 51, and the length of the fixing rod 53 is adapted to the radius of the baking tray 51.

Further, the bottom of the drying chamber 5 is also provided with a heating plate 55 which is obliquely arranged, one end of the heating plate 55 close to the draining chamber 4 is higher than the other end, and the heating plate 55 comprises two layers of heat-conducting plates 551 and a heating pipe 552 arranged between the heat-conducting plates 551.

In addition, the drying device also comprises a blower 8, wherein the blower 8 is arranged above the shell 1, a baffle 81 and a group of air inlets 82 are fixedly arranged on the inner wall of the right side of the drying cavity 5, the baffle 81 is arranged above the discharge hole 12, and the air inlets 82 are arranged below the drying tray 51; the intake port 82 is connected to the blower 8 through an intake pipe 83.

And, still include aspiration pump 9, aspiration pump 9 establishes in casing 1 top, be equipped with first exhaust port 91 on the left inner wall in stoving chamber 5 top, be equipped with second exhaust port 92 on the inner wall at waterlogging caused by excessive rainfall chamber 4 top, first exhaust port 91 and second exhaust port 92 pass through blast pipe 93 and connect aspiration pump 9.

Further, a filter screen 94 is disposed on the first exhaust port 91 and the second exhaust port 92.

The working method of the quartz particle ultrasonic cleaning and drying integrated device comprises the following steps:

adding high-purity water into a cleaning tank 31, and starting an ultrasonic generator 33; the quartz particles to be cleaned fall onto the first conveying mesh belt 32 through the feed inlet 11, and ultrasonic cleaning is started;

secondly, after the quartz particles are cleaned, starting the first conveying mesh belt 32, conveying the quartz particles to a second conveying mesh belt 41 in the draining cavity 4, starting the air suction pump 9, and draining the quartz particles in the draining cavity 4;

thirdly, after the quartz particles are drained in the draining cavity 4, starting the second conveying mesh belt 41, and conveying the drained quartz particles to a drying tray 51;

starting the blower 8, and blowing air into the drying cavity 5 through the air inlet 82 by the blower 8; starting the rotating motor 7, driving the drying tray 51 to rotate by the rotating motor 7, dispersing and spreading out the quartz particles gathered in the rotating process by the brush bristles 54, leaking a part of the quartz particles to the next drying tray 51 and the heating plate 55 through the material leaking hole 511, and dropping a part of the quartz particles along the edge of the drying tray 51;

with the drying process, all the quartz particles fall on the heating plate 55, and are discharged through the discharge port 12 after being completely dried.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.