CN108548398B

CN108548398B - Foamed ceramic production and processing system

Info

Publication number: CN108548398B
Application number: CN201810394029.0A
Authority: CN
Inventors: 潘玉娇; 赵军
Original assignee: Lu'an Muzike Technology Co ltd
Current assignee: Lu'an muzike Technology Co.,Ltd.
Priority date: 2018-04-27
Filing date: 2018-04-27
Publication date: 2020-12-04
Anticipated expiration: 2038-04-27
Also published as: CN108548398A

Abstract

The invention relates to the technical field of ceramic production, in particular to a foamed ceramic production processing system which comprises a motor, a sealing mechanism, an air drying mechanism, a support frame, a fixing mechanism, a limiting mechanism, a collecting mechanism, a storage mechanism, a connecting mechanism and a rotating mechanism, wherein the air drying mechanism is arranged in the storage mechanism, cold air blown out by the air drying mechanism blows towards the inside and the outer side wall of a ceramic mud blank, the circulation speed of air around the ceramic mud blank is accelerated, the ceramic mud blank is fixed on the top surface of the fixing mechanism, the fixing mechanism rotates in the storage mechanism to drive the ceramic mud blank to uniformly rotate in the storage mechanism, so that the moisture in the ceramic mud blank is rapidly evaporated, meanwhile, the ambient temperature of the ceramic mud blank cannot be greatly changed, and the ceramic mud blank is not damaged; store the mechanism when dry ceramic mud embryo, store the one end intercommunication of mechanism collect the mechanism, store the inside wind of mechanism and discharge through collecting the mechanism, earth in the wind is stayed the inside of collecting the mechanism, the environmental protection.

Description

Foamed ceramic production and processing system

Technical Field

The invention relates to the technical field of ceramic production, in particular to a foamed ceramic production and processing system.

Background

The ware fired with pottery clay is called pottery, and the ware fired with porcelain clay is called porcelain. The pottery is a general name of pottery, stoneware and porcelain. Ancient people called pottery Ou. The pottery clay and porcelain clay are used as raw materials, and the ware prepared by the technical processes of proportioning, forming, drying, roasting and the like can be called as ceramic.

When pottery clay is used for making ceramic mud blanks, the ceramic mud blanks are required to be dried and then calcined, some ceramic mud blank drying devices in the prior art have certain defects, the baking temperature of some drying devices is too high, and the side walls of the ceramic mud blanks are easy to crack due to the too high temperature around the ceramic mud blanks, so that the ceramic mud blanks are scrapped; in the process of drying the ceramic mud blank, some mud on the side wall of the ceramic mud blank can fly in the drying device, and the environment is polluted. In view of this, the invention provides a foamed ceramic production and processing system, which has the following characteristics:

(1) according to the foamed ceramic production and processing system, the air drying mechanism is arranged inside the storage mechanism, and cold air blown by the air drying mechanism is blown to the inner side and the outer side wall of the ceramic mud blank, so that the speed of air circulation around the ceramic mud blank is increased, the moisture in the ceramic mud blank is quickly evaporated, meanwhile, the temperature around the ceramic mud blank cannot be greatly changed, and the ceramic mud blank is not damaged.

(2) According to the foamed ceramic production and processing system, the ceramic mud blank is fixed on the top surface of the fixing mechanism, the fixing mechanism rotates inside the storage mechanism, the ceramic mud blank is driven to uniformly rotate inside the storage mechanism, the ceramic mud blank is quickly and uniformly dried, and people can conveniently continue to process the ceramic mud blank.

(3) According to the foamed ceramic production and processing system, when the storage mechanism dries the ceramic mud blank, one end of the storage mechanism is communicated with the collection mechanism, air in the storage mechanism is discharged through the collection mechanism, and soil in the air is left in the collection mechanism, so that the soil is prevented from flying in the air, and the environment is protected.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a foamed ceramic production and processing system, wherein an air drying mechanism is arranged in a storage mechanism, cold air blown by the air drying mechanism is blown to the inner part and the outer side wall of a ceramic mud blank, the circulation speed of air around the ceramic mud blank is increased, the moisture in the ceramic mud blank is quickly evaporated, and meanwhile, the ambient temperature of the ceramic mud blank cannot be greatly changed, so that the ceramic mud blank is not damaged. The ceramic mud embryo is fixed at fixed establishment's top surface, and fixed establishment rotates in the inside of storing the mechanism, drives the even rotation of ceramic mud embryo in the inside of storing the mechanism, makes the quick even drying of ceramic mud embryo, makes things convenient for people to continue to process ceramic mud embryo. Store the mechanism when dry ceramic mud embryo, store the one end intercommunication of mechanism collect the mechanism, store the inside wind of mechanism and discharge through collecting the mechanism, the earth in the wind is stayed the inside of collecting the mechanism, prevents that earth from waving in the air, the environmental protection.

The technical scheme adopted by the invention for solving the technical problems is as follows: a foamed ceramic production and processing system comprises a motor, a sealing mechanism, an air drying mechanism, a support frame, a fixing mechanism, a limiting mechanism, a collecting mechanism, a storage mechanism, a connecting mechanism and a rotating mechanism; the side wall of one end of the storage mechanism is fixedly connected with the motor, and one end of the motor is fixedly connected with the rotating mechanism; one end of the storage mechanism is provided with the support frame; the storage mechanism is connected with the sealing mechanism in a sliding mode, and the sealing mechanism is clamped with the side wall of the support frame; the top surface of the support frame and the interior of the storage mechanism are connected with the fixing mechanism in a sliding manner, and the fixing mechanism is internally installed and rotationally connected with the rotating mechanism; the rotating mechanism is fixedly connected with the connecting mechanism, and the connecting mechanism is clamped with the fixing mechanism; the side wall of the storage mechanism is provided with the air drying mechanism, and the air drying mechanism is communicated with the storage mechanism; one end of the storage mechanism is communicated with the collection mechanism, and the collection mechanism is connected with the limiting mechanism in a sliding mode.

Specifically, for the convenience put into ceramic mud embryo the inside of box, it includes handle and box to store the mechanism, the one end installation of box the support frame, just the one end top lateral wall symmetry installation of box the handle conveniently promotes the handle makes the box removes.

Specifically, the closing mechanism comprises a limiting hole, a fixing rod, a baffle and springs, the top surface of the box body is connected with the baffle in a sliding mode, two springs are symmetrically mounted on the side wall of the bottom end of the baffle, one end of each spring is fixedly connected with the fixing rod, and the fixing rod is conveniently popped out to be clamped with the limiting hole; the side walls of the box body and the support frame are symmetrically provided with the limiting holes, the limiting holes are clamped with the fixing rods, and the box body is sealed in order that the baffle can slide downwards to be clamped with the support frame.

Specifically, the fixing mechanism comprises a fixing plate, a plurality of fixing plates and a positioning groove, the fixing plate is connected with the inside of the box body and the top surface of the supporting frame in a sliding mode, and one end of the fixing plate abuts against the baffle; the top surface of fixed plate rotates to be connected a plurality ofly the fixed disk, the bottom surface of fixed disk department installation lateral wall placed in the middle is the arc the constant head tank, puts into the ceramic mud embryo for the convenience the inside of fixed disk, it is convenient the fixed disk drives ceramic mud embryo and rotates.

Specifically, the rotating mechanism includes a plurality of first gears, a plurality of second gears and a third gear, the bottom end of the motor is rotatably connected to the third gear, the third gear is engaged with one of the second gears, the second gear is engaged with the first gear, the first gear and the second gear are located inside the fixing plate, the first gear and the second gear are rotatably connected to the fixing plate, and the third gear drives the second gear to rotate so that the second gear drives the first gear to rotate.

Specifically, the diameter of the first gear is smaller than that of the second gear, and the number of the first gears is twice as many as that of the second gears, so that the first gear and the second gear can move in the fixed plate conveniently.

Specifically, coupling mechanism includes connecting rod and three lug, first gear with the top surface of second gear is fixed connection of department between two parties the connecting rod, the three lateral wall of one end lateral wall fixed connection of connecting rod is the arc the lug, the lug block the constant head tank, for the convenience the lug is fixed the constant head tank, thereby makes first gear with the second gear drives the fixed disk is in the top surface of fixed plate rotates.

Specifically, the collecting mechanism comprises a collecting box, a supporting plate, a filter screen and a feeding funnel, the feeding funnel is installed on the side wall of one end of the box, the collecting box is installed at the bottom end of the feeding funnel, the filter screen is clamped in the collecting box, the filter screen is convenient to filter dust in the box, one end of the filter screen is fixedly connected with the supporting plate, the supporting plate is connected with the collecting box in a sliding mode, and the filter screen is convenient to take out from the collecting box.

Specifically, the limiting mechanism comprises a sliding block, a connecting piece and a sliding groove, the connecting piece is installed on the top surface of the supporting plate, the sliding groove is formed in the side wall of the collecting box, the sliding block is connected to the sliding groove in a sliding mode, the sliding block is clamped with the connecting piece on the top surface of the supporting plate in order to slide in the sliding groove, and therefore the supporting plate is fixed, and the filter screen is fixed in the collecting box.

Specifically, the air drying mechanism comprises a fan, spray heads and two sections of connecting pipes, the fan is installed on the top surface of the box body and communicated with the connecting pipes, the spray heads are installed on the side walls of the connecting pipes and are distributed at equal intervals, and in order to enable wind inside the fan to blow the interior of the box body; the two sections of spiral connecting pipes are distributed and installed on the inner side wall and the inner side wall of the top surface of the box body, and the connecting pipe and the feeding hopper are respectively installed on the side wall of the box body, so that the connecting pipe blows air to blow dust in the box body into the collecting box.

The invention has the beneficial effects that:

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of a preferred embodiment of a ceramic foam production processing system according to the present invention;

FIG. 2 is a schematic view of the securing mechanism shown in FIG. 1;

FIG. 3 is a schematic view of the internal structure of the fixing plate shown in FIG. 1;

FIG. 4 is a schematic view of the internal structure of the closure mechanism shown in FIG. 1;

fig. 5 is a schematic view of the internal structure of the collecting mechanism shown in fig. 1.

In the figure: 1. the device comprises a motor, 2, a sealing mechanism, 21, a limiting hole, 22, a fixing rod, 23, a baffle, 24, a spring, 3, an air drying mechanism, 31, a fan, 32, a spray head, 33, a connecting pipe, 4, a supporting frame, 5, a fixing mechanism, 51, a fixing plate, 52, a fixing disc, 53, a positioning groove, 6, a limiting mechanism, 61, a sliding block, 62, a connecting piece, 63, a sliding groove, 7, a collecting mechanism, 71, a collecting box, 72, a supporting plate, 73, a filter screen, 74, a feeding hopper, 8, a storage mechanism, 81, a handle, 82, a box body, 9, a connecting mechanism, 91, a connecting rod, 92, a lug, 10, a rotating mechanism, 101, a first gear, 102, a second gear, 103 and a third gear.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1, the technical solution for solving the technical problem of the foamed ceramic production and processing system of the present invention is as follows: a foamed ceramic production and processing system comprises a motor 1, a sealing mechanism 2, an air drying mechanism 3, a support frame 4, a fixing mechanism 5, a limiting mechanism 6, a collecting mechanism 7, a storage mechanism 8, a connecting mechanism 9 and a rotating mechanism 10; the side wall of one end of the storage mechanism 8 is fixedly connected with the motor 1, and one end of the motor 1 is fixedly connected with the rotating mechanism 10; one end of the storage mechanism 8 is provided with the support frame 4; the storage mechanism 8 is connected with the sealing mechanism 2 in a sliding manner, and the sealing mechanism 2 is clamped with the side wall of the support frame 4; the top surface of the support frame 4 and the interior of the storage mechanism 8 are slidably connected with the fixing mechanism 5, and the rotating mechanism 10 is installed and rotatably connected in the fixing mechanism 5; the rotating mechanism 10 is fixedly connected with the connecting mechanism 9, and the connecting mechanism 9 is clamped with the fixing mechanism 5; the air drying mechanism 3 is arranged on the side wall of the storage mechanism 8, and the air drying mechanism 3 is communicated with the storage mechanism 8; one end of the storage mechanism 8 is communicated with the collection mechanism 7, and the collection mechanism 7 is connected with the limiting mechanism 6 in a sliding mode.

Specifically, as shown in fig. 1, in the foamed ceramic production and processing system according to the present invention, in order to conveniently place the ceramic slurry blank into the box 825, the storage mechanism 8 includes a handle 81 and a box 82, the support frame 4 is installed at one end of the box 82, and the handle 81 is symmetrically installed on a side wall of a top end of the box 82, so as to conveniently push the handle 81 to move the box 82.

Specifically, as shown in fig. 1 and 4, in the foamed ceramic production and processing system according to the present invention, the closing mechanism 2 includes a limiting hole 21, a fixing rod 22, a baffle 23 and springs 24, the top surface of the box 82 is slidably connected to the baffle 23, two springs 24 are symmetrically installed on the side wall of the bottom end of the baffle 23, one end of each spring 24 is fixedly connected to the fixing rod 22, so as to facilitate the ejection of the fixing rod 22 and the engagement with the limiting hole 21; the box 82 and the side wall of the support frame 4 are symmetrically provided with the limiting holes 21, the limiting holes 21 are clamped with the fixing rods 22, and the box 82 is closed in order to facilitate the downward sliding of the baffle 23 and the clamping of the support frame 4.

Specifically, as shown in fig. 1 and fig. 2, the fixing mechanism 5 of the foamed ceramic production processing system of the present invention includes a fixing plate 51, a plurality of fixing plates 52 and positioning grooves 53, the fixing plate 51 is slidably connected to the inside of the box 82 and the top surface of the supporting frame 4, and one end of the fixing plate 51 abuts against the baffle 23; fixed plate 51's top surface is rotated and is connected a plurality ofly fixed disk 52, the bottom surface of fixed disk 52 is located the installation lateral wall between two parties and is the arc constant head tank 53, puts into the ceramic mud embryo for the convenience the inside of fixed disk 52, it is convenient fixed disk 52 drives the rotation of ceramic mud embryo.

Specifically, as shown in fig. 2 and 3, in the foamed ceramic production processing system according to the present invention, the rotating mechanism 10 includes a plurality of first gears 101, a plurality of second gears 102, and a third gear 103, a bottom end of the motor 1 is rotatably connected to the third gear 103, the third gear 103 is engaged with one of the second gears 102, the second gear 102 is engaged with the first gear 101, the first gear 101 and the second gear 102 are located inside the fixing plate 51, the first gear 101 and the second gear 102 are rotatably connected to the fixing plate 51, and the third gear 103 drives the second gear 102 to rotate, so that the second gear 102 drives the first gear 101 to rotate.

Specifically, as shown in fig. 2 and 3, in the foamed ceramic production processing system according to the present invention, the diameter of the first gear 101 is smaller than the diameter of the second gear 102, and the number of the first gears 101 is twice as large as the number of the second gears 102, so as to facilitate the movement of the first gears 101 and the second gears 102 inside the fixed plate 51.

Specifically, as shown in fig. 2, in the foamed ceramic production processing system of the present invention, the connecting mechanism 9 includes a connecting rod 91 and three protrusions 92, the connecting rod 91 is fixedly connected to the center of the top surfaces of the first gear 101 and the second gear 102, the three protrusions 92 with arc-shaped side walls are fixedly connected to the side wall of one end of the connecting rod 91, the protrusions 92 are engaged with the positioning slots 53, and the positioning slots 53 are fixed by the protrusions 92, so that the first gear 101 and the second gear 102 drive the fixing plate 52 to rotate on the top surface of the fixing plate 51.

Specifically, as shown in fig. 1 and 5, the collecting mechanism 7 of the foamed ceramic production processing system of the present invention includes a collecting box 71, a supporting plate 72, a filter screen 73 and a feeding funnel 74, the feeding funnel 74 is installed on a side wall of one end inside the box 82, the collecting box 71 is installed at a bottom end of the feeding funnel 74, the filter screen 73 is clamped inside the collecting box 71, so that the filter screen 73 can filter dust inside the box 82 conveniently, one end of the filter screen 73 is fixedly connected to the supporting plate 72, and the supporting plate 72 is slidably connected to the collecting box 71, so that the filter screen 73 can be taken out from the inside of the collecting box 71 conveniently.

Specifically, as shown in fig. 1, the limiting mechanism 6 of the present invention includes a sliding block 61, a connecting member 62 and a sliding groove 63, the connecting member 62 is mounted on the top surface of the supporting plate 72, the sliding groove 63 is disposed on the side wall of the collecting box 71, the sliding block 61 is slidably connected inside the sliding groove 63, the sliding block 61 is engaged with the connecting member 62, and in order to slide the sliding block 61 inside the sliding groove 63, the sliding block 61 is engaged with the connecting member 62 on the top surface of the supporting plate 72, so as to fix the supporting plate 72, and the filter screen 73 is fixed inside the collecting box 71.

Specifically, as shown in fig. 1, in the foamed ceramic production processing system according to the present invention, the air drying mechanism 3 includes a fan 31, a nozzle 32 and two sections of connecting pipes 33, the fan 31 is installed on the top surface of the box 82, the fan 31 is communicated with the connecting pipes 33, the nozzles 32 are installed on the side walls of the connecting pipes 33 and are distributed at equal intervals, so that the air inside the fan 31 blows to the inside of the box 82; the two spiral connecting pipes 33 are respectively arranged on the inner side wall and the inner side wall of the top surface of the box body 82, and the one spiral connecting pipe 33 and the feeding funnel 74 are respectively arranged on the side wall of the box body 82, so that the air blown by the connecting pipe 33 blows the dust in the box body 82 into the collecting box 71.

With this device access power, press the inside dead lever 22 in spacing hole 21 of support frame 4 lateral wall, compression spring 24 makes dead lever 22 stretch into the inside of baffle 23, and the baffle 23 that upwards slides makes baffle 23 go up slide, and when baffle 23 slided the top of box 82, spring 24 extension made dead lever 22 pop out, made the spacing hole 21 of dead lever 22 block box 82 top surface, fixed the top at box 82 with baffle 23.

(1) The fixing plate 51 is pulled out from the box 82, the fixing plate 51 is placed on the support frame 4, the ceramic mud blank is placed in the fixing plate 52 on the top surface of the fixing plate 51, the fixing plate 51 slides into the box 82, the ceramic mud blank is located in the box 82, the fixing rod 22 in the limiting hole 21 on the side wall of the box 82 is pressed, the spring 24 is compressed, the fixing rod 22 extends into the baffle 23, the baffle 23 is pressed downwards, the baffle 23 is clamped with the support frame 4 again, and the interior of the box 82 is sealed.

(2) The motor 1 is opened, the motor 1 drives the third gear 103 to rotate, the third gear 103 is meshed with one of the second gears 102, the second gears 102 are meshed with each other, the third gear 103 drives the second gear 102 to rotate in the fixing plate 51, one end of the second gear 102 is meshed with one first gear 101, one side of one first gear 101 is meshed with the other first gear 101, the second gear 102 rotates to drive the first gear 101 to rotate in the fixing plate 51, the connecting rod 91 is mounted on the top surfaces of the first gear 101 and the second gear 102, three arc-shaped convex blocks 92 are mounted on the side wall of the connecting rod 91, the convex blocks 92 are clamped with the positioning grooves 53 on the bottom surface of the fixing plate 52, and the first gear 101 and the second gear 102 rotate to drive the connecting rod 91 and the fixing plate 52 to rotate in the box 82, so that ceramic mud blanks are driven to rotate in the box 82.

(3) The fan 31 is turned on, wind power generated by the fan 31 enters the connecting pipe 33, the two sections of spiral connecting pipes 33 are arranged on the inner side wall and the inner side wall of the top surface of the box body 82 in a distributed mode, the wind blows the ceramic mud blank to the spray heads 32 on the side walls of the connecting pipes 33, the ceramic mud blank rotates in the box body 82, the wind accelerates the air circulation speed of the ceramic mud blank, and the ceramic mud blank is dried quickly and uniformly; when the ceramic mud blank is dried, wind blows the mud on the side wall of the ceramic mud blank, the connecting pipe 33 and the feeding funnel 74 are respectively arranged on the side wall of the box body 82, so that the connecting pipe 33 blows wind to blow dust in the box body 82 into the feeding funnel 74 on the side wall of one end of the box body 82, the bottom end of the feeding funnel 74 is communicated with the inside of the collecting box 71, the wind and the dust enter the inside of the collecting box 71, the dust is filtered by the filter screen 73 and is left in the collecting box 71, and air passes through the filter screen 73 to be discharged. When it is necessary to clean the inside of the collection box 71, the slider 61 inside the side wall chute 63 of the collection box 71 is slid to separate the slider 61 from the connecting member 62 on the top surface of the support plate 72, and the support plate 72 on the side wall of the collection box 71 is drawn out, so that the filter mesh 73 is drawn out from the inside of the collection box 71, and the dust on the top surface of the filter mesh 73 is leaked from the bottom end of the collection box 71.

The air drying mechanism 3 is arranged inside the storage mechanism 8, cold air blown out by the air drying mechanism 3 is blown to the inside and the outer side wall of the ceramic mud blank, so that the air circulation speed around the ceramic mud blank is increased, the moisture inside the ceramic mud blank is quickly evaporated, and meanwhile, the temperature around the ceramic mud blank cannot be greatly changed, so that the ceramic mud blank is not damaged. The ceramic mud embryo is fixed on the top surface of the fixing mechanism 5, the fixing mechanism 5 rotates in the storage mechanism 8 to drive the ceramic mud embryo to uniformly rotate in the storage mechanism 8, so that the ceramic mud embryo is quickly and uniformly dried, and people can conveniently continue to process the ceramic mud embryo. Store mechanism 8 when dry ceramic mud embryo, store the one end intercommunication of mechanism 8 collect mechanism 7, store the inside wind of mechanism 8 and discharge through collecting mechanism 7, and earth in the wind is stayed the inside of collecting mechanism 7, prevents that earth from waving in the air, the environmental protection.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A foamed ceramic production and processing system is characterized in that: comprises a motor (1), a sealing mechanism (2), an air drying mechanism (3), a support frame (4), a fixing mechanism (5), a limiting mechanism (6), a collecting mechanism (7), a storage mechanism (8), a connecting mechanism (9) and a rotating mechanism (10); the side wall of one end of the storage mechanism (8) is fixedly connected with the motor (1), and one end of the motor (1) is fixedly connected with the rotating mechanism (10); one end of the storage mechanism (8) is provided with the support frame (4); the storage mechanism (8) is connected with the sealing mechanism (2) in a sliding mode, and the sealing mechanism (2) is clamped with the side wall of the support frame (4); the top surface of the support frame (4) and the interior of the storage mechanism (8) are connected with the fixing mechanism (5) in a sliding manner, and the fixing mechanism (5) is internally installed and is connected with the rotating mechanism (10) in a rotating manner; the rotating mechanism (10) is fixedly connected with the connecting mechanism (9), and the connecting mechanism (9) is clamped with the fixing mechanism (5); the air drying mechanism (3) is arranged on the side wall of the storage mechanism (8), and the air drying mechanism (3) is communicated with the storage mechanism (8); one end of the storage mechanism (8) is communicated with the collecting mechanism (7), and the collecting mechanism (7) is connected with the limiting mechanism (6) in a sliding manner;

the storage mechanism (8) comprises a handle (81) and a box body (82), one end of the box body (82) is provided with the support frame (4), and the handle (81) is symmetrically arranged on the side wall of the top end of one end of the box body (82);

the sealing mechanism (2) comprises a limiting hole (21), a fixing rod (22), a baffle plate (23) and springs (24), the top surface of the box body (82) is connected with the baffle plate (23) in a sliding mode, the side walls of the bottom end of the baffle plate (23) are symmetrically provided with the two springs (24), and one end of each spring (24) is fixedly connected with the fixing rod (22); the side walls of the box body (82) and the support frame (4) are symmetrically provided with the limiting holes (21), and the limiting holes (21) are clamped with the fixing rods (22);

the fixing mechanism (5) comprises a fixing plate (51), a plurality of fixing plates (52) and positioning grooves (53), the inner part of the box body (82) and the top surface of the support frame (4) are in sliding connection with the fixing plate (51), and one end of the fixing plate (51) abuts against the baffle (23); the top surface of the fixed plate (51) is rotatably connected with a plurality of fixed disks (52), and the positioning groove (53) with the arc-shaped side wall is arranged in the middle of the bottom surface of each fixed disk (52);

the rotating mechanism (10) comprises a plurality of first gears (101), a plurality of second gears (102) and a third gear (103), the bottom end of the motor (1) is rotatably connected with the third gear (103), the third gear (103) is meshed with one of the second gears (102), the second gear (102) is meshed with the first gear (101), the first gear (101) and the second gear (102) are positioned inside the fixed plate (51), and the first gear (101) and the second gear (102) are rotatably connected with the fixed plate (51);

the diameter of the first gear (101) is smaller than the diameter of the second gear (102), and the number of the first gears (101) is twice that of the second gears (102);

the connecting mechanism (9) comprises a connecting rod (91) and three convex blocks (92), the centers of the top surfaces of the first gear (101) and the second gear (102) are fixedly connected with the connecting rod (91), the side wall of one end of the connecting rod (91) is fixedly connected with the convex blocks (92) with the three arc-shaped side walls, and the convex blocks (92) are clamped with the positioning grooves (53);

the collecting mechanism (7) comprises a collecting box (71), a supporting plate (72), a filter screen (73) and a feeding funnel (74), the feeding funnel (74) is installed on the side wall of one end inside the box body (82), the collecting box (71) is installed at the bottom end of the feeding funnel (74), the filter screen (73) is clamped inside the collecting box (71), one end of the filter screen (73) is fixedly connected with the supporting plate (72), and the supporting plate (72) is connected with the collecting box (71) in a sliding mode;

the limiting mechanism (6) comprises a sliding block (61), a connecting piece (62) and a sliding groove (63), the connecting piece (62) is installed on the top surface of the supporting plate (72), the sliding groove (63) is formed in the side wall of the collecting box (71), the sliding block (61) is connected to the inside of the sliding groove (63) in a sliding mode, and the sliding block (61) is clamped with the connecting piece (62);

the air drying mechanism (3) comprises a fan (31), a spray head (32) and two sections of connecting pipes (33), the fan (31) is installed on the top surface of the box body (82), the fan (31) is communicated with the connecting pipes (33), and the spray heads (32) are installed on the side wall of the connecting pipes (33) and are distributed at equal intervals; the two sections of spiral connecting pipes (33) are distributed and installed on the inner side wall and the inner side wall of the top surface of the box body (82), and the one section of connecting pipe (33) and the feeding hopper (74) are respectively installed on the side wall of the box body (82);

the device is connected with a power supply, a fixing rod (22) in a limiting hole (21) in the side wall of a support frame (4) is pressed, a spring (24) is compressed, the fixing rod (22) extends into a baffle (23), the baffle (23) slides upwards, when the baffle (23) slides to the top end of a box body (82), the spring (24) extends to enable the fixing rod (22) to pop out, the fixing rod (22) is clamped with the limiting hole (21) in the top surface of the box body (82), and the baffle (23) is fixed to the top end of the box body (82);

i, pulling out a fixing plate (51) from the inside of a box body (82), placing the fixing plate (51) on a support frame (4), placing a ceramic mud blank in a fixing disc (52) on the top surface of the fixing plate (51), sliding the fixing plate (51) into the box body (82), enabling the ceramic mud blank to be located in the box body (82), pressing a fixing rod (22) in a limiting hole (21) in the side wall of the box body (82), compressing a spring (24), enabling the fixing rod (22) to stretch into a baffle (23), pressing down the baffle (23), enabling the baffle (23) to be clamped with the support frame (4) again, and sealing the inside of the box body (82);

II, opening the motor (1), enabling the motor (1) to drive the third gear (103) to rotate, enabling the third gear (103) to be meshed with one of the second gears (102), enabling the second gears (102) to be meshed with each other, enabling the third gear (103) to drive the second gear (102) to rotate in the fixing plate (51), enabling one end of the second gear (102) to be meshed with one first gear (101), enabling one side of one first gear (101) to be meshed with the other first gear (101), enabling the second gear (102) to rotate to drive the first gear (101) to rotate in the fixing plate (51), installing a connecting rod (91) on the top surfaces of the first gear (101) and the second gear (102), installing three arc-shaped convex blocks (92) on the side wall of the connecting rod (91), enabling the convex blocks (92) to be clamped with positioning grooves (53) in the bottom surface of the fixing plate (52), enabling the first gear (101) and the second gear (102) to rotate to drive the connecting rod (91) and the fixing plate (52) to rotate in the box body, thereby driving the ceramic mud blank to rotate in the box body (82);

III, opening a fan (31), enabling wind power generated by the fan (31) to enter the connecting pipe (33), enabling two sections of spiral connecting pipes (33) to be distributed and installed on the inner side wall and the inner side wall of the top surface of the box body (82), blowing the wind to the ceramic mud blank through a spray head (32) on the side wall of the connecting pipe (33), enabling the ceramic mud blank to rotate in the box body (82), and enabling the wind to accelerate the air circulation speed of the ceramic mud blank to enable the ceramic mud blank to be dried quickly and uniformly; when the ceramic mud blank is dried, wind blows the mud on the side wall of the ceramic mud blank, a section of connecting pipe (33) and a feeding funnel (74) are respectively arranged on the side wall of a box body (82), so that the connecting pipe (33) blows air to blow dust in the box body (82) into the feeding funnel (74) on the side wall of one end of the box body (82), the bottom end of the feeding funnel (74) is communicated with the inside of a collecting box (71), the wind and the dust enter the inside of the collecting box (71), the dust is filtered by a filter screen (73) and stays in the inside of the collecting box (71), and the air passes through the filter screen (73) to be discharged; when the interior of the collection box (71) needs to be cleaned, the sliding block (61) in the side wall sliding groove (63) of the collection box (71) is slid, the sliding block (61) is separated from the connecting piece (62) on the top surface of the supporting plate (72), the supporting plate (72) on the side wall of the collection box (71) is drawn out, the filter screen (73) is drawn out from the interior of the collection box (71), and dust on the top surface of the filter screen (73) leaks out of the bottom end of the collection box (71).