CN112604579B

CN112604579B - Glaze slurry homogenizing machine for ceramic manufacturing

Info

Publication number: CN112604579B
Application number: CN202011478959.8A
Authority: CN
Inventors: 伍玉彬; 刘浩然; 康娟萍; 陈晓; 邹颖; 窦胜可; 蒋顺生
Original assignee: Guilin University of Aerospace Technology
Current assignee: Guilin University of Aerospace Technology
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2022-08-19
Anticipated expiration: 2040-12-15
Also published as: CN112604579A

Abstract

The invention discloses a glaze slurry stirring machine for ceramic manufacturing, which comprises a rack, a stirring component and a turnover component, wherein the rack is provided with the stirring component, two stirring barrels are placed on the stirring component, a lifting frame is fixed behind the rack, the lifting frame is a portal frame structure, two turnover mechanisms are respectively arranged on two side walls of the lifting frame in a sliding manner, the two turnover mechanisms can be driven by a lead screw device to move up and down simultaneously, the turnover mechanisms on two sides are jointly connected with a turnover frame, the turnover frame can be driven by a turnover structure to rotate between vertical and horizontal positions, and the turnover frame can be detachably connected with each stirring barrel. Compared with the prior art, the invention uses the shaking barrel which can move independently, the mixing is uniform, the replacement, the maintenance and the cleaning are more convenient, the discharging is convenient, the energy is saved, the efficiency is high, and the residual glaze slip is not easy to leave.

Description

Glaze slurry homogenizing machine for ceramic manufacturing

Technical Field

The invention relates to the technical field of a stirring device, in particular to a glaze slurry stirring machine for ceramic manufacturing.

Background

The glaze is a colorless or colored vitreous thin layer covering the surface of the ceramic product, and is prepared by mixing mineral raw materials such as feldspar, quartz, talc, kaolin and the like with a part of the raw materials according to a certain proportion, preparing frits, grinding the frits to prepare glaze slurry, applying the glaze slurry on the surface of a blank body, and calcining the glaze slurry at a certain temperature. The even mixing degree of the glaze slip greatly influences the appearance of the ceramic surface, such as smoothness, luster and the like, and further influences the appearance of the ceramic product.

Among the prior art, the glaze slurry homogenizes the machine and can add the glaze slurry in fixed container to stir the glaze slurry by motor drive stirring rake, can reduce artificial amount of labour, improve stirring efficiency. However, after the stirring is completed, the glaze slip in the container needs to be poured out manually or pumped out through a pump, so that the workload is high, the efficiency is low, the glaze slip is easy to remain and is difficult to clean, the glaze slip is easy to condense on the inner wall of the container, and the container needs to be maintained and replaced frequently in order to ensure the stability of the homogenizing equipment.

In addition, due to the viscosity of the glaze slip, the glaze slip is not easy to be left naturally when being splashed on the stirring paddle, the stirring shaft, the upper part of the container and the cover during stirring, so that a part of the glaze slip cannot be fully mixed, the uniformity of the poured glaze slip is influenced, in addition, the same batch of porcelain needs to be glazed under the condition of short interval time as far as possible, so that the consistency of the porcelain during kiln burning is ensured, the existing glaze slip homogenizing machine needs to be stirred again after the finished product glaze slip is used up, and the middle part needs longer interval time.

Therefore, there is a need to provide a glaze slurry homogenizer for ceramic manufacture to solve the above problems in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a glaze slip homogenizes machine for ceramic manufacture, includes the frame, homogenizes subassembly, tilting mechanism, wherein, be equipped with in the frame and homogenize the subassembly, homogenize and place two on the subassembly and shake even bucket, still be fixed with the hoisting frame behind the frame, the hoisting frame is portal frame structure, and its both sides wall slidable ground respectively is equipped with a tilting mechanism, and its two can reciprocate simultaneously by the screw device drive, and a roll-over stand is connected jointly to the tilting mechanism of both sides, the roll-over stand can be driven by tilting mechanism and rotate between vertical and level, just the roll-over stand can detachably shake even bucket with every and be connected.

Further, preferably, the uniform stirring assembly comprises a rocking plate and friction rollers, the rocking plate is arranged on the rack and is rotatably provided with three friction rollers which are parallel to each other, the axial direction of each friction roller is vertical to the plane of the lifting frame, and the distance between every two adjacent friction rollers can enable the uniform stirring barrel to be stably placed between the adjacent friction rollers;

the rocking plate is fixed with the fixed plate along the axial one end of friction roller, the fixed plate outside is equipped with the action wheel, and the fixed plate back is fixed with the motor and can drives the action wheel, just the action wheel passes through the hold-in range and is connected from the driving wheel of every friction roller one end to every friction roller synchronous revolution of drive.

Further, as a preferable mode, vertical plates are fixed at two ends of the rocking plate between the adjacent friction rollers, and support ball assemblies capable of limiting axial movement of the shaking barrel placed in the vertical plates are arranged on the vertical plates.

Further, preferably, the middle of the rocking plate is rotatably connected with the frame through a rocking plate bearing, the axial direction of the rocking plate bearing is perpendicular to the axial direction of the friction roller, one end of the rocking plate, which is far away from the fixed plate, is provided with a shaking cylinder, one end of the shaking cylinder is hinged with the bottom of the frame, and the other end of the shaking cylinder is hinged with the rocking plate;

further, as preferred, the support ball subassembly is including supporting ball base, support ball base be with rocker fixed connection's cavity, but be equipped with free rotation's support ball in it, the upper end of supporting ball base is fixed with the spacing ring in order to restrict the support ball in the cavity of supporting ball base, there is the support ball support with the laminating of support ball through supporting ball spring coupling in the cavity of support ball base.

Further, preferably, the turnover mechanism comprises a slider seat, the slider seat covers the side arm of the lifting frame and is contacted with the side arm of the lifting frame through a pulley, so that the turnover mechanism can move up and down along the side arm of the lifting frame;

a flange turntable which is rotatably connected with the sliding block seat is arranged on one side of the outer side of the sliding block seat, the flange turntable is connected with a side beam bolt of the roll-over stand, and a roll-over stand sliding groove is formed in the side beam of the roll-over stand;

the bottom of the sliding block seat is hinged with the bottom of a cylinder barrel of the overturning cylinder, and the tail end of a piston rod of the overturning cylinder is limited to move in a chute of the overturning frame;

preferably, the turnover frame is provided with a threaded hole at the front and back of the horizontal position corresponding to the axial center of the shaking barrel, a connecting stud is arranged in each threaded hole, and a handle is fixed on each connecting stud for assisting rotation.

Further, preferably, a lower connecting port is arranged at one end, close to the turnover mechanism, of the position, corresponding to the connecting stud, of the shaking barrel, an upper connecting port is arranged at the other end of the shaking barrel, and both the lower connecting port and the upper connecting port can be bolted with the connecting stud to be fixed on the turnover frame;

and the upper connecting port is a blind hole threaded hole, and the lower connecting port can be led out or poured into glaze slurry in the shaking barrel after being connected with the connecting stud.

Preferably, the lower connecting port is a through hole threaded hole, a plug frame is erected at a position corresponding to the lower connecting port in the shaking barrel, a plug head is movably arranged in the plug frame up and down, a soft sealing material is arranged below the plug head, the shape of the soft sealing material is fitted with a hole of the lower connecting port, a plug head spring is further arranged between the plug head and the plug head frame, and the plug head spring provides a force for enabling the plug head to seal the lower connecting port downwards;

the connecting stud corresponding to the hollow stud is a hollow stud, a discharging cage is fixed at the upper part of the connecting stud, the diameter of the discharging cage is smaller than that of an opening of the lower connecting port, and a material guiding hose communicated with the discharging cage is arranged at the lower part of the connecting stud;

further, as preferred, shake even barrel surface circumference and seted up the multichannel recess, be fixed with the location strip of many circular arcs on the roll-over stand, the location strip with shake the recess of the surface when even barrel is parallel and correspond to can imbed wherein, and when the location strip rather than laminating completely, corresponding lower connector and last connector are aimed at respectively to every connecting stud.

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

according to the invention, the shaking barrel is arranged above every two friction rollers, the friction rollers drive the fixed shaft of the shaking barrel on the friction rollers to rotate, the shaking plate rotates along the fixed shaft of the bearing of the shaking plate through the telescopic movement of the shaking cylinder, the shaking barrel can simultaneously rotate and shake in the fixed shaft manner, the uniform stirring is more sufficient, and the shaking barrel can be independently and freely moved, so that the shaking barrel can be more conveniently replaced, maintained and cleaned.

According to the invention, the roll-over stand descends to the position where the positioning strip is completely attached to the shaking barrel, each connecting stud is respectively bolted with the corresponding lower connector and the corresponding upper connector, the roll-over stand is lifted to the highest position through the screw rod device, the roll-over stand rotates around the flange turntable to be vertical by extending the roll-over cylinder, the roll-over stand is conveniently and quickly detached from the roll-over stand, the roll-over stand can be lifted to a high position and turned over, glaze slurry in the roll-over stand can completely flow out, residual glaze slurry is not easy to remain, a pump is not needed, subsequent glaze coating operation can be directly carried out by using gravitational potential energy, and the energy conservation and the high efficiency are realized.

Drawings

FIG. 1 is a schematic view of a glaze homogenizer for ceramic production;

FIG. 2 is a schematic view of a stirring assembly of a glaze slurry stirring machine for ceramic manufacturing;

FIG. 3 is a schematic view of a support ball assembly of a glaze homogenizer for ceramic production;

FIG. 4 is a schematic view of a turnover mechanism of a glaze slurry homogenizer for ceramic manufacturing;

FIG. 5 is a schematic view of the structure of the inner part and the lower connecting port of a shaking cylinder of a glaze slurry homogenizer for ceramic manufacturing;

in the figure: 1. a frame; 2. a lifting frame; 3. a turnover mechanism; 31. a slider seat; 32. a flange turntable; 33. turning over the air cylinder; 41. shaking the barrel evenly; 42. a lower connector; 43. an upper connecting port; 44. a plug spring; 47. a plug head; 48. plugging the head frame; 5. a roll-over stand; 51. a roll-over stand chute; 6. a homogenizing assembly; 61. a rocking plate; 62. a rocker plate bearing; 63. a rubbing roller; 64. a support ball assembly; 641. a support ball base; 642. a support ball; 643. a limiting ring; 644. a supporting ball support; 645. a support ball spring; 65. a driving wheel; 66. shaking up the air cylinder; 67. a fixing plate; 7. a positioning bar; 81. connecting a stud; 82. discharging the material cage; 83. a discharge hose; 9. a lead screw device.

Detailed Description

Referring to fig. 1, in the embodiment of the present invention, a glaze slurry homogenizing machine for ceramic manufacturing includes a frame 1, a homogenizing assembly 6, and a turnover mechanism 3, wherein the homogenizing assembly 6 is disposed on the frame 1, two shaking barrels 41 are disposed on the homogenizing assembly 6 and can shake the objects therein uniformly, a lifting frame 2 is further fixed behind the frame 1, the lifting frame 2 is a gantry framework, two turnover mechanisms 3 are slidably disposed on two side walls of the lifting frame, the two turnover mechanisms can be driven by a screw device 9 and move up and down at the same time, the turnover mechanisms 3 on two sides are connected to a turnover frame 5, the turnover frame 5 can be driven by the turnover mechanisms 3 to rotate between vertical and horizontal, and the turnover frame 5 can be detachably connected to each shaking barrel 41.

Referring to fig. 2, in the present embodiment, the homogenizing assembly 6 includes a rocking plate 61 and a friction roller 63, the rocking plate 61 is disposed on the frame 1, and three friction rollers 63 parallel to each other are rotatably disposed on the rocking plate 61, an axial direction of the friction roller 63 is perpendicular to a plane of the lifting frame 2, and a distance between adjacent friction rollers 63 enables the homogenizing barrel 41 to be stably placed therebetween;

a fixed plate 67 is fixed at one end of the rocking plate 61 along the axial direction of the friction rollers 63, a driving wheel 65 is arranged on the outer side of the fixed plate 67, a motor is fixed on the back of the fixed plate 67 and can drive the driving wheel 65, and the driving wheel 65 is connected with a driven wheel at one end of each friction roller 63 through a synchronous belt so as to drive each friction roller 63 to synchronously rotate;

the surface of the friction roller 63 is made of rubber, and the shaking barrel 41 arranged above the space between the two friction rollers 63 can be driven to rotate in a fixed shaft manner;

in other embodiments, one or more than two shaking barrels 41 are placed on the homogenizing assembly 6, and the number of the rubbing rollers 63 is changed, all without departing from the scope of the present invention.

Referring to fig. 2, in the present embodiment, vertical plates are fixed to both ends of the rocking plate 61 between the adjacent friction rollers 63, and support ball assemblies 64 are provided on the vertical plates, which can limit the axial movement of the pan barrel 41 placed therein.

Referring to fig. 2, in this embodiment, the middle of the rocking plate 61 is rotatably connected to the frame 1 through the rocking plate bearing 62, the axial direction of the rocking plate bearing 62 is perpendicular to the axial direction of the friction roller 63, one end of the rocking plate 61, which is far away from the fixing plate 67, is provided with a shake cylinder 66, one end of the shake cylinder 66 is hinged to the bottom of the frame 1, and the other end is hinged to the rocking plate 61;

through the telescopic movement of the shaking cylinder 66, the shaking plate 61 can be rotated along the fixed shaft of the shaking plate bearing 62, and the stroke of the shaking cylinder 66 enables the shaking plate 61 to rotate along the positive and negative 30-degree diameter in the horizontal direction.

Referring to fig. 3, in the present embodiment, the supporting ball assembly 64 includes a supporting ball base 641 and a supporting ball 642, the supporting ball base 641 is a cavity fixedly connected to the rocker plate 61, and a freely rotatable supporting ball 642 is disposed therein, a limiting ring 643 is fixed to an upper end of the supporting ball base 641 to limit the supporting ball 642 in the cavity of the supporting ball base 641, and a supporting ball holder 644 attached to the supporting ball is connected to the cavity of the supporting ball base 641 through a supporting ball spring 645;

the support balls 642 are able to compress the support ball springs 645 to retract inside when a pulling force is received, and the lowest position of the support balls 642 is higher than the stop collar 643.

Referring to fig. 4, in the present embodiment, the turnover mechanism 3 includes a slider seat 31, and the slider seat 31 covers the side arm of the lifting frame 2 and contacts with each other through a pulley, so that it can move up and down along the side arm of the lifting frame 2;

a flange turntable 32 rotatably connected with the sliding block seat 31 is arranged on one side of the outer side of the sliding block seat 31, the flange turntable 32 is in bolt connection with a side beam of the roll-over stand 5, and a roll-over stand sliding groove 51 is formed in the side beam of the roll-over stand 5;

the bottom of the sliding block seat 31 is hinged with the bottom of a cylinder barrel of the overturning cylinder 33, and the tail end of a piston rod of the overturning cylinder 33 is limited to move in the overturning frame sliding groove 51;

that is to say, through the flexible in order to change the position of the piston rod of upset cylinder 33 in roll-over stand spout 51 of upset cylinder 33, can make roll-over stand 5 around flange carousel 32 rotary motion, and the angle of its rotation restriction is between level and perpendicular, and the even bucket 41 of shaking that is convenient for rather than being connected charges, shakes even and ejection of compact efficiently.

Referring to fig. 4, in this embodiment, the turning frame 5 is provided with a threaded hole at each of the front and rear positions of the horizontal position corresponding to the axial center of the shaking barrel 41, a connecting stud 81 is arranged in each threaded hole, and a handle is fixed on the connecting stud 81 to assist rotation.

Referring to fig. 4, in the present embodiment, a lower connection port 42 is disposed at a position of the shake-up bucket 41 corresponding to the connection stud 81, which is close to one end of the turnover mechanism 3, and an upper connection port 43 is disposed at the other end of the turnover mechanism, and both the lower connection port 42 and the upper connection port 43 can be bolted to the connection stud 81, so that the connection studs are fixed on the roll-over stand 5;

and the upper connecting port 43 is a blind hole threaded hole, and the lower connecting port 42 can be led out or poured into the glaze slurry in the shaking barrel 41 after being connected with the connecting stud 81.

Referring to fig. 5, in the present embodiment, the lower connection port 42 is a through hole, a plug frame 48 is erected at a position corresponding to the lower connection port 42 in the shaking barrel 41, a plug 47 is movably disposed in the plug frame 48 up and down, a soft sealing material is disposed below the plug 47, the shape of the soft sealing material is fitted with the hole of the lower connection port 42, a plug spring 44 is further disposed between the plug 47 and the plug frame 48, and the plug spring 44 provides a force for the plug 47 to seal the lower connection port 42 downward;

the corresponding connecting stud 81 is a hollow stud, a discharging cage 82 is fixed at the upper part of the connecting stud 81, the diameter of the discharging cage 82 is smaller than the opening of the lower connecting port 42, and a material guiding hose 83 communicated with the discharging cage 82 is arranged at the lower part of the connecting stud 81;

when the connecting stud 81 is connected to the lower connecting port 42, the discharging cage 82 can jack the plug 47, so that the glaze slurry in the shaking barrel 41 flows out from the discharging cage 82 through the guiding hose 83.

Referring to fig. 1, in this embodiment, a plurality of grooves are formed in the circumferential direction of the outer surface of the shaking barrel 41, a plurality of arc-shaped positioning strips 7 are fixed on the roll-over stand 5, the grooves of the outer surface of the positioning strips 7, which are parallel to the shaking barrel 41, correspond to and can be embedded into the grooves, and when the positioning strips 7 are completely attached to the grooves, each connecting stud 81 is aligned to the corresponding lower connecting port 42 and the corresponding upper connecting port 43 respectively;

when the roll-over stand 5 descends to the position where the positioning strip 7 is completely attached to the shaking barrel 41, each connecting stud 81 is respectively aligned with the corresponding lower connecting port 42 and the corresponding upper connecting port 43, so that the roll-over stand can be quickly positioned, and the roll-over stand 5 can be conveniently connected with the shaking barrel 41.

In specific implementation, the shaking barrel 41 is arranged above every two friction rollers 63, the angle of the shaking plate 61 is adjusted, the material guiding hose 83 charges the shaking barrel 41 through the lower connecting port 42, the friction rollers 63 drive the shaking barrel fixed shaft on the friction rollers to rotate, the supporting ball assembly 64 limits axial movement of the shaking barrel 41 arranged in the friction rollers, and the shaking plate 61 rotates along the fixed shaft of the shaking plate bearing 62 through telescopic movement of the shaking cylinder 66;

after the uniform stirring is finished, the rocking plate 61 rotates to a horizontal position, the roll-over stand 5 descends to a position where the positioning strip 7 is completely attached to the uniform shaking barrel 41, each connecting stud 81 is bolted with the corresponding lower connecting port 42 and the corresponding upper connecting port 43 respectively, the roll-over stand 5 is lifted to the highest position through the screw rod device 9, and the roll-over cylinder 33 extends to enable the roll-over stand 5 to rotate around the flange turntable 32 to move vertically;

when the connecting stud 81 is connected to the lower connecting port 42, the discharging cage 82 can jack up the plug 47, so that the glaze slurry in the shaking barrel 41 flows out of the discharging cage 82 through the guiding hose 83;

in one embodiment, the two shaking barrels 41 alternate the feeding, homogenizing and discharging processes, so that the homogenized glaze slurry can be continuously supplied.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides a glaze slip homogenizes machine for ceramic manufacture, includes frame (1), homogenizes subassembly (6), tilting mechanism (3), its characterized in that, be equipped with on frame (1) and homogenize subassembly (6), homogenize and place two on subassembly (6) and shake even bucket (41), still be fixed with hoisting frame (2) behind frame (1), hoisting frame (2) are portal frame structure, and its both sides wall respectively is equipped with a tilting mechanism (3) with sliding, and its two can reciprocate simultaneously by the drive of screw device (9), and tilting mechanism (3) of both sides connect a roll-over stand (5) jointly, roll-over stand (5) can be rotated between vertical and level by the drive of tilting mechanism (3), and roll-over stand (5) can detachably be connected with every shake even bucket (41);

the uniform stirring assembly (6) comprises a rocking plate (61) and friction rollers (63), wherein the rocking plate (61) is arranged on the rack (1) and is rotatably provided with three parallel friction rollers (63), the axial direction of each friction roller (63) is vertical to the plane where the lifting frame (2) is located, and the distance between every two adjacent friction rollers (63) can enable the uniform stirring barrel (41) to be stably placed between every two adjacent friction rollers;

a fixing plate (67) is fixed at one end of the rocking plate (61) along the axial direction of the friction rollers (63), a driving wheel (65) is arranged on the outer side of the fixing plate (67), a motor capable of driving the driving wheel (65) is fixed on the back of the fixing plate (67), and the driving wheel (65) is connected with a driven wheel at one end of each friction roller (63) through a synchronous belt so as to drive each friction roller (63) to synchronously rotate;

vertical plates are fixed at two ends of the rocking plate (61) between the adjacent friction rollers (63), and a supporting ball assembly (64) is arranged on each vertical plate and can limit the axial movement of the shaking barrel (41) arranged in the vertical plate;

the supporting ball assembly (64) comprises a supporting ball base (641) and a supporting ball (642), wherein the supporting ball base (641) is a cavity fixedly connected with the rocking plate (61), the supporting ball (642) capable of rotating freely is arranged in the supporting ball base, a limiting ring (643) is fixed at the upper end of the supporting ball base (641) to limit the supporting ball (642) in the cavity of the supporting ball base (641), and a supporting ball support (644) attached to the supporting ball is connected to the cavity of the supporting ball base (641) through a supporting ball spring (645).

2. A glaze slurry homogenizer for ceramic manufacture according to claim 1, wherein the middle of the rocking plate (61) is rotatably connected with the frame (1) through a rocking plate bearing (62), the axial direction of the rocking plate bearing (62) is perpendicular to the axial direction of the friction roller (63), a shaking cylinder (66) is arranged at one end of the rocking plate (61) far away from the fixing plate (67), one end of the shaking cylinder (66) is hinged with the bottom of the frame (1), and the other end is hinged with the rocking plate (61).

3. A machine for homogenizing slip used in ceramic products, according to claim 1, characterized in that said turning mechanism (3) comprises a slider seat (31), said slider seat (31) covers the side arms of the lifting frame (2) and is contacted with each other through pulleys so as to move up and down along the side arms of the lifting frame (2);

a flange turntable (32) rotationally connected with the sliding block seat (31) is arranged on one side of the outer side of the sliding block seat, the flange turntable (32) is in bolt connection with a side beam of the roll-over stand (5), and a roll-over stand sliding groove (51) is formed in the side beam of the roll-over stand (5);

the bottom of the sliding block seat (31) is hinged with the bottom of a cylinder barrel of the overturning cylinder (33), and the tail end of a piston rod of the overturning cylinder (33) is limited to move in the overturning frame sliding groove (51).

4. The glaze slurry mixer for ceramic manufacture as claimed in claim 1, wherein the roll-over stand (5) is provided with a threaded hole respectively at the front and back of the horizontal position corresponding to the axial center of the shaking barrel (41), each threaded hole is provided with a connecting stud (81), and the connecting studs (81) are fixed with handles for assisting rotation.

5. The glaze slurry homogenizer for ceramic manufacture as claimed in claim 4, wherein the position of the shaking barrel (41) corresponding to the connecting stud (81) is provided with a lower connecting port (42) at one end close to the turnover mechanism (3) and an upper connecting port (43) at the other end, and both the lower connecting port (42) and the upper connecting port (43) can be bolted with the connecting stud (81) to be fixed on the turnover frame (5);

and the upper connecting port (43) is a blind hole threaded hole, and the lower connecting port (42) can be led out or poured into glaze slurry in the shaking barrel (41) after being connected with the connecting stud (81).

6. The glaze slurry homogenizer for ceramic manufacture according to claim 5, wherein the lower connection port (42) is a through-hole threaded hole, a plug frame (48) is erected at a position corresponding to the lower connection port (42) in the shaking barrel (41), a plug head (47) is movably arranged in the plug frame (48) up and down, a soft sealing material is arranged below the plug head (47) and is in fit with the hole of the lower connection port (42), a plug head spring (44) is further arranged between the plug head (47) and the plug frame (48), and the plug head spring (44) provides a force for enabling the plug head (47) to seal the lower connection port (42) downwards;

the connecting stud (81) corresponding to the connecting stud is a hollow stud, a discharging cage (82) is fixed on the upper portion of the connecting stud (81), the diameter of the discharging cage (82) is smaller than that of an opening of the lower connecting port (42), and a material guide hose (83) communicated with the discharging cage (82) is arranged on the lower portion of the connecting stud (81).

7. The glaze slurry homogenizing machine for ceramic manufacture according to claim 1, wherein a plurality of grooves are formed in the circumferential direction of the outer surface of the shaking barrel (41), a plurality of arc-shaped positioning strips (7) are fixed on the roll-over stand (5), the grooves of the outer surface of the positioning strips (7) when the shaking barrel (41) is parallel correspond to each other and can be embedded into the grooves, and when the positioning strips (7) are completely attached to the positioning strips, each connecting stud (81) is respectively aligned to the corresponding lower connecting port (42) and the upper connecting port (43).