CN211466836U - Internal and external glazing machine for ceramic blank - Google Patents

Abstract

The utility model relates to the field of ceramic processing equipment, especially a glazing machine inside and outside ceramic body. This kind of internal and external glazing machine of pottery base, including the swivel mount, elevating gear, the arm that adsorbs, the station of glazing porcelain, the swivel mount is rotatory around horizontal axis, the swivel mount is located on elevating gear and is the elevating movement in vertical direction by elevating gear drive, it is equipped with a plurality of to adsorb the arm, adsorb on the arm locates the swivel mount and each adsorb the arm and arrange around swivel mount axis circumference array, it snatchs the work piece through the negative pressure to adsorb the arm, it rotates in order to drive the work piece around self axis rotation to adsorb the arm, the station of glazing porcelain is located the swivel mount below, it carries out the process of glazing porcelain in the station of glazing porcelain to adsorb the arm to drive down through swivel mount and elevating gear. The internal and external glazing machine for the ceramic body is reasonable in structure, small in occupied area and high in production efficiency, and can be used for glazing the internal and external surfaces of the ceramic simultaneously or glazing the internal and external surfaces of the ceramic separately.

Description

Internal and external glazing machine for ceramic blank

Technical Field

The utility model relates to the field of ceramic processing equipment, especially a glazing machine inside and outside ceramic body.

Background

The ceramic surface needs to be glazed before firing, the traditional glazing mode is artificial glazing, when the glaze dipping method is adopted, the blank bodies need to be manually dipped into a glaze slurry tank one by one, the glaze slurry is adsorbed by utilizing the water absorption of the blank bodies, and the artificial glazing mode has the defects of manpower consumption, low production efficiency, easy non-uniformity of glazing and non-conformity with the requirements of modern ceramic scale and automation. In order to solve the problems, the chinese patent with the publication number of CN 207310196U discloses an over-glaze system, which comprises an over-glaze rotating table and a plurality of over-glaze bottle clamping hands connected to the circumference of the over-glaze rotating table; each external glaze bottle clamping hand comprises a revolution driving mechanism, a rotation driving mechanism, an installation frame and a clamping mechanism; the clamping mechanism is rotatably arranged on the mounting frame, and the self-rotation driving mechanism drives the clamping mechanism to rotate along a first rotation axis of the clamping mechanism; the revolution driving mechanism drives the mounting frame to rotate along a second rotation axis perpendicular to the first rotation axis; the clamping mechanism can clamp or loosen the bottle mouth of the bottle piece. The existing glazing device has simple and reasonable structure, can efficiently finish the glazing operation of the bottle and easily configure an automatic control system, and realizes the efficient and automatic glazing of the bottle. However, the glazing device can only glaze the outer surface of the ceramic bowl at one time, and cannot glaze the inner surface and the outer surface of the ceramic bowl at the same time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art, providing a ceramic body internal and external glazing machine which has reasonable structure, small occupied area and high production efficiency and can glaze the internal and external surfaces of the ceramic.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a glazing machine inside and outside ceramic body, includes swivel mount, elevating gear, adsorbs the arm, the station of glazing porcelain, the swivel mount is rotatory around horizontal axis, the swivel mount is located elevating gear and is driven by elevating gear and do the elevating movement in vertical direction, it is equipped with a plurality of to adsorb the arm, adsorbs the arm and locates on the swivel mount and each adsorbs the arm and arrange around swivel mount axis circumference array, adsorbs the arm and snatchs the work piece through the negative pressure, it rotates in order to drive the work piece around self axis rotation to adsorb the arm, the station of glazing porcelain is located the swivel mount below, it carries out the process of glazing porcelain in the station of glazing porcelain to adsorb the arm through the swivel mount and elevating gear drive down.

Furthermore, a first glazing pool is arranged in the glazing station, glaze liquid is filled in the first glazing pool, when the adsorption arm drives the workpiece to enter the first glazing pool, the adsorption arm is in a downward inclined state and enables the workpiece to obliquely enter the glaze liquid, and a glaze dipping procedure is carried out.

Furthermore, a first glazing pool and a second glazing pool are arranged in the glazing station, a glaze spraying head is respectively arranged in the first glazing pool and the second glazing pool, when the workpiece is driven by the adsorption arm to enter the first glazing pool, the adsorption arm is in a downward inclined state, the glaze spraying head in the first glazing pool faces the outer surface of the workpiece, and when the workpiece is driven by the adsorption arm to enter the second glazing pool, the adsorption arm is in a vertically downward state, and the glaze spraying head in the second glazing pool faces the inner surface of the workpiece.

The device further comprises a feeding station and a glaze throwing station, wherein the adsorption arm drives the workpiece to sequentially and circularly pass through the feeding station, the glazing station and the glaze throwing station.

The automatic glazing machine further comprises an automatic rotation mechanism, the automatic rotation mechanism is arranged on the rotating frame and driven by the lifting device to do lifting motion in the vertical direction, the automatic rotation mechanism comprises a motor, a belt and a plurality of driving wheels, the driving wheels are respectively arranged at the glazing station and the glaze throwing station, a driven wheel is sleeved on each adsorption arm, the motor drives the driving wheels to rotate through the belt, the driving wheels drive the driven wheels of the adsorption arms to rotate, and then the adsorption arms rotate.

Further, still including setting up the rotary joint on the swivel mount, the negative pressure source is connected to the rotary joint input, and a plurality of outputs are connected with each absorption arm through the branch pipe respectively.

The bottom glazing device comprises a rotary seat, a glazing channel and a glaze source, the rotary seat is installed at one end of the glazing channel, a rotary joint is arranged at the other end of the glazing channel and connected with the glaze source through the rotary joint, the rotary seat can rotate around the axis of the rotary seat, and glaze liquid is sprayed out of the glazing channel to glaze the bottom of a workpiece placed on the rotary seat.

Furthermore, the rotating seat comprises a glazing cavity, a glaze returning hole and an installation position capable of placing a workpiece, the glazing cavity is arranged below the installation position and communicated with the installation position, the glazing channel is communicated to the glazing cavity and is positioned at the center of the bottom of the glazing cavity, the glaze returning hole is obliquely arranged at two sides of the rotating seat, and the glaze returning hole is communicated with the glazing cavity and penetrates out of the rotating seat.

It can be known from the above description of the present invention, compared with the prior art, the beneficial effects of the present invention are:

the utility model can simultaneously glaze the inner and outer surfaces of the workpiece, and can also glaze the inner and outer surfaces of the workpiece separately; the vertical rotation is adopted, the structure is reasonable and simple, and the occupied area is small; the device adopts a six-station arrangement scheme, glazing of a plurality of workpieces is completed when the rotary table rotates for one circle, and the production efficiency is high; the workpiece glazing process adopts autorotation, so that the workpiece glazing is more uniform.

Drawings

Fig. 1 is a schematic view of the overall structure of the glazing state according to the embodiment of the present invention.

Fig. 2 is a schematic view of the overall structure of the ascending state of the revolving rack according to the embodiment of the present invention.

Fig. 3 is a side view of an embodiment of the present invention.

Fig. 4 is a schematic view of the driving wheel driving the driven wheel to rotate according to the embodiment of the present invention.

Fig. 5 is an enlarged view of fig. 3 according to an embodiment of the present invention.

In the figure: 1. the automatic glazing machine comprises a rotating frame, 11 rotating joints, 2 lifting devices, 21 oil cylinders, 22 sliding rails, 3 absorbing arms, 31 driven wheels, 4 rotating mechanisms, 41 motors, 42 belts, 43 driving wheels, 5 glazing stations, 51 first glazing pools, 52 second glazing pools, 53 first glazing heads, 54 second glazing heads, 6 loading stations, 7 throwing stations, 71 glazing pools, 8 workpieces, 9 bottom glazing devices, 91 rotating seats, 911 glazing cavities, 912 glazing holes, 913 mounting positions, 92 glazing channels and 93 rotating joints.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1 to 5, a first embodiment of the present invention is a ceramic body internal and external glazing machine, including a rotating frame 1, a lifting device 2, an adsorption arm 3, a rotation mechanism 4, a glazing station 5, a loading station 6, a glaze throwing station 7, a workpiece 8, and a bottom glazing device 9.

The lifting device 2 comprises an oil cylinder 21 and a slide rail 22, the rotating frame 1 is slidably arranged on the slide rail 22, and is driven by the oil cylinder 21 to do lifting movement in the vertical direction on the slide rail 22. The rotating frame 1 is connected with a motor, and the rotating frame 1 is driven to rotate around a horizontal axis by the motor. The number of the adsorption arms 3 is six, the adsorption arms 3 are arranged on the rotating frame 1, and the adsorption arms 3 are arranged in a circumferential array around the axis of the rotating frame 1. The rotary frame 1 is further provided with a rotary joint 11, the input end of the rotary joint 11 is connected with a negative pressure source, and a plurality of output ends are respectively connected with the adsorption arms 3 through branch pipes, so that the adsorption arms 3 grab the workpieces 8 through negative pressure, and the workpieces 8 with different sizes can be placed on the adsorption arms 3.

The glazing station 5 is arranged below the rotating frame 1, a first glazing pool 51 and a second glazing pool 52 are arranged in the glazing station 5, a first glazing head 53 is arranged in the first glazing pool 51, a second glazing head 54 is arranged in the second glazing pool 52, when the adsorption arm 3 drives the workpiece 8 to enter the first glazing pool 51, the adsorption arm 3 is in a downward inclined state, the first glazing head 53 in the first glazing pool 51 faces the outer surface of the workpiece 8, and when the adsorption arm 3 drives the workpiece 8 to enter the second glazing pool 52, the adsorption arm 3 is in a vertically downward state, and the second glazing head 54 in the second glazing pool 52 faces the inner surface of the workpiece 8.

The rotation mechanism 4 is arranged on the lifting device 2 and is driven by the lifting device 2 to do lifting motion in the vertical direction, the rotation mechanism 4 comprises a motor 41, a belt 42 and a plurality of driving wheels 43, the driving wheels 43 are respectively arranged at the glazing station 5 and the glaze throwing station 7, each adsorption arm 3 is sleeved with a driven wheel 31, the motor 41 drives the driving wheels 43 to rotate through the belt 42, so that the driving wheels 43 drive the driven wheels 31 of the adsorption arms 3 to rotate, and the transmission mode comprises meshing transmission, friction transmission, pressure transmission and the like, so that the adsorption arms 3 rotate.

The loading station 6 is used for placing the workpiece 8 on the adsorption arm 3, the glaze throwing station 7 is used for throwing glaze to the workpiece 8 after glazing, a glaze receiving pool 71 is arranged below the glaze throwing station 7, glaze can be more uniform when the workpiece 8 is thrown, and redundant glaze can be dripped into the glaze receiving pool 71. The adsorption arm 3 drives the workpiece 8 to rotate sequentially to pass through the feeding station 6, the glazing station 5 and the glaze throwing station 7. The adsorption arm 3 drives the workpiece 8 to perform a glazing process at the glazing station 5 under the action of the rotating frame 1, the lifting device 2 and the self-rotating mechanism 4.

The bottom surface glazing device 9 comprises a rotary seat 91, a glazing channel 92 and a glazing source, wherein the rotary seat 91 is installed at one end of the glazing channel 92, a rotary joint 93 is arranged at the other end of the glazing channel 92 and is connected with the glazing source through the rotary joint 93, the rotary seat 91 can rotate around the axis of the rotary seat driven by a motor, and the glazing channel 92 sprays glaze liquid to glaze the bottom of a workpiece placed on the rotary seat. The roating seat 91 is including glazing porcelain chamber 911, return the glaze hole 912 and can place the installation position 913 of work piece 8, and the chamber 911 of glazing porcelain is located installation position 913 below, and is linked together with installation position 913, and the passageway 92 of glazing porcelain communicates to the chamber 911 of glazing porcelain and is located glazing porcelain chamber 911 bottom central point and puts, and return glaze hole 912 sets up in roating seat 91 both sides, returns glaze hole 912 and towards roating seat 91 outside decline, returns glaze hole 912 and the chamber 911 intercommunication of glazing porcelain and runs through out roating seat 91.

The working principle of the internal and external glazing machine for the ceramic blank in the first specific embodiment is as follows:

firstly, a workpiece 8 is placed on an adsorption arm 3 at a feeding station 6, and the workpiece 8 is driven to rotate around a horizontal axis by a rotating frame 1;

step two, the rotating frame 1 drives the workpiece 8 to rotate to the position above the first glazing pool 51, the driving wheel 43 drives the driven wheel 31 on the adsorption arm 3 to rotate, so that the adsorption arm 3 rotates around the axis of the rotating frame to drive the workpiece 8 to rotate, at the moment, the lifting device 2 drives the rotating frame 1 to descend in the vertical direction, namely, the workpiece 8 rotates and descends into the first glazing pool 51 in the vertical direction, the workpiece 8 is in a downward inclined state, and the first glazing head 53 in the first glazing pool 51 faces the outer surface of the workpiece 8 for glazing;

step three, the workpiece 8 finishes the outer surface glazing process, the lifting device 2 drives the rotating frame 1 to ascend in the vertical direction, the rotating frame 1 drives the workpiece 8 to rotate to the position above the second glazing pool 52, in the rotating process, the driven wheel 31 of the adsorption arm 3 is driven by the other driving wheel 43 to rotate, the workpiece 8 rotates and descends in the vertical direction to the second glazing pool 52, the workpiece 8 is in a vertical state, and the second glazing head 54 in the second glazing pool 52 faces the inner surface of the workpiece 8 for glazing;

step four, the workpiece 8 finishes the inner surface glazing process, the rotating frame 1 drives the workpiece 8 to rotate to the glaze throwing station 7, and in the rotating process, the driven wheel 31 of the adsorption arm 3 is driven by the other driving wheel 43 to rotate, so that the adsorption arm 3 rotates around the axis of the adsorption arm to drive the workpiece 8 to rotate, and glaze liquid on the workpiece 8 is thrown uniformly;

and step five, the rotating frame 1 drives the workpiece 8 to continuously rotate, the driven wheel 31 on the adsorption arm 3 is separated from the driving wheel 43, when the adsorption arm 3 rotates to the feeding station 6, the adsorption arm 3 stops rotating, the workpiece 8 on the adsorption arm 3 is replaced, and the glazing process is repeated.

The second embodiment is different from the second embodiment in that:

a first glazing pool 51 is arranged in the glazing station 5, glaze liquid is filled in the first glazing pool 51, and when the adsorption arm 3 drives the workpiece 8 to enter the first glazing pool 51, the adsorption arm 3 is in a downward inclined state and enables the workpiece 8 to be obliquely immersed in the glaze liquid, so that a glaze immersion process is performed.

The working principle of the internal and external glazing machine for the ceramic blank in the second specific embodiment is as follows:

firstly, a workpiece 8 is placed on an adsorption arm 3 at a feeding station 6, and the workpiece 8 is driven to rotate around a horizontal axis by a rotating frame 1;

step two, the rotating frame 1 drives the workpiece 8 to rotate to the position above the first glazing pool 51, the driving wheel 43 drives the driven wheel 31 on the adsorption arm 3 to rotate, the adsorption arm 3 rotates around the axis of the rotating frame to drive the workpiece 8 to rotate, at the moment, the lifting device 2 drives the rotating frame 1 to descend in the vertical direction, namely, the workpiece 8 rotates and descends in the vertical direction to the first glazing pool 51 filled with glaze slurry, the workpiece 8 is in a downward inclined state, and the workpiece 8 obliquely enters glaze liquid to perform a glaze dipping process;

step three, the workpiece 8 finishes the inner surface glazing process, the lifting device 2 drives the rotating frame 1 to ascend in the vertical direction, the rotating frame 1 drives the workpiece 8 to rotate to the glaze throwing station 7, and in the rotating process, the driven wheel 31 of the adsorption arm 3 is driven by the other driving wheel 43 to rotate, so that the adsorption arm 3 rotates around the axis of the adsorption arm to drive the workpiece 8 to rotate, and glaze liquid on the workpiece 8 is thrown uniformly;

and step four, the rotating frame 1 drives the workpiece 8 to continuously rotate, the driven wheel 31 on the adsorption arm 3 is separated from the driving wheel 43, when the adsorption arm 3 rotates to the feeding station 6, the adsorption arm 3 stops rotating, the workpiece 8 on the adsorption arm 3 is replaced, and the glazing process is repeated.

The above is only a specific embodiment of the present invention, but the design concept of the present invention is not limited to this, and the present invention is to be used for insubstantial modification of the present invention, which all infringes the protection scope of the present invention.

Claims (8)

1. A ceramic body internal and external glazing machine is characterized in that: the glazing process comprises a rotating frame, a lifting device, a plurality of adsorption arms and a glazing station, wherein the rotating frame rotates around a horizontal axis, the rotating frame is arranged on the lifting device and driven by the lifting device to do lifting motion in the vertical direction, the adsorption arms are arranged on the rotating frame and distributed in a circumferential array mode around the axis of the rotating frame, the adsorption arms grab workpieces through negative pressure, the adsorption arms rotate around the axis of the adsorption arms to drive the workpieces to rotate, the glazing station is arranged below the rotating frame, and the adsorption arms are driven by the rotating frame and the lifting device to perform a glazing process on the glazing station.

2. The internal and external glazing machine for ceramic body according to claim 1, characterized in that: and a first glazing pool is arranged in the glazing station, glaze liquid is filled in the first glazing pool, and when the adsorption arm drives the workpiece to enter the first glazing pool, the adsorption arm is in a downward inclined state and enables the workpiece to obliquely enter the glaze liquid to carry out a glaze dipping procedure.

3. The internal and external glazing machine for ceramic body according to claim 1, characterized in that: the glazing method comprises the following steps that a first glazing pool and a second glazing pool are arranged in the glazing station, a glaze spraying head is arranged in each of the first glazing pool and the second glazing pool, when an adsorption arm drives a workpiece to enter the first glazing pool, the adsorption arm is in a downward inclined state, the glaze spraying head in the first glazing pool faces the outer surface of the workpiece, when the adsorption arm drives the workpiece to enter the second glazing pool, the adsorption arm is in a vertically downward state, and the glaze spraying head in the second glazing pool faces the inner surface of the workpiece.

4. The internal and external glazing machine for ceramic body according to claim 1, characterized in that: the device also comprises a feeding station and a glaze throwing station, wherein the adsorption arm drives the workpiece to sequentially and circularly pass through the feeding station, the glazing station and the glaze throwing station.

5. The internal and external glazing machine for ceramic body according to claim 4, characterized in that: the automatic glaze-throwing device is characterized by further comprising an automatic rotation mechanism, the automatic rotation mechanism is arranged on the rotating frame and driven by the lifting device to do lifting motion in the vertical direction, the automatic rotation mechanism comprises a motor, a belt and a plurality of driving wheels, the driving wheels are respectively arranged at the glaze-applying station and the glaze-throwing station, a driven wheel is sleeved on each adsorption arm, the motor drives the driving wheels to rotate through the belt, the driving wheels drive the driven wheels of the adsorption arms to rotate, and then the adsorption arms rotate.

6. The internal and external glazing machine for ceramic body according to claim 1, characterized in that: the vacuum adsorption device is characterized by further comprising a rotary joint arranged on the rotary frame, the input end of the rotary joint is connected with a negative pressure source, and the output ends of the rotary joint are connected with the adsorption arms through branch pipes respectively.

7. The internal and external glazing machine for ceramic body according to claim 1, characterized in that: the bottom surface glazing device comprises a rotary seat, a glazing channel and a glazing source, the rotary seat is installed at one end of the glazing channel, a rotary joint is arranged at the other end of the glazing channel and connected with the glazing source through the rotary joint, the rotary seat can rotate around the axis of the rotary seat, and glaze liquid is sprayed out of the glazing channel to glaze the bottom of a workpiece placed on the rotary seat.

8. The internal and external glazing machine for ceramic body according to claim 7, characterized in that: the rotary seat comprises a glazing cavity, a glaze returning hole and an installation position capable of placing a workpiece, the glazing cavity is arranged below the installation position and communicated with the installation position, the glazing channel is communicated to the glazing cavity and is positioned at the central position of the bottom of the glazing cavity, the glaze returning hole is obliquely arranged at two sides of the rotary seat downwards, and the glaze returning hole is communicated with the glazing cavity and penetrates out of the rotary seat.

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