CN209832067U - Ceramic cup glazing device - Google Patents

Abstract

A ceramic cup glazing device belongs to the technical field of ceramic cup production equipment. Including the inner wall glazing mechanism and the outer wall glazing mechanism that set gradually, its characterized in that: inner wall glazing mechanism include glaze spraying manipulator (4) and tilting mechanism (5), tilting mechanism (5) set up between glaze spraying manipulator (4) and outer wall glazing mechanism, the downside of glaze spraying manipulator (4) is provided with glaze spraying case (10), the upper portion of glaze spraying case (10) is provided with the glaze spraying mechanism who is used for ceramic cup inner wall glaze spraying, is provided with the clamping part on tilting mechanism (5), clamping part centre gripping ceramic cup drives ceramic cup and overturns to the rim of a cup up. The turnover mechanism of the ceramic cup glazing device can turn the glazed ceramic cup on the inner wall for 180 degrees until the cup opening faces upwards, so that the outer wall glazing mechanism can glaze the outer wall of the ceramic cup conveniently, the automatic turning of the ceramic cup is realized, the glazing of the inner wall of the ceramic cup can be realized only by two stations, and the structure of equipment is greatly simplified.

Description

Ceramic cup glazing device

Technical Field

A ceramic cup glazing device belongs to the technical field of ceramic cup production equipment.

Background

The inner wall and the outer wall of the ceramic cup need to be glazed in the production process, and the glaze of the inner wall or the outer wall of the ceramic cup is not completely the same, so that the glazing of the inner wall and the glazing of the outer wall need to be divided into two processes and sequentially carried out, the glazing of the inner wall is to spray the glaze on the inner wall of the ceramic cup, the glazing of the outer wall is to place the ceramic cup in a glaze box to finish glazing, the inner wall is usually glazed first, and then the outer wall is glazed.

The application number 201810223890.0 of the Chinese patent invention discloses a ceramic cup glazing production line, which needs to manually turn over a ceramic cup after glaze is sprayed on the inner wall of the ceramic cup, so that automatic production cannot be realized, and the working efficiency of equipment is greatly reduced.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: the ceramic cup glazing device overcomes the defects of the prior art, and can glaze the inner wall and the outer wall of the ceramic cup and turn over the ceramic cup after the inner wall is glazed.

The utility model provides a technical scheme that its technical problem adopted is: this ceramic cup glazing device, including the inner wall glazing mechanism and the outer wall glazing mechanism that set gradually, its characterized in that: the inner wall glazing mechanism include glaze spraying mechanical arm and tilting mechanism, tilting mechanism sets up between glaze spraying mechanical arm and outer wall glazing mechanism, glaze spraying mechanical arm's downside is provided with the glaze spraying case, glaze spraying case's upper portion is provided with the glaze spraying mechanism who is used for spraying glaze for ceramic cup inner wall, the last clamping part that is provided with of tilting mechanism, clamping part centre gripping ceramic cup drives ceramic cup and overturns to the rim of a cup up.

Preferably, the glaze spraying manipulator include glaze spraying lift cylinder, sucking disc and glaze spraying rotating electrical machines, the vertical upside at the glaze spraying case that sets up of glaze spraying lift cylinder, glaze spraying lift cylinder's piston rod sets up down, glaze spraying rotating electrical machines links to each other and goes up and down along with it synchronous with glaze spraying lift cylinder's piston rod, glaze spraying rotating electrical machines's output shaft vertical setting down, the sucking disc keeps synchronous rotation with glaze spraying rotating electrical machines's output shaft coaxial coupling.

Preferably, the glaze spraying lifting cylinder install on the glaze spraying frame, the glaze spraying rotating electrical machines are installed on lift platform, lift platform sets up the downside at the glaze spraying frame, lift platform's upside is provided with vertical lift platform guide bar, be provided with the lift platform uide bushing with lift platform guide bar one-to-one on the glaze spraying frame, lift platform guide bar upper end slides and stretches into in the lift platform uide bushing.

Preferably, the sucking discs are arranged side by side, and the glaze spraying rotating motor is connected with the sucking discs and drives the sucking discs to rotate synchronously.

Preferably, the turnover mechanism comprises a turnover motor, a turnover frame and a clamping mechanism, an output shaft of the turnover motor is horizontally arranged, one side of the turnover frame is connected with an output shaft of the turnover motor and synchronously swings along with the rotation of the turnover motor, and the clamping mechanism is arranged on one side of the turnover frame, which is far away from the turnover motor, so as to form the clamping part.

Preferably, fixture include splint cylinder and splint, splint have two that level and interval set up, splint set up with the axis of the output shaft of upset motor is perpendicular, the splint cylinder has two, splint cylinder horizontal installation is on the roll-over stand, the piston rod of splint cylinder links to each other with the splint that correspond the side and drives it and remove to opposite direction in step.

Preferably, the glaze spraying machine further comprises a translation mechanism arranged on the input side of the glaze spraying mechanical arm.

Preferably, the translation mechanism include translation cylinder, sucking disc lift cylinder and sucking disc, the piston rod of translation cylinder sets up towards glaze spraying manipulator level, sucking disc lift cylinder installs on the piston rod of translation cylinder and along with its synchronous motion, the piston rod vertical setting down of sucking disc lift cylinder, the sucking disc vertical installation is on the piston rod of sucking disc lift cylinder and along with its synchronous lift.

Preferably, the sucker is installed on the moving platform, a piston rod of the translation cylinder is connected with the moving platform and drives the moving platform to move synchronously, and a translation guide rail in sliding connection with the moving platform is arranged on the lower side of the moving platform.

Preferably, a horizontal filter cloth frame is arranged in the glaze spraying box, filter cloth is arranged on the filter cloth frame, and the filter cloth frame is connected with a filter cloth lifting cylinder for driving the filter cloth frame to lift.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

1. this glaze spraying manipulator of ceramic cup glazing device drives the ceramic cup and rotates to cooperate with the glaze spraying mechanism on glaze spraying case upper portion and accomplish the glaze spraying of ceramic cup inner wall, tilting mechanism can overturn 180 to the rim of a cup up with the ceramic cup after the inner wall glazing, make things convenient for outer wall glazing mechanism to glaze the outer wall of ceramic cup, the automatic upset of ceramic cup has been realized, and only rely on two stations can realize the glazing of ceramic cup inner wall, the structure of equipment has been simplified greatly, the stability of equipment work has been improved.

2. The glaze spraying lifting cylinder drives the sucker to lift, so that the ceramic cup is convenient to take and place, and the glaze spraying rotating motor drives the sucker to rotate, so that the inner wall of the ceramic cup is glazed completely.

3. The lifting platform guide rod is matched with the lifting platform guide sleeve to guide lifting of the lifting platform, so that the lifting platform is guaranteed to lift linearly, the ceramic cup is guaranteed to be matched with the glaze spraying mechanism, and stability of inner wall glazing is guaranteed.

4. The output shaft of the glaze spraying rotating motor is simultaneously connected with the suckers, so that the inner walls of the ceramic cups can be glazed simultaneously, and the glazing efficiency is improved.

5. The turnover motor drives the turnover frame to rotate, the clamping mechanism is matched, the clamped ceramic cup can be driven to turn over, automatic turning of the ceramic cup is achieved, automation of the whole glazing process is achieved, and glazing speed is improved.

6. The clamping plate cylinder is matched with the clamping plate to clamp the ceramic cup, so that the ceramic cup is conveniently matched with the glaze spraying manipulator.

7. The translation cylinder among the translation mechanism drives the sucking disc translation, and sucking disc lift cylinder drives the sucking disc and goes up and down to the ceramic cup that the messenger that can be better will arrange is carried for the glaze spraying manipulator, guarantees glaze spraying manipulator job stabilization.

8. The translation guide rail can lead the moving platform, ensures that the moving platform moves linearly, and then is accurately butted with the glaze spraying manipulator, so that the work is more stable.

Drawings

Fig. 1 is a perspective view of a ceramic cup glazing device.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a perspective view of the translation mechanism.

Fig. 4 is a perspective view of the glaze spraying manipulator.

Fig. 5 is a partially enlarged view of B in fig. 4.

Fig. 6 is a perspective view of the turnover mechanism.

Fig. 7 is a partial enlarged view at C in fig. 6.

FIG. 8 is a schematic cross-sectional view of the glaze spraying box in example 2.

In the figure: 1. the device comprises a first conveying belt 2, a translation mechanism 3, a baffle 301, a guide port 4, a glaze spraying manipulator 5, a turnover mechanism 6, a second conveying belt 7, a rotary glazing mechanism 8, a bottom dragging mechanism 9, a third conveying belt 10, a glaze spraying box 11, a rotary frame 12, a swing frame 13, a rotary glazing synchronous belt 14, a rotary glazing motor 15, a clamp plate mounting block 16, a swing cylinder 17, a translation cylinder 18, a sucking disc lifting cylinder 19, a sucking disc frame guide rod 20, a translation guide rail 21, a sucking disc 22, a sucking disc frame 23, a moving platform 24, a glaze spraying lifting cylinder 25, a glaze spraying frame 26, a lifting platform guide rod 27, a lifting platform 28, a glaze spraying rotary motor 29, a glaze spraying synchronous belt 30, a glaze spraying synchronous belt wheel 31, a clamp plate cylinder 32, a mounting rod 33, an overturning frame 34, an overturning motor 35, a glaze spraying synchronous belt, And (4) clamping the plate.

Detailed Description

Fig. 1 ~ 7 shows a preferred embodiment of the present invention, which is further described below with reference to fig. 1 ~ 8.

The utility model provides a ceramic cup glazing device, including the inner wall glazing mechanism and the outer wall glazing mechanism that set gradually, inner wall glazing mechanism includes glaze spraying mechanical hand 4 and tilting mechanism 5, tilting mechanism 5 sets up between glaze spraying mechanical hand 4 and outer wall glazing mechanism, glaze spraying mechanical hand 4's downside is provided with glaze spraying case 10, glaze spraying case 10's upper portion is provided with the glaze spraying mechanism who is used for ceramic cup inner wall glaze spraying, be provided with the clamping part on tilting mechanism 5, clamping part centre gripping ceramic cup drives ceramic cup and overturns to the rim of a cup up. This glaze spraying manipulator 4 of ceramic cup glazing device drives the ceramic cup and rotates to cooperate with the glaze spraying mechanism on glaze spraying case 10 upper portion and accomplish the glaze spraying of ceramic cup inner wall, tilting mechanism 5 can overturn 180 to the rim of a cup up with the ceramic cup after the inner wall glazing, make things convenient for outer wall glazing mechanism to glaze the outer wall of ceramic cup, the automatic upset of ceramic cup has been realized, and only rely on two stations can realize the glazing of ceramic cup inner wall, the structure of equipment has been simplified greatly, the stability of equipment work has been improved.

The present invention is further described with reference to specific embodiments, however, it will be understood by those skilled in the art that the detailed description given herein with respect to the drawings is for better explanation and that the present invention is necessarily to be construed as limited to those embodiments, and equivalents or common means thereof will not be described in detail but will fall within the scope of the present application.

Example 1

As shown in fig. 1: the left side of glaze spraying manipulator 4 is provided with first conveyer belt 1, and first conveyer belt 1 is carried along left right direction, and the right-hand member of first conveyer belt 1 is the output, and the right-hand member of first conveyer belt 1 docks with glaze spraying manipulator 4 input one side relatively. The upper side of the output end of the first conveying belt 1 is provided with a translation mechanism 2, and the translation mechanism 2 is used for transferring the ceramic cups conveyed by the first conveying belt 1 to a glaze spraying manipulator 4.

Glaze spraying box 10 sets up the downside at glaze spraying manipulator 4, and glaze spraying box 10 is the open cuboid box of upside, and the upper portion of glaze spraying box 10 is provided with glaze spraying mechanism, and glaze spraying mechanism can adopt the spray gun to realize. The right side of glaze spraying manipulator 4 is provided with tilting mechanism 5, and outer wall glazing mechanism interval sets up on tilting mechanism 5's right side, is provided with second conveyer belt 6 between outer wall glazing mechanism and the tilting mechanism 5, and the input and the 5 butt joints of tilting mechanism of second conveyer belt 6, and the output and the outer wall glazing mechanism butt joint of second conveyer belt 6. The turnover mechanism 5 turns the glazed rear side ceramic cup on the inner wall for 180 degrees until the cup mouth faces upwards and places the ceramic cup on the second conveying belt 6, and the second conveying belt 6 conveys the ceramic cup to the outer wall glazing mechanism.

The rear side of outer wall glazing mechanism is provided with soaks the glaze groove, and the right side of outer wall glazing mechanism is provided with drags end mechanism 8, and the front side of outer wall glazing mechanism is provided with third conveyer belt 9, and outer wall glazing mechanism absorbs the ceramic cup that second conveyer belt 6 carried and soaks the glaze in soaking the glaze groove to on dragging end mechanism 8 with ceramic cup redundant glaze in the bottom of the cup get rid of after place on third conveyer belt 9, send out by the third conveyer belt.

The right-hand member of first conveyer belt 1 and second conveyer belt 6 all is provided with baffle 3, and the downside of baffle 3 sets up with the conveyer belt interval that corresponds.

Drag end mechanism 8 and be provided with the sponge including dragging end conveyer belt and sponge at the end of dragging to can get rid of the unnecessary frit in ceramic cup bottom.

As shown in fig. 2: baffle 3 is provided with a plurality of uide ports 301 towards one side interval of the input of the conveyer belt that corresponds, and uide port 301 is the toper that reduces gradually along the direction of delivery of conveyer belt, and multiseriate ceramic cup is carried simultaneously to first conveyer belt 1 and second conveyer belt 6, and uide port 301 is corresponding with the row number of the ceramic cup of carrying, and uide port 301 can enough prevent that the ceramic cup from dropping, can guarantee again that subsequent process can be accurate snatch the ceramic cup to the ceramic cup direction, has improved the stability of equipment work.

The outer wall glazing mechanism is a rotary glazing mechanism and comprises a rotary frame 11, a lifting frame and suction mechanisms, wherein the rotary frame 11 is rotatably arranged on the lifting frame, the rotary frame 11 rotates around a vertical rotating shaft, the rotary frame 11 is connected with a glazing rotary motor for driving the rotary frame to rotate, the glazing rotary motor is arranged on the lifting frame, a vertical glazing lifting cylinder is arranged at the lower side of the lifting frame, a piston rod of the glazing lifting cylinder is arranged upwards, the lifting frame is connected with the piston rod of the glazing lifting cylinder and drives the glazing lifting cylinder to synchronously lift, the suction mechanisms are provided with four suction mechanisms which are uniformly distributed at intervals around the rotary frame 11, and the four suction mechanisms alternately work, each suction mechanism sequentially finishes four processes of sucking the ceramic cup on the second conveying belt 6, conveying the ceramic cup into the glaze soaking groove for glaze soaking, realizing the cleaning of redundant glaze through the matching of the ceramic cup and the bottom dragging mechanism 8, and placing the ceramic cup with the glaze soaked on the outer wall on the third conveying belt 9.

The suction mechanism comprises a swing frame 12, a swing cylinder 16 and a suction cup 21, the lower part of the swing frame 12 is rotatably installed on the rotating frame 11, the swing cylinder 16 is arranged between the swing frame 12 and the rotating frame 11, the swing cylinder 16 is rotatably installed on the rotating frame 11, a piston rod of the swing cylinder 16 is rotatably connected with the upper part of the swing frame 12, the swing cylinder 16 is inclined upwards gradually along the direction close to the corresponding swing frame 12, the suction cup 21 is installed on the swing cylinder 16 at the lower side of the swing frame 12 to drive the corresponding swing frame 12 to swing, the angle of the suction cup 21 is further adjusted, and the suction cup 21 is guaranteed to firmly suck the ceramic cup.

The downside of every swing span 12 sets up a plurality of sucking discs 21 side by side, every sucking disc 21 all rotates and installs at the 12 downside of corresponding swing span, and the equal coaxial arrangement in every sucking disc 21 upper portion has rotatory glazing synchronous pulley, sucking disc 21 links to each other and drives its synchronous rotation along with the rotatory glazing synchronous pulley that corresponds, a plurality of rotatory glazing synchronous pulleys that the sucking disc 21 that is located same swing span 12 downside corresponds link to each other through rotatory glazing synchronous belt 13, all be provided with rotatory glazing motor 14 on every swing span 12, install the synchronous pulley who meshes with rotatory glazing synchronous belt 13 on the output shaft of rotatory glazing motor 14, thereby guarantee that the ceramic cup soaks the glaze fully when the ceramic cup gets into soaks the glaze groove.

As shown in fig. 3: translation mechanism includes translation cylinder 17, sucking disc lift cylinder 18 and sucking disc 21, translation cylinder 17 sets up along the direction level that is on a parallel with first conveyer belt 1, translation cylinder 17's piston rod sets up towards glaze spraying manipulator 4, translation cylinder 17's piston rod is connected with moving platform 23, moving platform 23 links to each other and follows its synchronous motion with translation cylinder 17's piston rod, 18 vertical installations on moving platform 23 of sucking disc lift cylinder, sucking disc lift cylinder 18's piston rod vertical setting down, install the sucking disc frame 22 that the level set up on sucking disc lift cylinder 18's the piston rod, the front side of sucking disc frame 22 is protruding forward, form a plurality of installation departments that are used for installing sucking disc 21, sucking disc 21 installs the installation department downside that corresponds, sucking disc frame 22 links to each other and follows its synchronous lift with sucking disc lift cylinder 18's piston rod. The translation cylinder 17 sucks the ceramic cups on the first conveyor belt 1 and conveys the ceramic cups to the glaze spraying manipulator 4.

The downside of moving platform 23 is provided with translation guide rail 20, and translation guide rail 20 sets up and translation guide rail 20 has two of symmetry setting in translation cylinder 17 both sides along the direction that is on a parallel with translation cylinder 17, and moving platform 23's both sides respectively with the translation guide rail 20 sliding connection who corresponds the side, and translation guide rail 20 leads moving platform 23.

The upside of sucking disc frame 22 is provided with vertical sucking disc frame guide bar 19, the vertical setting of sucking disc frame guide bar 19, sucking disc frame guide bar 19 has the symmetry to set up two in sucking disc frame 22 both sides, one side fixed connection that the lower extreme of sucking disc frame guide bar 19 and sucking disc frame 22 correspond, moving platform 23's both sides are provided with respectively with sucking disc frame guide sleeve 19 matched with sucking disc frame guide bar, thereby the direction of going on to the lift of sucking disc frame 22, guarantee sucking disc frame 22 straight line lift, make sucking disc frame 22 job stabilization.

As shown in fig. 4 ~ 5, the glaze spraying manipulator 4 includes a glaze spraying lifting cylinder 24, suction cups 21 and a glaze spraying rotating motor 28, the glaze spraying lifting cylinder 24 is vertically installed on the glaze spraying frame 25, a piston rod of the glaze spraying lifting cylinder 24 is vertically arranged downward, a piston rod of the glaze spraying lifting cylinder 24 is connected with a lifting platform 27, the suction cups 21 are arranged on the lower side of the lifting platform 27 side by side, the suction cups 21 on the lower side of the lifting platform 27 are in one-to-one correspondence with the suction cups 21 on the suction cup frame 22, the suction cups 21 are rotatably installed on the lower side of the lifting platform 27, a glaze spraying synchronous pulley 30 is coaxially installed on the upper portion of each suction cup 21, the suction cups 21 and the corresponding glaze spraying synchronous pulley 30 rotate synchronously, the glaze spraying synchronous pulleys 30 installed on the lower side of the lifting platform 27 and corresponding to the suction cups 21 are connected through a glaze spraying synchronous belt 29 and keep rotating synchronously, the glaze spraying rotating motor 28 is installed on the upper side of the lifting platform 27, an output shaft of the glaze spraying rotating motor 28 is vertically arranged, and an output shaft of the glaze spraying rotating motor 28 is installed on the synchronous pulley 29, thereby driving the lifting platform 27 to rotate synchronously, and further realizing the.

Lift platform 27's upside is provided with lift platform guide bar 26, the vertical setting of lift platform guide bar 26, and lift platform guide bar 26's lower extreme and lift platform 27 fixed connection, lift platform guide bar 26 has four, four lift platform guide bar 26 surround into the rectangle, install the lift platform uide bushing with lift platform guide bar 26 one-to-one on the glaze spraying frame 25, lift platform guide bar 26 cooperates the direction that realizes lift platform 27 with the lift platform uide bushing, guarantee lift platform 27 straight line and go up and down, and then guarantee that ceramic cup inner wall glaze spraying is accurate.

As shown in fig. 6 ~ 7, the turnover mechanism 5 includes a turnover motor 34, a turnover frame 33 and a plurality of clamping mechanisms, the turnover motor 34 is disposed at one side of the input end of the second conveyor belt 6, the output shaft of the turnover motor 34 is horizontally disposed, one side of the turnover frame 33 is connected with the output shaft of the turnover motor 34 and synchronously swings with the rotation of the turnover motor 34, the clamping mechanisms are disposed at one side of the turnover frame 33 away from the turnover motor 34 to form clamping portions, and the clamping mechanisms are disposed side by side and correspond to the suction cups 21 at the lower side of the lifting platform 27 one by one.

Fixture includes splint cylinder 31 and splint 35, every fixture all is provided with two splint 35, splint 35 is perpendicular and vertical setting with the output shaft of upset motor 34, splint cylinder 31 is provided with two, splint cylinder 31 and the axis parallel arrangement of upset motor 34, splint cylinder 31's piston rod links to each other and drives its synchronous motion with corresponding side splint 35, two splint 35 of same fixture remove to opposite direction in step, realized the centre gripping to ceramic cup and unclamped.

In this embodiment, fixture is provided with a plurality ofly, splint cylinder 31 sets up the both sides at roll-over stand 33, be provided with two installation poles 32 on the roll-over stand 33, installation pole 32 slidable mounting is at the upside of roll-over stand 33, every splint cylinder 31 all is connected with an installation pole 32 and drives its axial displacement, two splint 35 of same fixture link to each other with two installation poles 32 respectively and along with corresponding installation pole 32 synchronous motion, fixture's splint 35 links to each other with corresponding installation pole 32 through splint installation piece 15. The opening and closing of the clamping mechanisms are realized through the two clamping plate cylinders 31, the cost is reduced, and the working synchronism of the clamping mechanisms is improved.

Example 2

As shown in figure 8, the difference between the embodiment 2 and the embodiment 1 is that a filter cloth frame is arranged in a glaze spraying box 10, the filter cloth frame is horizontally arranged, mounting ports for mounting filter cloth 36 are arranged on the filter cloth frame, each mounting port is provided with filter cloth 36, the filter holes of the filter cloth 36 are 10 ~ 80 meshes, filter cloth lifting cylinders 37 are symmetrically arranged at two ends of the glaze spraying box 10, piston rods of the filter cloth lifting cylinders 37 are vertically arranged upwards, each filter cloth lifting cylinder 37 is connected with one corresponding side of the filter cloth frame through a filter cloth connecting piece 38 and drives the filter cloth frame to horizontally lift, the filter cloth connecting piece 38 is of a groove type with a downward opening, one end of the filter cloth connecting piece 38 is connected with the piston rods of the filter cloth lifting cylinders 37, the other end of the filter cloth connecting piece is connected with one corresponding end of the filter cloth frame, and the filter.

In this embodiment, the outer wall of the ceramic cup is glazed by dipping glaze, after the glaze dipping is completed, the ceramic cup rises and is separated from the glaze, and at this time, the filter cloth lifting cylinder 37 drives the filter cloth 36 to rise and fall, and the filter cloth 36 is attached to the bottom of the corresponding ceramic cup, so that the redundant glaze at the bottom of the ceramic cup is sucked away, and the phenomenon of glaze accumulation at the bottom of the ceramic cup is avoided.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a ceramic cup glazing device, is including the inner wall glazing mechanism and the outer wall glazing mechanism that set gradually, its characterized in that: inner wall glazing mechanism include glaze spraying manipulator (4) and tilting mechanism (5), tilting mechanism (5) set up between glaze spraying manipulator (4) and outer wall glazing mechanism, the downside of glaze spraying manipulator (4) is provided with glaze spraying case (10), the upper portion of glaze spraying case (10) is provided with the glaze spraying mechanism who is used for ceramic cup inner wall glaze spraying, is provided with the clamping part on tilting mechanism (5), clamping part centre gripping ceramic cup drives ceramic cup and overturns to the rim of a cup up.

2. A ceramic cup glazing unit as claimed in claim 1, wherein: glaze spraying manipulator (4) including glaze spraying lift cylinder (24), sucking disc (21) and glaze spraying rotating electrical machines (28), the vertical upside that sets up in glaze spraying case (10) of glaze spraying lift cylinder (24), the piston rod of glaze spraying lift cylinder (24) sets up down, glaze spraying rotating electrical machines (28) link to each other and rise along with its synchronization with the piston rod of glaze spraying lift cylinder (24), the output shaft vertical setting down of glaze spraying rotating electrical machines (28), sucking disc (21) and the output shaft coaxial coupling of glaze spraying rotating electrical machines (28) and keep synchronous rotation.

3. A ceramic cup glazing unit as claimed in claim 2, wherein: glaze spraying lift cylinder (24) install on glaze spraying frame (25), glaze spraying rotating electrical machines (28) are installed on lift platform (27), lift platform (27) set up the downside at glaze spraying frame (25), the upside of lift platform (27) is provided with vertical lift platform guide bar (26), be provided with the lift platform uide bushing with lift platform guide bar (26) one-to-one on glaze spraying frame (25), lift platform uide bushing (26) upper end slides and stretches into in the lift platform uide bushing.

4. A ceramic cup glazing unit as claimed in claim 2, wherein: the plurality of sucking discs (21) are arranged side by side, and the glaze spraying rotating motor (28) is connected with the plurality of sucking discs (21) and drives the plurality of sucking discs (21) to rotate synchronously.

5. A ceramic cup glazing unit as claimed in claim 1, wherein: tilting mechanism (5) including upset motor (34), roll-over stand (33) and fixture, the output shaft level of upset motor (34) sets up, one side of roll-over stand (33) links to each other with the output shaft of upset motor (34) and along with the rotation of upset motor (34) and synchronous oscillation, fixture installs in one side that roll-over stand (33) kept away from upset motor (34), forms the clamping part.

6. A ceramic cup glazing unit according to claim 5 characterised in that: fixture include splint cylinder (31) and splint (35), splint (35) have two that level and interval set up, splint (35) set up with the axis of the output shaft of upset motor (34) is perpendicular, splint cylinder (31) have two, splint cylinder (31) horizontal installation is on roll-over stand (33), the piston rod of splint cylinder (31) links to each other with splint (35) that correspond the side and drives its synchronous to opposite direction removal.

7. A ceramic cup glazing unit as claimed in claim 1, wherein: the glaze spraying machine also comprises a translation mechanism (2) arranged on the input side of the glaze spraying manipulator (4).

8. A ceramic cup glazing unit according to claim 7 characterised in that: translation mechanism (2) including translation cylinder (17), sucking disc lift cylinder (18) and sucking disc (21), the piston rod of translation cylinder (17) sets up towards glaze spraying manipulator (4) level, sucking disc lift cylinder (18) are installed on the piston rod of translation cylinder (17) and along with its synchronous motion, the piston rod vertical setting down of sucking disc lift cylinder (18), sucking disc (21) vertical installation is on the piston rod of sucking disc lift cylinder (18) and along with its synchronous lift.

9. A ceramic cup glazing unit as claimed in claim 8, wherein: the sucker (21) is arranged on the moving platform (23), a piston rod of the translation cylinder (17) is connected with the moving platform (23) and drives the moving platform to move synchronously, and a translation guide rail (20) which is connected with the moving platform in a sliding mode is arranged on the lower side of the moving platform (23).

10. A ceramic cup glazing unit as claimed in claim 1, wherein: the glaze spraying box (10) is internally provided with a horizontal filter cloth frame, filter cloth (36) is arranged on the filter cloth frame, and the filter cloth frame is connected with a filter cloth lifting cylinder (37) for driving the filter cloth frame to lift.