CN211729643U

CN211729643U - Automatic glaze dipping device for ceramics

Info

Publication number: CN211729643U
Application number: CN202020246953.7U
Authority: CN
Inventors: 颜建煌
Original assignee: Fujian Dehua Yusheng Crafts Co ltd
Current assignee: Fujian Dehua Yusheng Crafts Co ltd
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-10-23
Anticipated expiration: 2030-03-03

Abstract

The utility model relates to a ceramic manufacture equipment field, especially an automatic glaze device that soaks of pottery. The utility model provides an automatic glaze device that soaks of pottery, including the manipulator, get the material platform, the manipulator includes the support frame, it places the seat to be equipped with on the support frame, it is equipped with the thimble of vertical removal to place the seat top, the thimble is used for being fixed in the ceramic body and places on the seat, it includes the bearing plate that a plurality of interval arrangements set up to place the seat, it is including getting the material level to get the material platform, it is equipped with the support bar that a plurality of interval arrangements set up to get the material level, form between two liang of support bars and each bearing plate assorted clearance, each bearing plate inserts clearance and each support bar alternate arrangement, make the ceramic body accessible place the seat. The utility model discloses rational in infrastructure, convenient to use changes original workman mode, realizes full-automatic, has avoided contacting the glaze slip at the in-process of glazing porcelain, has reduced the harm healthy to the workman.

Description

Automatic glaze dipping device for ceramics

Technical Field

The utility model relates to a ceramic manufacture equipment field, especially an automatic glaze device that soaks of pottery.

Background

In the prior production of daily-use ceramics, each ceramic manufacturer can only adopt a manual glaze-dipping process to carry out glaze application due to the difference of the properties of raw materials or the limitation of the appearances of various products. The traditional glazing process has the following defects: when glazing is carried out, workers need to put hands and the ceramic body into glaze water together, and the glaze water has high alkalinity, so that the chemical materials have a corrosive effect on human skin, and long-term manual glaze dipping is harmful to human bodies; the number of workers is large, the requirements on physical strength of workers and operation technology are high, and the production cost is not favorably controlled; during the glazing process, fingers contact the blank body, so that the blank body has the defects of glaze shortage, thin glaze, fingerprint left on the glaze surface and the like, the defective rate is high, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a ceramic blank supporting mechanism and an automatic glaze dipping device which realize automation, high production efficiency and good product quality.

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

the utility model provides an automatic glaze device that soaks of pottery, includes the manipulator, gets the material platform, the manipulator is including holding in the palm the frame, it places the seat to be equipped with on the holding in the palm, places a top and is equipped with the thimble that can vertical removal, the thimble is used for being fixed in the ceramic body and places on the seat, place the bearing plate that the seat includes a plurality of interval arrangements and set up, getting the material platform and including getting the material level, getting the support bar that the material level was equipped with a plurality of interval arrangements and sets up, two liang of support bars form with each bearing plate assorted clearance within a definite time, each bearing plate inserts clearance and each support bar alternate arrangement make the ceramic body accessible place the seat and leave under.

Further, the support frame is of a rectangular frame structure and comprises a bottom plate and a top plate, the placing seat is arranged on the bottom plate of the support frame, a pressing plate is arranged above the top plate of the support frame, two ends of the pressing plate are respectively provided with an air cylinder, the ejector pin penetrates through the pressing plate and the top plate of the support frame and is fixed on the pressing plate, and the pressing plate drives the ejector pin to move along the vertical direction through the air cylinder.

Furthermore, a guide rod is fixed above the top plate of the supporting frame, and the guide rod penetrates through the pressing plate to enable the pressing plate to move vertically along the guide rod.

Furthermore, the support plate is of a structure with a wide top and a narrow bottom, and two sides of the support plate are arranged in an inward inclined mode.

Further, still include feeding conveyer belt, exit conveyor, glaze thick liquid pond, feeding conveyer belt and exit conveyor interval parallel arrangement, manipulator and glaze thick liquid pond are located respectively between feeding conveyer belt and the exit conveyor.

Furthermore, the material taking platform is arranged on one side, close to the manipulator, of the feeding conveyor belt, and a material pushing mechanism is arranged on the other side of the feeding conveyor belt and can push the ceramic blank of the feeding conveyor belt to the material taking platform.

Furthermore, pushing equipment includes the push pedal, the push pedal is equipped with the flaring portion towards one side of getting the material platform, and the flaring portion corresponds with the material of getting the material platform phase, the push pedal drives flaring portion horizontal migration, makes ceramic body be located the flaring portion by the feeding conveyer belt propelling movement to get the material level of getting of material platform.

Furthermore, the opening width of the flared part of the push plate is larger than the width of the blank.

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 has reasonable structure and convenient use, changes the original working mode of workers, realizes full automation, avoids contacting with glaze slip in the glazing process, and reduces the damage to the health of the workers; because the whole ceramic body enters the glaze slurry pool during glazing, and the support plates are arranged at intervals, the ceramic body on the support plates can be glazed in all directions during glazing; the flared part of the push plate is beneficial to adjusting the position deviation of the ceramic blank and the material taking position, and the ceramic blank can be better pushed to the correct position.

Drawings

Fig. 1 is a schematic view of the overall structure of an automatic ceramic glaze-dipping device according to an embodiment of the present invention.

Fig. 2 is a first plan view of the automatic ceramic glaze-dipping device according to the embodiment of the present invention.

Fig. 3 is a second plan view of the automatic ceramic glaze-dipping device according to the embodiment of the present invention.

Fig. 4 is a third plan view of the automatic ceramic glaze-dipping device according to the embodiment of the present invention.

In the figure: 1. the ceramic green body manufacturing device comprises a mechanical arm, 11 parts of a holding frame, 111 parts of a top plate, 112 parts of a bottom plate, 12 parts of a placing seat, 121 parts of a supporting plate, 13 parts of a guide rod, 14 parts of a pressing plate, 15 parts of an air cylinder, 151 parts of a piston rod, 16 parts of an ejector pin, 2 parts of a material taking table, 21 parts of a material taking position, 22 parts of a supporting strip, 23 parts of a gap, 3 parts of a feeding conveying belt, 4 parts of a discharging conveying belt, 5 parts of a glaze slurry tank, 6 parts of a material pushing mechanism, 61 parts of a push plate, 611.

Detailed Description

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

Referring to fig. 1 to 4, the utility model discloses a ceramic body holds in palm and holds mechanism and automatic glaze device that soaks, include manipulator 1, get material platform 2, feeding conveyor 3, exit conveyor 4, glaze thick liquid pond 5, pushing equipment 6, ceramic body 7.

Feeding conveyer belt 3 and 4 interval parallel arrangement of exit conveyor, 5 one sides in glaze thick liquid pond are located to manipulator 1, and manipulator 1 locates between feeding conveyer belt 3 and exit conveyor 4 with glaze thick liquid pond 5.

The manipulator 1 comprises a supporting frame 11, the supporting frame 11 is of a rectangular frame structure, the supporting frame 11 comprises a bottom plate 111 and a top plate 112, a plurality of placing seats 12 which are arranged along a straight line are arranged on the bottom plate 111 of the supporting frame 11, the placing seats 12 comprise a plurality of supporting plates 121 which are longitudinally arranged and are arranged at intervals, the supporting plates 121 are of a structure which is wide at the top and narrow at the bottom, and two sides of each supporting plate 121 are arranged in an inward inclined mode; a guide rod 13 is fixed above the top plate 111 of the support frame 11, a pressure plate 14 is arranged on the guide rod 13, the guide rod 13 penetrates through the pressure plate 14, two ends of the pressure plate 14 are respectively provided with an air cylinder 15, the pressure plate 14 is fixedly connected with the air cylinder 15, one end of a piston rod 151 of the air cylinder 15 is fixed with the top plate 112 of the support frame 11, and the air cylinder 15 drives the pressure plate 14 to move on the guide rod 13 along the vertical direction; a thimble 16 capable of moving vertically is respectively arranged above each placing seat 12, the thimble 16 penetrates through the pressing plate 14 and the top plate 112 of the supporting frame 11 and is fixed on the pressing plate 14, the pressing plate 14 drives the thimble 16 to move along the vertical direction through the air cylinder 15, so that the thimble 16 is used for fixing the ceramic body 7 on the placing seat 12.

Get material platform 2 and locate one side that feeding conveyer belt 3 is close to manipulator 1, it includes a plurality of material levels 21 to get material platform 2, each material level 21 of getting is equipped with the support bar 22 that a plurality of interval arrangements set up, form the clearance 23 with each support plate 121 assorted between two liang of support bars 22, each place seat 12 and each get material level 21 corresponding, make each support plate 121 can insert the clearance 23 and each support bar 22 alternate arrangement between support bar 22, and support plate 121 top surface and get material platform 2 top surface parallel and level, thimble 16 vertical movement will get ceramic body 7 on the material level 21 and be fixed in placing seat 12, place seat 12 and drive ceramic body 7 through manipulator 1 and leave and get material platform 2, manipulator 1 drives ceramic body 7 and gets into in glaze slurry pool 5 and carry out the process of glazing, will accomplish the ceramic body 7 of the process of glazing and place on ejection of compact conveyer belt 4.

The other side of the feeding conveyor belt 3 is provided with a material pushing mechanism 6, the material pushing mechanism 6 comprises a push plate 61, one side, facing the material taking table 2, of the push plate 61 is provided with a plurality of flared portions 611, the positions of the flared portions 611 correspond to the positions of the material taking tables 2, the opening width of the flared portions 611 is larger than the width of the ceramic blank 7, the push plate 61 drives the flared portions 611 to move horizontally, the ceramic blank 7 located on the feeding conveyor belt 3 is located in the flared portions 611, and the ceramic blank 7 is pushed to the material taking table 2 by the feeding conveyor belt 3. When the ceramic body 7 on the feeding conveyor belt 3 deviates from the position of the material taking position 21, that is, the ceramic body 7 deviates from the flared part 611 of the push plate 61, the push plate 61 pushes the ceramic body 7, the ceramic body 7 moves into the flared part 611 under the action of the flared part 611, and is pushed to the material taking position 21 under the driving of the flared part 611.

The automatic glaze dipping device for ceramics has the following working principle:

the feeding conveyor belt 3 conveys the ceramic blanks 7, and when the ceramic blanks 7 are conveyed to positions corresponding to the material taking positions 21, the ceramic blanks 7 stop moving; the push plate 61 of the material pushing mechanism 6 horizontally moves towards the ceramic green body 7, so that the ceramic green body 7 is positioned in the flared part 611 of the push plate 61, and the push plate 61 pushes the ceramic green body 7 to the material taking position 21 of the material taking table 2 through the feeding conveyor belt 3; the manipulator 1 drives the placing seats 12 to move to the lower part of the material taking position 21, gaps 23 between the supporting plates 121 of the placing seats 12 and the supporting bars 22 of the material taking position 21 correspond to each other, the manipulator 1 drives the placing seats 12 to move upwards, the supporting plates 121 are respectively inserted into the gaps 23 between the supporting bars 22, the supporting plates 12 and the supporting bars 22 are arranged alternately, and the top surfaces of the supporting plates 121 are flush with the top surface of the material taking table 2; at this time, the thimble 16 is driven by the cylinder 15 to move downwards through the pressing plate 14, so as to fix the ceramic body 7 on the placing seat 12; the ceramic green body 7 is driven by the manipulator 1 to horizontally move through the placing seat 12, so that the ceramic green body 7 leaves the material taking table 2; the mechanical arm 1 drives the ceramic body 7 to enter the glaze slurry pool 5 for glaze dipping; and finally, the manipulator 1 drives the ceramic body 7 which finishes the glaze dipping procedure to be placed on the discharge conveyor belt 4, so that the ceramic body 7 enters the next procedure from the discharge conveyor belt 4. When the manipulator 1 drives the ceramic blanks 7 to perform the glaze dipping process, the next group of ceramic blanks 7 are conveyed by the feeding conveyor belt 3 and are pushed to the material taking table 2 by the material pushing mechanism 6, and all parts of the device operate orderly, so that the glazing procedures of the ceramic blanks 7 are coordinated, the working efficiency is improved, and the automatic operation of the equipment is realized.

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

1. The utility model provides an automatic glaze device that soaks of pottery which characterized in that: including the manipulator, get the material platform, the manipulator includes the support frame, it places the seat to be equipped with on the support frame, places a top and is equipped with the thimble that can vertical removal, the thimble is used for being fixed in ceramic body and places on the seat, place the seat and include the bearing plate that a plurality of interval arrangements set up, get the material platform and including getting the material level, get the support bar that the material level was equipped with a plurality of interval arrangements and set up, two liang of support bars within a definite time form with each bearing plate assorted clearance, each bearing plate inserts clearance and each support bar alternate arrangement make the ceramic body accessible place the seat and leave under the drive of manipulator and get the material platform.

2. The automatic glaze dipping device for ceramics according to claim 1, wherein: the supporting frame is of a rectangular frame structure and comprises a bottom plate and a top plate, the placing seat is arranged on the bottom plate of the supporting frame, a pressing plate is arranged above the top plate of the supporting frame, two ends of the pressing plate are respectively provided with an air cylinder, the ejector pin penetrates through the pressing plate and the top plate of the supporting frame and is fixed on the pressing plate, and the pressing plate drives the ejector pin to move along the vertical direction through the air cylinder.

3. The automatic glaze dipping device for ceramics according to claim 2, wherein: a guide rod is fixed above the top plate of the supporting frame, and the guide rod penetrates through the pressing plate to enable the pressing plate to move vertically along the guide rod.

4. The automatic glaze dipping device for ceramics according to claim 1, wherein: the bearing plate is of a structure with a wide upper part and a narrow lower part, and two sides of the bearing plate are arranged in an inward inclined mode.

5. The automatic glaze dipping device for ceramics according to claim 1, wherein: still include feeding conveyer belt, exit conveyor, glaze thick liquid pond, feeding conveyer belt and exit conveyor interval parallel arrangement, manipulator and glaze thick liquid pond are located respectively between feeding conveyer belt and the exit conveyor.

6. The automatic glaze dipping device for ceramics according to claim 5, wherein: the material taking table is arranged on one side, close to the manipulator, of the feeding conveyor belt, and a material pushing mechanism is arranged on the other side of the feeding conveyor belt and can push ceramic blanks of the feeding conveyor belt to the material taking table.

7. The automatic glaze dipping device for ceramics according to claim 6, wherein: the pushing mechanism comprises a push plate, wherein an expanding part is arranged on one side, facing the material taking platform, of the push plate, the expanding part corresponds to the material taking position of the material taking platform, and the push plate drives the expanding part to move horizontally, so that the ceramic blank is located in the expanding part and is pushed to the material taking position of the material taking platform by a feeding conveying belt.

8. The automatic glaze dipping device for ceramics according to claim 7, wherein: the opening width of the flared part of the push plate is larger than the width of the blank.