CN116714085B

CN116714085B - Ceramic front and back glaze spraying device

Info

Publication number: CN116714085B
Application number: CN202310999246.3A
Authority: CN
Inventors: 苏晨义; 苏尧政; 黄诗福
Original assignee: Fujian Dehua County Jiamei Arts & Crafts Co ltd; FUJIAN JIAMEI GROUP CORP
Current assignee: Fujian Dehua County Jiamei Arts & Crafts Co ltd; FUJIAN JIAMEI GROUP CORP
Priority date: 2023-08-09
Filing date: 2023-08-09
Publication date: 2023-10-17
Anticipated expiration: 2043-08-09
Also published as: CN116714085A

Abstract

The invention relates to the technical field of ceramic processing, in particular to a ceramic front and back glaze spraying device, which comprises a chain conveyor, wherein a conveying belt of the chain conveyor is in a shape like a Chinese character 'Hui', and is formed by integrally forming an upper layer conveying belt and a lower layer conveying belt, a plurality of rollers are arranged at intervals on the conveying belt, spraying stations and/or blank stations are arranged between two adjacent rollers, the spraying stations and the blank stations are staggered along the conveying direction of the conveying belt, and a spraying mechanism for spraying glaze is arranged above the upper layer conveying belt or below the lower layer conveying belt. When the ceramic ware is coated with glaze, the front surface of the ceramic ware is upward when the ceramic ware is positioned on the upper layer conveyor belt, the back surface of the ceramic ware is upward when the ceramic ware is positioned on the lower layer conveyor belt, and because the spraying stations and the blank stations are arranged in a staggered manner, the spraying mechanism can simultaneously spray glaze on the front surface and the back surface of the ceramic ware, so that the ceramic ware is prevented from being manually turned over, the glaze working procedure is simplified, the production efficiency is improved, and the cost is reduced.

Description

Ceramic front and back glaze spraying device

Technical Field

The invention relates to the technical field of ceramic processing, in particular to a ceramic front and back glaze spraying device.

Background

Ceramics are a collective name of pottery and porcelain, not only is a traditional art article in China, but also is an indispensable daily life article, such as ceramic dishes, bowls, plates and the like. The glaze spraying is to spray a vitreous glaze layer on the fired ceramic blank, which mainly plays roles of protection and decoration. In the process of glazing, for some ceramic vessels such as ceramic dishes, bowls and plates, which need glazing on both the front and the back, the front or the back of the ceramic vessel is usually firstly coated with glazing, and after the ceramic vessels are dried, the ceramic vessel is manually turned over and then sprayed back, and the other side of the ceramic vessel is coated with glazing. The glazing mode is complex in working procedure, long in time consumption, high in cost and high in investment of a large amount of human resources.

Disclosure of Invention

The invention provides a ceramic front and back glaze spraying device, which aims to solve the problems of complicated front and back glaze spraying and glazing procedures, long time consumption, large input of human resources, high cost and the like of the traditional ceramic ware.

The invention adopts the following technical scheme:

the utility model provides a pottery front and back glaze spraying device, includes chain conveyor, chain conveyor's conveyer belt is the back font, comprises upper conveyer belt and lower floor's conveyer belt integrated into one piece, the conveyer belt interval has been arranged a plurality of rollers, is provided with the spraying station that is used for holding ceramic household utensils and/or does not hold ceramic household utensils blank station between two adjacent rollers, spraying station and blank station are along the direction of transmission staggered arrangement of conveyer belt, the top of upper conveyer belt or the below of lower floor's conveyer belt are equipped with the spraying mechanism that is used for the spraying glazing.

Further, the spraying station comprises a bottom frame erected between two adjacent rollers, and a clamping seat for clamping and fixing the ceramic vessel is detachably arranged on the bottom frame.

Further, the conveyer belt has divided in proper order along the direction of transfer and has unloaded district, material loading district and spraying district, the spraying district is located the conveyer belt middle part, spraying mechanism set up in spraying district top.

Further, the spraying mechanism comprises a spraying seat, the spraying seat is connected with a conveying pipe, a plurality of spray heads for spraying glazing are arranged on the spraying seat, the spray heads are communicated with the conveying pipe through the spraying seat, and at least one spray head is correspondingly arranged above each spraying station and each blank station in the spraying area.

Further, each nozzle is connected with a driving mechanism for driving the nozzle to reciprocate up and down towards the direction of the conveying belt.

Further, the spray head is connected with the spraying seat through a telescopic pipe.

Further, the spray heads are arranged on the spraying seat in a wavy fluctuation mode along the conveying direction of the conveying belt, the driving mechanism controls the spray heads to move back and forth up and down along with the conveying belt, the spray heads which are arranged on the spraying seat in a wavy fluctuation mode are located above blank stations of the upper conveying belt in the spraying area, and the spray heads at the wave trough positions are located above spraying stations of the upper conveying belt in the spraying area.

Further, still include first stoving district and second stoving district, first stoving district set up in on the upper conveyor belt, and be located the rear of spraying district for dry the ceramic ware on the upper conveyor belt, the second stoving district set up in on the lower conveyor belt, and be located the place ahead of spraying district is used for drying the ceramic ware on the lower conveyor belt.

Further, the hot air drying device comprises a hot air drying mechanism, wherein the hot air drying mechanism comprises a first air outlet cover and a second air outlet cover which are used for blowing hot air, and the first air outlet cover and the second air outlet cover are respectively and correspondingly arranged above the first drying area and the second drying area.

As can be seen from the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages:

1. when the ceramic ware is positioned on the lower layer conveyer belt, the opposite surface of the ceramic ware faces upwards, and the spraying stations and the blank stations are staggered along the conveying direction of the conveyer belt; therefore, when the spraying mechanism starts to spray, the front surface of the ceramic ware of the upper conveyer belt can be sprayed with glaze, and simultaneously, the back surface of the ceramic ware of the lower conveyer belt is sprayed with glaze through the blank station, so that the phenomenon that the front surface and the back surface of the ceramic ware are manually turned over is avoided, the glazing process is simplified, the production efficiency is improved, and the cost is reduced.

2. The spray head is connected with the driving mechanism for driving the spray head to do up-and-down reciprocating motion towards the direction of the conveying belt, and when the front and the back of the ceramic vessel are coated with glaze, the spray head is arranged in a wavy manner, and the wave crest and the wave trough of the spray head which are arranged in a wavy manner can be fluctuated and changed along with the conveying of the conveying belt under the control of the driving mechanism, so that the wave crest corresponds to a blank station, the wave trough corresponds to a spraying station, the distance between the upper and the lower conveying belt is compensated through the distance between the wave crest and the wave trough, the glaze on the front and the back of the ceramic vessel can be more uniform, and the phenomena of excessively thick ceramic front glaze layer and excessively thin ceramic back glaze layer are avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a partial top view of the conveyor belt of the present invention without a spray station;

FIG. 3 is a partial top view of a conveyor belt of the present invention having a spray station and a blank station;

fig. 4 is a schematic structural view of the spray head and the driving mechanism of the present invention.

Wherein, the reference numerals in the figures are as follows: conveyor 10, upper conveyor 11, lower conveyor 12, roller 13, spraying station 14, blanking station 15, discharge area 21, loading area 22, spraying area 23, first drying area 24, second drying area 25, spraying mechanism 30, spraying 31, spraying seat 32, conveying pipe 33, telescopic pipe 34, motor 35, gear 36, rack 37, chute 38, ring 39, first air outlet cover 41, second air outlet cover 42, bottom frame 51, clamping seat 52, ceramic ware 60.

Detailed Description

The following describes the implementation of the embodiment of the present invention with reference to the drawings.

Referring to fig. 1 to 3, a ceramic front and back glaze spraying apparatus includes a chain conveyor, preferably a roller conveyor. Namely, the conveyer belt 10 of the chain conveyer is in a shape like a Chinese character 'hui', and is formed by integrally forming an upper conveyer belt 11 and a lower conveyer belt 12, a plurality of rollers 13 are arranged on the conveyer belt 10 at intervals, and a spraying station 14 for clamping the ceramic vessel 60 and/or a blank station 15 without clamping the ceramic vessel 60 are arranged between two adjacent rollers 13. The spraying stations 14 and the blanking stations 15 are staggered in the conveying direction of the conveyor belt 10. A row is arranged between the two rollers 13, and the transmission direction of the conveyer belt 10 is arranged in a row; a plurality of stations can be arranged between the two rollers 13, and the stations in the same row can be the spraying stations 14 or the blank stations 15, and can also be the staggered arrangement of the spraying stations 14 or the blank stations 15; the conveyor belt 10 forms a plurality of rows of stations according to the number of stations arranged in the same row, and each row of stations on the conveyor belt 10 is formed by staggered arrangement of spraying stations 14 and blank stations 15.

Referring to fig. 3, the spraying station 14 includes a bottom frame 51 having a fixed frame disposed between two adjacent rollers 13, and a clamping seat 52 detachably disposed on the bottom frame 51 for clamping and fixing the ceramic vessel 60. The clamping seat 52 can be connected with the bottom frame 51 by a detachable connection mode such as a buckle, magnetic adsorption or screw tightening.

Referring to fig. 1, the conveyor belt 10 is divided into front, middle and rear three parts in the conveying direction of the upper conveyor belt 11, and is sequentially divided into a discharging area 21, a loading area 22, a spraying area 23, a first drying area 24 and a second drying area 25. Wherein the discharging area 21 and the feeding area 22 are arranged at the front part of the upper layer conveyer belt 11; the spraying area 23 is arranged in the middle of the upper layer conveyer belt 11 and extends downwards to the middle of the lower layer conveyer belt 12; the first drying area 24 is arranged at the rear part of the upper conveyer belt 11 and is used for drying the ceramic ware 60 on the upper conveyer belt 11; the second drying zone 25 is provided at the front of the lower conveyor 12 for drying the ceramic ware 60 on the lower conveyor 12.

Referring to fig. 1 to 4, a spraying mechanism 30 for spraying glazing is provided above the upper conveyor 11 or below the lower conveyor 12. In this embodiment, the spraying mechanism 30 is preferably disposed above the upper conveyor belt 11 and is disposed above the spraying area 23 of the conveyor belt 10. The spraying mechanism 30 comprises a spraying seat 32, the spraying seat 32 is connected with a conveying pipe 33, a plurality of spray heads 31 for spraying glazing are arranged on the spraying seat 32, the spray heads 31 are communicated with the conveying pipe 33 through the spraying seat 32, and the conveying pipe 33 is connected with a glaze box and a pressure pump. In this embodiment, the material conveying pipe 33, the glaze box and the pressure pump are the constituent structures of the conventional glaze spraying machine, and the specific connection and working principle thereof are basically the same as those of the conventional glaze spraying machine, and are not further described herein.

Referring to fig. 1 to 4, the spray heads 31 on the spraying seats 32 are arranged in several rows, each row of spray heads 31 corresponds to each row of stations on the conveyor belt 10, and at least one spray head 31 is provided above each spraying station 14 and the blank station 15. Each spray head 31 is connected with a driving mechanism for driving the spray head 31 to reciprocate up and down in the direction of the conveyor belt 10, and in order to facilitate the telescopic operation of the spray heads 31, the spray heads 31 are connected with the spraying seat 32 through a telescopic tube 34. The driving mechanism can be a small-sized air cylinder, and an output shaft of the air cylinder is connected with the spray head 31; or a rack telescopic mechanism. The driving mechanism of the present embodiment is a rack telescopic mechanism, and includes a motor 35, a gear 36, a rack 37 and a chute 38. The chute 38 is vertically disposed on the painting base 32, and the rack 37 is movably fitted to the chute 38. One end of the gear 36 is provided with a ring 39, and the nozzle 31 is inserted into the ring 39 and is locked by a screw, so that the nozzle 31 is fixedly mounted on the rack 37. The motor 35 is fixedly arranged on the spraying seat 32, and a gear 36 is fixedly arranged on an output shaft of the motor 35, and the gear 36 is meshed with a rack 37.

In this embodiment, the spray heads 31 in the same row are arranged on the spraying seat 32 in a wavy manner along the conveying direction of the conveying belt 10, the driving mechanism controls the spray heads 31 to reciprocate up and down along with the conveying belt 10, so that the spray heads 31 arranged in a wavy manner on the spraying seat 32 are located above the blank station 15 of the upper layer conveying belt 11 in the spraying area 23, the spray heads 31 arranged in a wave trough position are located above the spraying station 14 of the upper layer conveying belt 11 in the spraying area 23, and under the control of the driving mechanism, the wave peaks and the wave troughs of the spray heads 31 arranged in a wavy manner can be fluctuated along with the conveying belt 10, so that the wave peaks correspond to the blank station 15, and the wave troughs correspond to the spraying station 14.

Referring to fig. 1, the hot air drying device further comprises a hot air drying mechanism, wherein the hot air drying mechanism comprises a first air outlet cover 41 and a second air outlet cover 42 for blowing hot air, and the first air outlet cover 41 and the second air outlet cover 42 are respectively and correspondingly arranged above the first drying area 24 and the second drying area 25. The hot air drying mechanism in this embodiment is an existing hot air dryer (not shown in the figure), and the air outlets of the hot air dryer are respectively connected with the first air outlet cover 41 and the second air outlet cover 42 through air pipes.

Referring to fig. 1 to 4, in the operation of the present invention, firstly, a plurality of holding seats 52 are prepared, and each holding seat 52 is correspondingly provided with a ceramic vessel 60 to be processed; the worker works in the loading area 22 to place the holder 52 with the ceramic ware 60 on the bottom frame 51 of the spraying station 14.

Subsequently, the conveyor belt 10 starts to transport, and the spraying mechanism 30 and the hot air drying mechanism start to operate; the conveyor belt 10 conveys the ceramic ware 60 to the spraying area 23, and the spraying mechanism 30 of the spraying area 23 performs a spraying operation on the ceramic ware 60 on the conveyor belt 10. Because the conveyor belt 10 is of a back-shaped conveying structure, when the ceramic vessel 60 is positioned on the upper conveyor belt 11, the ceramic vessel 60 faces upwards, when the ceramic vessel 60 is positioned on the lower conveyor belt 12, the back surface of the ceramic vessel 60 faces upwards, and the spraying stations 14 and the blank stations 15 are staggered along the conveying direction of the conveyor belt 10; therefore, when the spraying mechanism 30 of the spraying area 23 starts to spray, the front surface of the ceramic ware 60 of the upper conveyor belt 11 can be sprayed with glaze, and the back surface of the ceramic ware 60 of the lower conveyor belt 12 can be sprayed with glaze through the blank station 15.

In addition, when the front and back surfaces of the ceramic vessel 60 are coated with glaze, as the spray heads 31 are arranged in a wavy manner, and the wavy-arranged spray heads 31 can be controlled by a driving mechanism, the wave crests and wave troughs of the wavy-arranged spray heads 31 can be fluctuated along with the transmission of the conveying belt 10, and keep the wave crests corresponding to the blank stations 15 as far as possible, the wave troughs correspond to the spraying stations 14, and the distance between the upper conveying belt (11) and the lower conveying belt (12) is compensated by the distance between the wave crests and the wave troughs, so that the glaze on the front and back surfaces of the ceramic can be more uniform, and the phenomena of over-thick ceramic front glaze layer and over-thin ceramic back glaze layer are avoided.

When the ceramic ware 60 of the upper conveyor belt 11 is conveyed to the first drying area 24, the front surface of the ceramic ware 60 is dried by hot air through the first air outlet cover 41; when the ceramic ware 60 of the lower conveyor 12 is transferred to the second drying area 25, the reverse side of the ceramic ware 60 is dried by hot air through the second air outlet cover 42.

Finally, when the ceramic ware 60, both glazed and dried on the front and back surfaces, is returned to the discharge area 21 of the upper conveyor 11, the worker removes the holding base 52 and the ceramic ware 60 after processing from the bottom frame 51 and transfers the ceramic ware to the subsequent process.

The foregoing is merely illustrative of specific embodiments of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modification of the present invention by using the design concept shall fall within the scope of the present invention.

Claims

1. The utility model provides a ceramic front and back glaze spraying device which characterized in that: the device comprises a chain conveyor, wherein a conveying belt of the chain conveyor is in a shape like a Chinese character 'Hui', and is formed by integrally forming an upper layer conveying belt and a lower layer conveying belt, a plurality of rollers are arranged on the conveying belt at intervals, a spraying station for clamping a ceramic vessel and a blank station without clamping the ceramic vessel are arranged between two adjacent rollers, the spraying station and the blank station are arranged in a staggered manner along the conveying direction of the conveying belt, and a spraying mechanism for spraying glazing is arranged above the upper layer conveying belt or below the lower layer conveying belt; the conveyer belt has divided in proper order and has unloaded district, material loading district and spraying district along direction of transmission, the spraying district is located the conveyer belt middle part, spraying mechanism set up in spraying district top, spraying mechanism includes the spraying seat, the spraying seat is connected with a conveying pipeline, is equipped with a plurality of shower nozzle that is used for the spraying glazing on the spraying seat, the shower nozzle passes through spraying seat and conveying pipeline intercommunication, every spraying station and blank station top correspond in the spraying district and are equipped with at least one shower nozzle.

2. The ceramic front and back glaze spraying device according to claim 1, wherein: the spraying station comprises a bottom frame erected between two adjacent rollers, and a clamping seat for clamping and fixing the ceramic vessel is detachably arranged on the bottom frame.

3. The ceramic front and back glaze spraying device according to claim 1, wherein: each spray head is connected with a driving mechanism for driving the spray heads to move up and down in the direction of the conveying belt.

4. A ceramic front and back glaze spraying apparatus according to claim 3, wherein: the spray head is connected with the spraying seat through a telescopic pipe.

5. A ceramic front and back glaze spraying apparatus according to claim 3, wherein: the spray heads are arranged on the spraying seat in a wavy fluctuation mode along the transmission direction of the conveying belt, the driving mechanism controls the spray heads to do up-and-down reciprocating motion along with the conveying belt, the spray heads which are arranged on the spraying seat in a wavy fluctuation mode are located above blank stations of the conveying belt on the upper layer of the spraying area, and the spray heads at the wave trough positions are located above spraying stations of the conveying belt on the upper layer of the spraying area.

6. The ceramic front and back glaze spraying device according to claim 1, wherein: still include first stoving district and second stoving district, first stoving district set up in on the upper conveyor belt, and be located the rear of spraying district for dry the ceramic ware on the upper conveyor belt, the second stoving district set up in on the lower conveyor belt, and be located the place ahead of spraying district, be used for the ceramic ware on the lower conveyor belt.

7. The ceramic front and back glaze spraying device according to claim 6, wherein: the hot air drying device comprises a first air outlet cover and a second air outlet cover, and is characterized by further comprising a hot air drying mechanism, wherein the hot air drying mechanism comprises a first air outlet cover and a second air outlet cover for blowing hot air, and the first air outlet cover and the second air outlet cover are respectively and correspondingly arranged above a first drying area and a second drying area.