CN111038166A

CN111038166A - Ceramic tile paving line

Info

Publication number: CN111038166A
Application number: CN201911377759.0A
Authority: CN
Inventors: 宁红军; 谢添
Original assignee: Zhuhai Baitu Ceramic Co ltd
Current assignee: Zhuhai Baitu Ceramic Co ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-04-21

Abstract

The invention aims to provide a ceramic tile paving line which is simple in structure, good in economical efficiency and high in production efficiency. The ceramic tile drying device comprises a rotary conveying device and a plurality of ceramic tile templates, wherein the ceramic tile templates are all arranged on the rotary conveying device and matched with the rotary conveying device, the rotary conveying device comprises an upper conveying layer and a lower conveying layer, a blanking module, a turning module and a sticker station are sequentially arranged on the upper conveying layer along the conveying direction, the blanking module and the turning module are both positioned above the ceramic tile templates and matched with the ceramic tile templates, and a drying device is arranged on the lower conveying layer. The invention can be applied to the technical field of production equipment.

Description

Ceramic tile paving line

Technical Field

The invention relates to production equipment, in particular to a ceramic tile paving line.

Background

The ceramic chip paving and pasting production equipment is mechanical equipment for pasting ceramic chips on one paster, namely, a plurality of ceramic chips are sequentially set into a certain shape according to the requirement, one side of the outer surface of each paster faces outwards, then the paster cut into the same shape is pasted to the outer side, then the paster is dried to form a paster unit arrangement and packaged, when the paster unit is required to be pasted on the outer wall of a building, the paster unit is taken out, paster paper faces downwards, cement is coated on the inner surface of each paster, and then the paster unit is uniformly pasted on the outer wall, so that the paster efficiency can be greatly improved.

In the existing paving equipment, the production capacity is large, so the length of an equipment production line is long, the equipment structure is complex, a large number of workers are required to operate together to keep the equipment production process smooth, the number of workers is large, the capacity of coping with the yield change is poor, the economic burden is large, and the economic benefit is poor.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the ceramic tile paving line which is simple in structure, good in economical efficiency and high in production efficiency.

The technical scheme adopted by the invention is as follows: the ceramic tile drying device comprises a rotary conveying device and a plurality of ceramic tile templates, wherein the ceramic tile templates are all arranged on the rotary conveying device and matched with the rotary conveying device, the rotary conveying device comprises an upper conveying layer and a lower conveying layer, a blanking module, a turning module and a sticker station are sequentially arranged on the upper conveying layer along the conveying direction, the blanking module and the turning module are both positioned above the ceramic tile templates and matched with the ceramic tile templates, and a drying device is arranged on the lower conveying layer.

Furthermore, the blanking module comprises a blanking conveying device, one end of the blanking conveying device is provided with a chute distribution mechanism, the blanking conveying device and the chute distribution mechanism are both positioned above the tile template, one end of the chute distribution mechanism is matched with the blanking conveying device, and the other end of the chute distribution mechanism is matched with the tile template.

Further, the upset module is including setting up support frame on the slewing conveying device, be provided with elevating gear on the support frame, elevating gear's lower extreme is provided with the connecting block, the front side and the rear side of connecting block have respectively to get a cylinder and put a cylinder, the left side and the right side of connecting block articulate respectively and are provided with and get a board and put a board, get a cylinder with get a board articulated cooperation, put a cylinder with put a board articulated cooperation, get a board with put a board looks adaptation and all with ceramic tile template looks adaptation, get a board with put and all be provided with a plurality of trachea on the board.

Further, a plurality of grooves consistent with the ceramic tile products are formed in the ceramic tile template, vent holes matched with the grooves in number are formed in the workpiece taking plate and the workpiece placing plate, and the vent holes are communicated with the air pipe.

Further, an oscillator is arranged between the blanking module and the overturning module, and the oscillator is matched with the ceramic tile template.

Further, the rotary conveying device comprises a combined support, a first transmission chain and a second transmission chain are respectively arranged on two inner sides of the combined support, a template supporting plate is fixedly arranged on one side of the first transmission chain, the template supporting plate is matched with the second transmission chain, and each template supporting plate is provided with a ceramic tile template.

Furthermore, an adjusting station is arranged at the chute distributing mechanism.

Further, the total number of the air pipes is six, and the number of the air pipes on the workpiece taking plate and the workpiece placing plate is three.

Furthermore, a protective net is further arranged on the overturning module.

The invention has the beneficial effects that: the ceramic tile drying machine structurally comprises a rotary conveying device and a plurality of ceramic tile templates, wherein the ceramic tile templates are arranged on the rotary conveying device and matched with the rotary conveying device, the rotary conveying device comprises an upper conveying layer and a lower conveying layer, a blanking module, a turning module and a sticker station are sequentially arranged on the upper conveying layer along the conveying direction, the blanking module and the turning module are located above the ceramic tile templates and matched with the ceramic tile templates, and a drying device is arranged on the lower conveying layer. Compared with the closest prior art, the invention has the following advantages: the whole structure is simple, and the layout is reasonable; the production mode combining the manual machine is adopted, the defects of mechanical equipment can be made up by using manual flexibility, the production efficiency is high, and the product quality is stable; the number of operators can be adjusted according to the size of the production batch, the yield change can be timely adjusted, the production requirement is met, and good economic benefit is obtained.

Drawings

FIG. 1 is a schematic top plan view of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a front plan view of the present invention;

FIG. 5 is an enlarged view of portion C of FIG. 4;

FIG. 6 is a schematic diagram of a front view of the turning module according to the present invention;

FIG. 7 is a schematic diagram of a rear view of the flip module according to the present invention;

FIG. 8 is a schematic top plan view of the tile form of the present invention;

fig. 9 is a schematic cross-sectional structure of the rotary conveyor of the present invention.

Detailed Description

As shown in fig. 1 to 9, in this embodiment, the invention includes a rotary conveying device 1 and a plurality of tile templates 2, the tile templates 2 are all arranged on the rotary conveying device 1 and are matched with the rotary conveying device 1, the rotary conveying device 1 includes an upper conveying layer 3 and a lower conveying layer 4, a blanking module 5, a turning module 6 and a sticker station 7 are sequentially arranged on the upper conveying layer 3 along a conveying direction, the blanking module 5 and the turning module 6 are both located above the tile templates 2 and are matched with the tile templates 2, and a drying device 8 is arranged on the lower conveying layer 4. The rotary conveying device 1 comprises the upper conveying layer 3 and the lower conveying layer 4, and a rotary circulation type conveying device is formed by the upper conveying layer 3 and the lower conveying layer 4 which are matched with each other, so that the conveying directions of the upper conveying layer 3 and the lower conveying layer 4 are opposite, the number of the tile templates 2 is determined according to the actual situation, namely the length of the whole rotary conveying device 1 is longer, the number of the tile templates 2 is larger, a certain distance is reserved between every two tile templates 2, the tile templates 2 are arranged on the rotary conveying device 1, and the upward side of the tile templates 2 is always upward on the upper conveying layer 3 or the lower conveying layer 4. The blanking module 5 is used for blanking ceramic tiles and placing the ceramic tiles to be paved on the ceramic tile template 2 through matching with the ceramic tile template 2. The overturning module 6 is matched with the tile template 2 to overturn the tile on the tile template 2, so that the face of the tile, which faces upwards originally, is overturned downwards, and the face, which faces downwards originally, is upwards prepared for the next procedure. The paper pasting station 7 can be operated by manual operation or other devices, when in manual operation, an operator firstly uniformly coats the ceramic tiles on the ceramic tile template 2 and turned over by the turning module 6 with pasting glue, and then covers the special paper cut in advance; when other devices are used for operation, the device needs a gluing component, a sticker component, a paper pressing component and a cutting component, wherein the gluing component is used for smearing adhesive on the ceramic tile, the sticker component is used for covering the special paper on the ceramic tile, the special paper is pressed through the paper pressing component, and then the cutting component is used for cutting the special paper; when a manual operation mode is adopted, the method has high flexibility, and can be used for dealing with various conditions according to the conditions; the processing mode of the device can continuously work for a long time, and the production efficiency is high. The drying module 8 is used for drying the ceramic tile template 2 after the paster is finished, so that each ceramic tile can be pasted together with the special paper, and the paving work of the ceramic tile is realized. After the drying module 8 dries, the tiles on the tile template 2 are laid and can be taken out. Therefore, the invention has reasonable layout, simple structure and convenient operation; the production mode combining artificial machinery can be adopted, the defects of mechanical equipment are made up by using manual flexibility, the production efficiency is high, and the product quality is stable; the length of the rotary conveying device 1 can be adjusted according to the production batch size, so that the number of the ceramic tile templates 2 is adjusted, the number of operators is further adjusted, the production requirement is met, and good economic benefit is obtained.

In this embodiment, the blanking module 5 includes a blanking conveying device 51, one end of the blanking conveying device 51 is provided with a chute distribution mechanism 52, the blanking conveying device 51 and the chute distribution mechanism 52 are both located above the tile mold plate 2, one end of the chute distribution mechanism 52 is matched with the blanking conveying device 51, and the other end of the chute distribution mechanism 52 is matched with the tile mold plate 2. The blanking module 5 comprises the blanking conveying device 51 and the chute distribution mechanism 52, the blanking conveying device 51 is a belt conveying device and has a conveying capability, when the tiles are blanked onto the blanking conveying device 51, the blanking conveying device 51 and the chute distribution mechanism 52 are matched to convey the tiles onto the chute distribution mechanism 52; the chute material distributing mechanism 52 is provided with a plurality of material distributing channels, the chute material distributing mechanism 52 is matched with the tile template 2, and because the chute material distributing mechanism 52 is obliquely arranged, the tiles slide to the tile template 2 from the chute material distributing mechanism 52, and the tile template 2 is in a moving state, so that a distance is reserved between every two tiles sliding down from the same material distributing channel. Through the blanking conveying device 51 and the chute distributing mechanism 52, the tiles can be sequentially conveyed to the tile template 2, so that the overturning module 6 can better complete overturning work.

In this embodiment, upset module 6 is including setting up support frame 61 on the rotary conveying device 1, be provided with elevating gear 62 on the support frame 61, elevating gear 62's lower extreme is provided with connecting block 63, there is a cylinder 64 and a cylinder 65 of putting to the front side and the rear side of connecting block 63 respectively, the left side and the right side of connecting block 63 articulate respectively and are provided with and get a board 66 and put a board 67, get a cylinder 64 with get a board 66 articulated cooperation, put a cylinder 65 with put a board 67 articulated cooperation, get a board 66 with put a board 67 looks adaptation and all with tile template 2 looks adaptation, get a board 66 with put and all be provided with a plurality of trachea 68 on the board 67. The supporting frame 61 is used for installing and positioning the whole device, the supporting frame 61 is positioned above the rotary conveying device 1, the lifting device 62 is arranged on the supporting frame 61, the connecting block 63 is arranged at the lower end of the lifting device 62, the lifting device 62 drives the connecting block 63 to move up and down, the workpiece taking cylinder 64 and the workpiece placing cylinder 65 are respectively arranged on the front side and the rear side of the connecting block 63, the workpiece taking plate 66 and the workpiece placing plate 67 are respectively hinged to the left side and the right side of the connecting block 63, and the workpiece taking plate 66 and the workpiece placing plate 67 are matched with each other, so that the workpiece taking plate 66 and the workpiece placing plate 67 can be matched with each other when being hinged relative to the connecting block 63; because the pickup cylinder 64 is hinged with the pickup plate 66, and the placing cylinder 65 is hinged with the placing plate 67, when the pickup cylinder 64 and the placing cylinder 66 act simultaneously, the pickup plate 66 and the placing plate 67 are attached along with the action; the workpiece taking plate 66 and the workpiece placing plate 67 are matched with the tile template 2, air pipes 68 are arranged on the workpiece taking plate 66 and the workpiece placing plate 67, suction ports capable of sucking tiles are arranged on the surfaces matched with the tile template 2, a pneumatic device is externally connected to the support frame 1 through the air pipes 68, and the workpiece taking plate 66 and the workpiece placing plate 67 can easily suck the tiles to turn over; when the tile taking and placing device works, when the tile template 2 with the tiles is conveyed to the position below the taking plate 66 by the rotary conveying device 1 (at the moment, the taking plate 66 and the placing plate 67 are not hinged), the lifting device 62 acts to press the taking plate 66 and the placing plate 67 downwards, the taking plate 66 sucks the tiles on the tile template 2, the lifting device 62 acts to lift, when the tile taking cylinder 64 and the placing cylinder 65 act to a set height, the taking plate 66 and the placing plate 67 are hinged, the placing plate 67 sucks the tiles, meanwhile, the taking plate 66 does not suck the tiles any more, the tiles are adsorbed on the placing plate 67 at the moment (in the process, the tile template 2 originally positioned below the taking plate 66 is quickly conveyed to the position below the placing plate 67), and then the taking cylinder 64 and the placing cylinder 65 act simultaneously, the take-up plate 66 and the drop plate 67 are opened, the lifting device 62 is actuated to press down (at this time, the tile form 2, which has previously sucked the tiles, is just below the drop plate 67), the drop plate 67 stops sucking, and the tiles, which have completed turning, are placed on the tile form 2. Meanwhile, the next tile template 2 is just below the workpiece taking plate 66, the workpiece taking plate 66 can absorb the workpiece, and the overturning operation is circularly repeated in the process.

In this embodiment, the tile mold plate 2 is provided with a plurality of grooves 9 corresponding to the tile products, and the pick-up plate 66 and the placement plate 67 are both provided with air holes matching with the grooves 9 in number, and the air holes are communicated with the air pipe 68. The grooves 9 which are consistent with the ceramic tile products are formed in the ceramic tile template 2, so that the position of the ceramic tile can be better guaranteed when the ceramic tile is placed, the ceramic tile is prevented from shifting, the distribution layout can be more easily realized during blanking, the overturning work and the rubberizing work can be better completed, and the number and the sequence of the grooves 9 are determined according to the setting; in a similar way, the air vents arranged on the piece taking plate 66 and the piece placing plate 67 correspond to the grooves 9 in number and positions, so that the ceramic tile can be sucked up more easily, and the ceramic tile can be turned over easily.

In this embodiment, an oscillator 10 is disposed between the blanking module 5 and the turning module 6, and the oscillator 10 is matched with the tile template 2. The oscillator 10 is provided mainly to enable the tiles on the tile forming plate 2 to better fall into the grooves 9, thereby ensuring smooth operation.

In this embodiment, the rotary conveying device 1 includes a combined support, two inner sides of the combined support are respectively provided with a first transmission chain 11 and a second transmission chain 12, one side of the first transmission chain 11 is fixedly provided with a template support plate 13, the template support plate 13 is matched with the second transmission chain 12, and each template support plate 13 is provided with a tile template 2. The first transmission chain 11 and the second transmission chain 12 move synchronously, the upper conveying layer 3 and the lower conveying layer 4 which are the integral structure of the invention are distinguished by the moving direction, and the blanking module 5, the overturning module 6 and the paper pasting station 7 are all arranged on the combined bracket; because the formwork support plate 13 is fixed on the first transmission chain 11, the upward side of the formwork support plate 13 is always upward during transportation, and the formwork support plate 13 is matched with the second transmission chain 12, when the formwork support plate 13 is on the upper conveying layer 3, the second transmission chain 12 can play a supporting role for the formwork support plate 13, when the formwork support plate 13 is on the lower conveying layer 4, only the first transmission chain 11 can play a supporting role, and the second transmission chain 12 only synchronously acts with the first transmission chain 11 to reduce friction to the formwork support plate 13; meanwhile, the total length of the second transmission chain 12 is shorter than that of the first transmission chain 11, and only one point of the template support plate 13 is fixed on the first transmission chain 11, so that the template support plate 13 can be stably conveyed; every two be provided with the interval between the template backup pad 13 and every all set up on the template backup pad 13 the ceramic tile template 2.

In this embodiment, an adjustment station is provided on one side of the chute distribution mechanism 52. The arrangement of the adjustment stations can arrange an operator to adjust the number of tiles entering the chute distribution mechanism 52, so that each distribution channel has tiles entering, and can also take account of the situation that tiles with too large displacement cannot be displaced into the grooves 9 when entering the tile mold plate 2 from the chute distribution mechanism 52.

In this embodiment, the total number of the air pipes 68 is six, and the number of the air pipes 68 on the pick-up plate 66 and the drop-off plate 67 is three. The air pipes 68 on the workpiece taking plate 66 and the workpiece placing plate 67 are all three and are uniformly distributed, so that enough adsorption force can be ensured when the ceramic tiles are sucked.

In this embodiment, a protective net is further disposed on the turning module 6. Set up the personal safety that operating personnel can be protected to the protection network, also can protect simultaneously upset module 6 can receive external factors's influence less in the course of the work.

The working process of the invention is as follows: place the ceramic tile earlier on unloading conveyor 51, the ceramic tile process then chute feed mechanism 52 falls into on the ceramic tile template 2, the operator on the adjustment station adjusts the distribution position of ceramic tile in good time simultaneously, bears the weight of the ceramic tile template 2 by rotary conveyor 1 carries to the below of upset module 6 and by the upset of ceramic tile is accomplished to upset module 6, accomplishes the ceramic tile rethread of upset sticker station 7 accomplishes the sticker, passes through afterwards drying device 8 accomplishes the stoving, and whole process is accomplished, gets the material immediately.

The ceramic tile templates 2 are uniformly arranged on the whole rotary conveying device 1, the number of the blanking modules 5 can be adjusted according to actual conditions, namely one or more than one, and correspondingly, the number of the adjusting stations is matched with that of the adjusting stations.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not to be construed as limiting the meaning of the present invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims

1. Ceramic tile is spread and is pasted line, including slewing conveying device (1) and a plurality of ceramic tile template (2), its characterized in that: a plurality of ceramic tile template (2) all sets up on rotary conveying device (1) and with rotary conveying device (1) cooperatees, rotary conveying device (1) is including last transport layer (3) and lower transport layer (4), the orientation of going up along carrying on transport layer (3) has set gradually unloading module (5), upset module (6) and sticker station (7), unloading module (5) with upset module (6) all are located the top of ceramic tile template (2) and with ceramic tile template (2) cooperate, be provided with drying device (8) down on transport layer (4).

2. A tile laying line according to claim 1, wherein: the blanking module (5) comprises a blanking conveying device (51), one end of the blanking conveying device (51) is provided with a chute distribution mechanism (52), the blanking conveying device (51) and the chute distribution mechanism (52) are located above the tile template (2), one end of the chute distribution mechanism (52) is matched with the blanking conveying device (51), and the other end of the chute distribution mechanism (52) is matched with the tile template (2).

3. A tile laying line according to claim 2, wherein: the overturning module (6) comprises a supporting frame (61) arranged on the rotary conveying device (1), the supporting frame (61) is provided with a lifting device (62), the lower end of the lifting device (62) is provided with a connecting block (63), the front side and the rear side of the connecting block (63) are respectively provided with a workpiece taking cylinder (64) and a workpiece placing cylinder (65), the left side and the right side of the connecting block (63) are respectively hinged with a workpiece taking plate (66) and a workpiece placing plate (67), the pickup cylinder (64) is hinged and matched with the pickup plate (66), the placing cylinder (65) is hinged and matched with the placing plate (67), the piece taking plate (66) is matched with the piece placing plate (67) and is matched with the ceramic tile template (2), the piece taking plate (66) and the piece placing plate (67) are both provided with a plurality of air pipes (68).

4. A tile laying line according to claim 3, wherein: be provided with a plurality of recess (9) unanimous with the ceramic tile product on ceramic tile template (2), get a board (66) with put on board (67) all be provided with recess (9) quantity assorted air vent, the air vent with trachea (68) intercommunication.

5. The tile laying line according to claim 4, wherein: an oscillator (10) is arranged between the blanking module (5) and the overturning module (6), and the oscillator (10) is matched with the ceramic tile template (2).

6. A tile laying line according to claim 1, wherein: the rotary conveying device (1) comprises a combined support, a first transmission chain (11) and a second transmission chain (12) are respectively arranged on two inner sides of the combined support, a template supporting plate (13) is fixedly arranged on one side of the first transmission chain (11), the template supporting plate (13) is matched with the second transmission chain (12), and each template supporting plate (13) is provided with a ceramic tile template (2).

7. A tile laying line according to claim 2, wherein: and one side of the chute distributing mechanism (52) is provided with an adjusting station.

8. A tile laying line according to claim 3, wherein: the total number of the air pipes (68) is six, and the number of the air pipes (68) on the workpiece taking plate (66) and the workpiece placing plate (67) is three.

9. A tile laying line according to claim 1, wherein: and a protective net is also arranged on the overturning module (6).