CN205011003U - Ceramic tile conveying equipment - Google Patents
Ceramic tile conveying equipment Download PDFInfo
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- CN205011003U CN205011003U CN201520707786.0U CN201520707786U CN205011003U CN 205011003 U CN205011003 U CN 205011003U CN 201520707786 U CN201520707786 U CN 201520707786U CN 205011003 U CN205011003 U CN 205011003U
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- ceramic tile
- travel line
- kiln
- transfer device
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Abstract
The utility model provides a ceramic tile conveying equipment, include: carry respectively from a plurality of dispersed transfer chain of the ceramic tile of a plurality of kilns output, the mark unit of mark is carried out respectively the side of the ceramic tile that comes from different kilns, will the set transfer chain of carrying together after ceramic tile on a plurality of dispersed transfer chains joins, it is right to be used for the recognition cell who comes from the ceramic tile of different kilns with the difference is discerned to the ceramic tile of carrying on the set transfer chain, and the control unit, the the control unit configuration is will the ceramic tile that recognition cell recognises comes from different kilns is carried respectively to the polishing line of difference. Adopt the utility model discloses, can simplify equipment, practice thrift the space and realize energy -conservingly.
Description
Technical field
The utility model relates to ceramic tile and manufactures field, particularly, relates to a kind of ceramic tile load transfer device, especially a kind of ceramic tile load transfer device for the ceramic tile exported from kiln being delivered to polishing departement.
Background technology
The manufacturing process of ceramic tile generally comprise select materials, prepare burden, ball milling slurrying, granulation of dusting, compressing, green compact are dry, stamp, enter the operations such as klining one-tenth, polishing edging, classification and packaging.Wherein, kiln kiln roasting is sent in the adobe of stamp, and the adobe after kiln discharge is finished product (ripe base).Subsequently, this adobe can enter polishing edging operation, modifies further adobe.
In current ceramic tile production line, each kiln outlet is provided with a strip transmission line and connects to polishing departement.But because each kiln outlet is provided with the travel line of a company to polishing departement separately, therefore whole equipment is numerous and diverse, takes up room large, and consumes energy very much.
Utility model content
In view of the above, technical problem to be solved in the utility model is to provide a kind of ceramic tile load transfer device, can simplified apparatus, and conserve space also realizes energy-conservation.
In order to solve the problems of the technologies described above, a kind of ceramic tile load transfer device that the utility model provides, comprising: the multiple dispersion travel lines carrying the ceramic tile exported from multiple kiln respectively; To the indexing unit that the side of the ceramic tile from different kiln marks respectively; The set travel line carried together after ceramic tile on described multiple dispersion travel line is converged; For identifying the diagnosis unit of the ceramic tile distinguished from different kiln to the ceramic tile that described set travel line is carried; And control unit, the ceramic tile from different kiln that described control unit is configured to described diagnosis unit to identify is delivered to different polish lines respectively.
According to the utility model, the ceramic tile from different kiln that multiple dispersion travel line is carried is converged to a set travel line to carry together, and marked by the side of indexing unit to the ceramic tile from each kiln, after adobe arrives polishing departement, identify to distinguish the ceramic tile from different kiln to the ceramic tile that set travel line is carried by diagnosis unit, and be delivered to different polish lines respectively by the ceramic tile from different kiln that described diagnosis unit identify by control unit.Thus, integrate by equipment, make multiple kiln share a strip transmission line and connect to polishing departement, and utilize indexing unit and diagnosis unit difference from the ceramic tile of different kiln, the adobe of different kiln is separated and automatic brick picking completely.Thus adopt ceramic tile load transfer device of the present utility model can simplified apparatus, conserve space also realizes energy-conservation.
Preferably, in the utility model, also can be that described multiple dispersion travel line comprises two the dispersion travel lines carrying the ceramic tile exported from two kilns respectively, and the exit of a described indexing unit kiln located therein is to mark the side of the ceramic tile from this kiln; Described diagnosis unit identify to distinguish to the ceramic tile that described set travel line is carried and have marked ceramic tile and unmarked ceramic tile; The ceramic tile that marks that described control unit is configured to described diagnosis unit to identify is delivered to different polish lines respectively from unmarked ceramic tile.
According to the utility model, the ceramic tile from two different kilns that two dispersion travel lines are carried is converged to a set travel line carry together, and the exit of a kiln is marked by the side of indexing unit to the ceramic tile from this kiln wherein, after adobe arrives polishing departement, identify to distinguish to the ceramic tile carried on set travel line by diagnosis unit and marked ceramic tile and unmarked ceramic tile, and be delivered to different polish lines by the ceramic tile that marks that described diagnosis unit identify by control unit respectively from unmarked ceramic tile.Thus, integrate by equipment, make two kilns share a strip transmission line and connect to polishing departement, and utilize indexing unit and diagnosis unit difference from the ceramic tile of two different kilns, the adobe of two different kilns is separated and automatic brick picking completely.
Again, in the utility model, also can be that described control unit is configured to the ceramic tile from described multiple dispersion travel line to be delivered on described set travel line.
According to the utility model, by the ceramic tile automatic transport from multiple dispersion travel line on set travel line, follow-up polishing departement can be delivered to together by this set travel line and carry out polishing by the control of control unit.
Again, in the utility model, also can be, described diagnosis unit comprise color separation electric eye, are identified the mark on the side of ceramic tile by described color separation electric eye.
According to the utility model, by color separation electric eye, the mark on the side of ceramic tile is identified, can distinctive mark ceramic tile and unmarked ceramic tile effectively, to be conducive to realizing the separately process to the ceramic tile from different kiln.
Again, in the utility model, also can be, also comprise the downstream being arranged at described set travel line conveying roller tables and for driving the driver train of the lifting of described conveying roller tables, described control unit is configured to after described diagnosis unit identify ceramic tile, when the described side marked in ceramic tile or described unmarked ceramic tile is delivered to described conveying roller tables, after the side marked in ceramic tile or described unmarked ceramic tile declines, be delivered to the first polish line described in making.
According to the utility model, by be arranged at the downstream of set travel line conveying roller tables and for driving the driver train of lifting of conveying roller tables, when can be delivered to conveying roller tables the side marked in ceramic tile or unmarked ceramic tile identified by diagnosis unit, be delivered to the first polish line after this side marked in ceramic tile or unmarked ceramic tile is declined, can realize thus having marked the independent process of the side in ceramic tile or unmarked ceramic tile to this.
Again, in the utility model, also can be, described control unit is also configured to after described diagnosis unit identify ceramic tile, when described the opposing party marked in ceramic tile or described unmarked ceramic tile is delivered to described conveying roller tables, described the opposing party marked in ceramic tile or described unmarked ceramic tile is directly delivered to the second polish line.
According to the utility model, when can be delivered to conveying roller tables the opposing party marked in ceramic tile or unmarked ceramic tile identified by diagnosis unit, the opposing party this marked in ceramic tile or unmarked ceramic tile is directly delivered to the second polish line.Thus, the utility model can realize the separately conveying to the ceramic tile from different kiln effectively, to be conducive to carrying out polishing to different ceramic tiles respectively follow-up.
Again, in the utility model, also can be, described driver train comprises lifting motor.
According to the utility model, effectively can realize the lifting of carrying roller tables by the work of lifting motor, to be more conducive to realizing the separately conveying to the ceramic tile from different kiln.
Again, in the utility model, also can be, described control unit comprises Programmable Logic Controller.
According to the utility model, adopt Programmable Logic Controller as control unit, the whole-course automation being conducive to realizing load transfer device of the present utility model controls.
According to following detailed description of the invention also with reference to accompanying drawing, foregoing of the present utility model and other objects, features and advantages will be understood better.
Accompanying drawing explanation
Fig. 1 shows the plan structure schematic diagram of the ceramic tile load transfer device according to an example of the present utility model;
Fig. 2 shows the close-up schematic view of the multiple dispersion travel line convergences in the ceramic tile load transfer device of Fig. 1;
Fig. 3 shows the structural representation of the conveying roller tables in the ceramic tile load transfer device in Fig. 1;
Fig. 4 shows the electrical schematic control block diagram of the ceramic tile load transfer device shown in Fig. 1;
Electrical schematic control block diagram when Fig. 5 multiple dispersion travel lines shown in the ceramic tile load transfer device shown in Fig. 1 converge;
Reference numeral:
1, first ceramic tile; 2, second ceramic tile; 3, set travel line; 4, conveying roller tables; 41, lifting motor; 5, color separation electric eye; 61, first dispersion travel line; 62, second dispersion travel line; 71, first polish line; 72, second polish line; 8, control unit.
Detailed description of the invention
The progress of substantive distinguishing features of the present utility model and significance is described below in conjunction with concrete example and accompanying drawing.Should be understood that these examples only for being further described the utility model, the restriction to the utility model protection domain can not be interpreted as.
Numerous and diverse in order to solve equipment in prior art, take up room large, and the defect consumed energy very much, the utility model provides a kind of ceramic tile load transfer device, comprising: the multiple dispersion travel lines carrying the ceramic tile exported from multiple kiln respectively; To the indexing unit that the side of the ceramic tile from different kiln marks respectively; The set travel line carried together after ceramic tile on described multiple dispersion travel line is converged; For identifying the diagnosis unit of the ceramic tile distinguished from different kiln to the ceramic tile that described set travel line is carried; And control unit, the ceramic tile from different kiln that described control unit is configured to described diagnosis unit to identify is delivered to different polish lines respectively.
According to the utility model, the ceramic tile from different kiln that multiple dispersion travel line is carried is converged to a set travel line to carry together, and marked by the side of indexing unit to the ceramic tile from each kiln, after adobe arrives polishing departement, identify to distinguish the ceramic tile from different kiln to the ceramic tile that set travel line is carried by diagnosis unit, and be delivered to different polish lines respectively by the ceramic tile from different kiln that described diagnosis unit identify by control unit.
Ceramic tile load transfer device of the present utility model can be arranged between kiln outlet and polishing departement, to be integrated by equipment, make multiple kiln share a strip transmission line to connect to polishing departement, and utilize indexing unit and diagnosis unit difference from the ceramic tile of different kiln, the adobe of different kiln is separated and automatic brick picking completely.Thus adopt ceramic tile load transfer device of the present utility model can simplified apparatus, conserve space also realizes energy-conservation.
Particularly, Fig. 1 shows the plan structure schematic diagram of the ceramic tile load transfer device according to an example of the present utility model; Fig. 2 shows the close-up schematic view of multiple dispersion travel lines 61,62 convergence in the ceramic tile load transfer device of Fig. 1; Fig. 3 shows the structural representation of the conveying roller tables 4 in the ceramic tile load transfer device in Fig. 1; Fig. 4 shows the electrical schematic control block diagram of the ceramic tile load transfer device shown in Fig. 1; Fig. 5 multiple dispersion travel lines shown in the ceramic tile load transfer device shown in Fig. 1 converge electrical schematic control block diagram when 61,62.
Shown in Fig. 1 to Fig. 4, ceramic tile load transfer device comprises the multiple dispersion travel lines carrying the ceramic tile exported from multiple kiln (diagram is omitted) respectively.In this example, for carrying the first dispersion travel line 61 and the second dispersion travel line 62 of the first ceramic tile 1 and the second ceramic tile 2 exported from the first kiln and the second kiln (diagram is omitted) respectively.The throughput direction of the first dispersion travel line 61 and the second dispersion travel line 62 is respectively as shown in the arrow A in Fig. 1, B.Although illustrated two dispersion travel lines for carrying the ceramic tile exported from two kilns in this example, the utility model has been not limited thereto, and also can be many dispersion travel lines for carrying the ceramic tile exported from plural kiln.
As shown in Figure 1, this ceramic tile load transfer device also comprise the ceramic tile 1,2 on multiple dispersion travel line 61,62 is converged after the set travel line 3 carried together.In this example, by ceramic tile 1,2 automatic transport from multiple dispersion travel line 61,62 on set travel line 3, follow-up polishing departement can be delivered to together by this set travel line 3 and carry out polishing by the control of control unit 8.As shown in Figure 2, the second dispersion travel line 62 adjoins with set travel line 3, and both height are roughly the same, and on the second dispersion travel line 62, the second ceramic tile 2 of mounting substantially horizontally can be delivered to set travel line 3.And the throughput direction downstream end of the first dispersion travel line 61 such as can be arranged at the top of the throughput direction upstream extremity of set travel line 3.In addition, the first photoelectric switch 11 and the second photoelectric switch 12 is respectively equipped with in the downstream end near the first dispersion travel line 61 and the second dispersion travel line 62.As shown in Figure 5, the first photoelectric switch 11 and the second photoelectric switch 12 detect the first ceramic tile 1 of conveying and the position of the second ceramic tile 2 on the first dispersion travel line 61 and the second dispersion travel line 62 respectively, and testing result is sent to control unit 8.Control unit 8 is according to the detection signal from the first photoelectric switch 11 and the second photoelectric switch 12, control the operation scheme of the first dispersion travel line 61 and the second dispersion travel line 62 respectively, thus the first ceramic tile 1 of travel line 62 and the second ceramic tile 2 can be disperseed to be delivered in turn on set travel line 3 by from the first dispersion travel line 61 and second.
This ceramic tile load transfer device also comprises the exit of a kiln located therein with the indexing unit marked the side of the ceramic tile from this kiln.In this example, this indexing unit (diagram is omitted) can be provided with in the exit of the first kiln.Such as, a look trace is drawn by this indexing unit in the side of the every block ceramic tile 1 exporting out from the first kiln.That is, in this example, from the first ceramic tile 1 of the first kiln for mark ceramic tile.And do not draw look trace at the second ceramic tile 2 exporting out from the second kiln.
In addition, this ceramic tile load transfer device also comprises the diagnosis unit for identifying the ceramic tile of conveying on set travel line 3.In this example, these diagnosis unit can comprise color separation electric eye 5, identified by the mark on the side of color separation electric eye 5 pairs of ceramic tiles, effectively can distinguish and mark ceramic tile (the first ceramic tile 1) and unmarked ceramic tile (the second ceramic tile 2), to be conducive to realizing the separately process to the ceramic tile from different kiln.
Further, in this ceramic tile load transfer device, the ceramic tile 1 that marks that control unit 8 is also configured to diagnosis unit to identify is delivered to different polish lines respectively from unmarked ceramic tile 2.In this example, Programmable Logic Controller can be adopted as control unit 8, the whole-course automation being conducive to realizing ceramic tile load transfer device of the present utility model controls.
Particularly, as shown in Figures 1 to 4, this ceramic tile load transfer device also can comprise the downstream being arranged at set travel line 3 conveying roller tables 4 and for driving the driver train of lifting of conveying roller tables 4, control unit 8 is configured to after diagnosis unit identify and mark ceramic tile 1, this marked ceramic tile 1 be delivered to conveying roller tables 4 time, make this marked ceramic tile 1 decline after be delivered to the first polish line 71.
In addition, control unit 8 is also configured to after diagnosis unit identify unmarked ceramic tile 2, when this unmarked ceramic tile 2 is delivered to conveying roller tables 4, this unmarked ceramic tile 2 is directly delivered to the second polish line 72.Vice versa.
By be arranged at the downstream of set travel line 3 conveying roller tables 4 and for driving the driver train of lifting of conveying roller tables 4, when can be delivered to conveying roller tables 4 at the ceramic tile of mark 1 identified by diagnosis unit, making to mark after ceramic tile 1 declines and be delivered to the first polish line 71, the independent process to marking ceramic tile 1 can being realized thus.When can be delivered to conveying roller tables 4 at the unmarked ceramic tile 2 identified by diagnosis unit, this unmarked ceramic tile 2 is directly delivered to the second polish line 72.Thus, the utility model can realize the separately conveying to the ceramic tile 1,2 from different kiln effectively, to be conducive to carrying out polishing to different ceramic tiles respectively follow-up.
In this example, above-mentioned driver element can comprise lifting motor 41.The lifting of carrying roller tables 4 effectively can be realized, to be more conducive to realizing the separately conveying to the ceramic tile from different kiln by the work of lifting motor 41.
More specifically, as shown in Figure 3 and Figure 4, when the ceramic tile of mark 1 identified is delivered to conveying roller tables 4, control unit 8 controls lifting motor 41 and rotates, bracket 43(is reduced see (A) figure in Fig. 3) with drivening rod 42, ceramic tile 1 is placed on the roller rod of conveying roller tables 4, is delivered to the first polish line 71 by this conveying roller tables 4.And when the unmarked ceramic tile 2 identified is delivered to conveying roller tables 4, control unit 8 controls lifting motor 41 and rotates, with drivening rod 42 jack-up bracket 43(see (B) figure in Fig. 3), and then ceramic tile 2 is delivered to the second polish line 72.The throughput direction of the first polish line 71 and the second polish line 72 is respectively as shown in the arrow C in Fig. 1, D.
Under the aim not departing from essential characteristic of the present utility model, the utility model can be presented as various ways, therefore the example in the utility model is illustrative rather than definitive thereof, be defined by the claims due to scope of the present utility model but not limited by specification sheets, and drop on the scope that claim defines, or all changes in the full scope of equivalents of its scope defined all are understood to include in detail in the claims.
Claims (8)
1. a ceramic tile load transfer device, is characterized in that, comprising:
Carry multiple dispersion travel lines of the ceramic tile exported from multiple kiln respectively;
To the indexing unit that the side of the ceramic tile from different kiln marks respectively;
The set travel line carried together after ceramic tile on described multiple dispersion travel line is converged;
For identifying the diagnosis unit of the ceramic tile distinguished from different kiln to the ceramic tile that described set travel line is carried; With
Control unit, the ceramic tile from different kiln that described control unit is configured to described diagnosis unit to identify is delivered to different polish lines respectively.
2. ceramic tile load transfer device according to claim 1, it is characterized in that, described multiple dispersion travel line comprises two the dispersion travel lines carrying the ceramic tile exported from two kilns respectively, and the exit of a described indexing unit kiln located therein is to mark the side of the ceramic tile from this kiln; Described diagnosis unit identify to distinguish to the ceramic tile that described set travel line is carried and have marked ceramic tile and unmarked ceramic tile; The ceramic tile that marks that described control unit is configured to described diagnosis unit to identify is delivered to different polish lines respectively from unmarked ceramic tile.
3. ceramic tile load transfer device according to claim 1, is characterized in that, described control unit is configured to the ceramic tile from described multiple dispersion travel line to be delivered on described set travel line.
4. ceramic tile load transfer device according to any one of claim 1 to 3, is characterized in that, described diagnosis unit comprise color separation electric eye, is identified the mark on the side of ceramic tile by described color separation electric eye.
5. ceramic tile load transfer device according to claim 2, it is characterized in that, also comprise the downstream being arranged at described set travel line conveying roller tables and for driving the driver train of the lifting of described conveying roller tables, described control unit is configured to after described diagnosis unit identify ceramic tile, when the described side marked in ceramic tile or described unmarked ceramic tile is delivered to described conveying roller tables, after the side marked in ceramic tile or described unmarked ceramic tile declines, be delivered to the first polish line described in making.
6. ceramic tile load transfer device according to claim 5, it is characterized in that, described control unit is also configured to after described diagnosis unit identify ceramic tile, when described the opposing party marked in ceramic tile or described unmarked ceramic tile is delivered to described conveying roller tables, described the opposing party marked in ceramic tile or described unmarked ceramic tile is directly delivered to the second polish line.
7. ceramic tile load transfer device according to claim 5, is characterized in that, described driver train comprises lifting motor.
8. ceramic tile load transfer device according to any one of claim 1 to 3, is characterized in that, described control unit comprises Programmable Logic Controller.
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CN201520707786.0U CN205011003U (en) | 2015-09-14 | 2015-09-14 | Ceramic tile conveying equipment |
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CN201520707786.0U CN205011003U (en) | 2015-09-14 | 2015-09-14 | Ceramic tile conveying equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105217297A (en) * | 2015-09-14 | 2016-01-06 | 蒙娜丽莎集团股份有限公司 | Ceramic tile load transfer device |
CN106219215A (en) * | 2016-07-30 | 2016-12-14 | 江苏省烟草公司常州市公司 | Ramuscule cigarette, standard cigarette associating sorting system |
CN112344755A (en) * | 2020-10-19 | 2021-02-09 | 广东嘉联企业陶瓷有限公司 | Automatic kiln feeding data analysis system for kiln tiles and operation method thereof |
-
2015
- 2015-09-14 CN CN201520707786.0U patent/CN205011003U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105217297A (en) * | 2015-09-14 | 2016-01-06 | 蒙娜丽莎集团股份有限公司 | Ceramic tile load transfer device |
CN106219215A (en) * | 2016-07-30 | 2016-12-14 | 江苏省烟草公司常州市公司 | Ramuscule cigarette, standard cigarette associating sorting system |
CN112344755A (en) * | 2020-10-19 | 2021-02-09 | 广东嘉联企业陶瓷有限公司 | Automatic kiln feeding data analysis system for kiln tiles and operation method thereof |
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