CN219328794U

CN219328794U - Ceramic tile blank detects production line

Info

Publication number: CN219328794U
Application number: CN202320758508.2U
Authority: CN
Inventors: 刘小平; 虞建平
Original assignee: Shanxi Meitao Ceramics Co ltd
Current assignee: Shanxi Meitao Ceramics Co ltd
Priority date: 2023-04-08
Filing date: 2023-04-08
Publication date: 2023-07-11
Anticipated expiration: 2033-04-08

Abstract

The utility model provides a ceramic tile blank detection production line, which relates to the technical field of detection production lines and comprises a base component and a detection mechanism, wherein a material conveying mechanism assembled by bolts is arranged on the top side of the base component, a deviation correcting component connected with one side of the base component by bolts is arranged on the side of the material conveying mechanism, and a detection mechanism connected with the bolts is arranged on the other side of the base component; according to the utility model, the electric rotating seat is arranged at the side of the electromagnetic sliding sleeve seat, the contact brush is used for effectively detecting tile products under the interaction of the brush plug bush and the contact brush which are connected below the telescopic cylinder, after the tile detects the defective problem, the sleeve seat and the shovel strip which are connected with one end of the power arm are aligned with the tile of the defective product by starting the output power of the electric rotating seat, and the electromagnetic sliding sleeve seat is driven to operate by the output power of the electromagnetic sliding rod on the screw rod box, so that the defective product is timely discharged out of the output end of the equipment, and the good rate of the product is improved.

Description

Ceramic tile blank detects production line

Technical Field

The utility model relates to the technical field of detection production lines, in particular to a ceramic tile blank detection production line.

Background

The ceramic tile is made of refractory metal oxide and semi-metal oxide through grinding, mixing, pressing, glazing and sintering, and is one kind of acid and alkali resistant ceramic or stone material, and the ceramic tile is used as building or decorating material.

When the existing detection production line is used, the surface of a ceramic tile product is usually effectively detected by a contact means, but when defective products are usually detected, the products are easy to pass through a conveying end, so that the defective products are mixed into good ceramic tiles, and the quality of the produced ceramic tiles is uneven.

Disclosure of Invention

According to the ceramic tile blank detection production line, an electric rotating seat is arranged on the side of an electromagnetic sliding sleeve seat, the contact brush is used for effectively detecting ceramic tile products under the interaction of a brush insert sleeve and the contact brush which are connected below a telescopic cylinder, after the ceramic tile detects the defective problem, the sleeve seat and the shovel strip which are connected with one end of a power arm are aligned with the ceramic tile of the defective product by starting the output power of the electric rotating seat, and the electromagnetic sliding sleeve seat is driven to operate by the output power of an electromagnetic sliding rod on a screw rod box, so that the defective product is discharged out of the output end of equipment in time of the ceramic tile, and the good rate of the product is improved.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the tile blank detection production line comprises a base component and a detection mechanism, wherein a material conveying mechanism assembled by bolts is arranged on the top side of the base component, a deviation correcting component which is connected with one side of the base component by bolts is arranged on the side of the material conveying mechanism, and a detection mechanism connected with the bolts is arranged on the other side of the base component;

the detection mechanism comprises a bolt support, a screw rod box, an electromagnetic slide rod, an electromagnetic slide sleeve seat, a telescopic cylinder, a brush plug bush, a contact brush, an electric rotating seat, a power arm, a socket joint seat and a shovel bar, wherein the bolt support is arranged above the other side of the base assembly, the screw rod box for installing the electromagnetic slide rod is arranged below one end of the bolt support, the electromagnetic slide sleeve seat is slidably connected with the outer side of the electromagnetic slide rod, the telescopic cylinder is arranged below the electromagnetic slide sleeve seat, the brush plug bush for inserting the contact brush is arranged below the telescopic cylinder, one side of the electromagnetic slide sleeve seat is provided with the electric rotating seat, the output end of the electric rotating seat is connected with the power arm, and one end of the power arm is provided with the socket joint seat for installing the shovel bar.

Further improved, the contact brushes are distributed in an array perpendicular to the bottom side of the brush plug bush, the shovel bars are of a folded strip structure, and the median lines of the electromagnetic sliding sleeve seat and the electric rotating seat are distributed in parallel.

Further improved, the base assembly comprises a bed seat support and a bedplate, wherein the bedplate is arranged on the top side of the bed seat support.

Further improved in, the conveying mechanism includes bolt base, bracket, side guard plate, first motor, roller, conveyer belt and back layer board, the bolt base sets up the top side of platen, the top side of bolt base is provided with the bracket of limit side bolted connection side guard plate, the inboard of bracket is provided with the roller of connecting first motor, the outside roll connection of roller has the conveyer belt, the one end inboard of bracket is provided with the back layer board, the side guard plate possesses breach form structure.

Further improved in, the deviation correcting component includes bolt layer board, grip block, first slide bar, first slider, leading wheel, second slide bar, second slider and spacing piece, the bolt layer board sets up one side top of platen, the top side of bolt layer board is provided with the grip block, just the inboard of grip block is provided with first slide bar and the second slide bar of mutual parallel distribution, be provided with two sets of sliding connection's first slider on the first slide bar, just the below of first slider is provided with bearing connection's leading wheel.

Further improved, the second sliding rod is provided with two groups of second sliding blocks which are in sliding connection, and a limiting piece is arranged below the second sliding blocks.

The beneficial effects of the utility model are as follows:

according to the utility model, the electric rotating seat is arranged at the side of the electromagnetic sliding sleeve seat, the contact brush is used for effectively detecting tile products under the interaction of the brush plug bush and the contact brush which are connected below the telescopic cylinder, after the tile detects the defective problem, the sleeve seat and the shovel strip which are connected with one end of the power arm are aligned with the tile of the defective product by starting the output power of the electric rotating seat, and the electromagnetic sliding sleeve seat is driven to operate by the output power of the electromagnetic sliding rod on the screw rod box, so that the defective product is discharged out of the output end of the equipment in time of the tile, and the good rate of the product is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic top perspective view of the present utility model;

FIG. 3 is a schematic perspective view of the deviation correcting component of the present utility model;

fig. 4 is a schematic perspective view of a detection mechanism according to the present utility model.

Wherein: 1. a base assembly; 101. a bed support; 102. a platen; 2. a material conveying mechanism; 201. a bolt base; 202. a bracket; 203. a side guard plate; 204. a first motor; 205. a roll shaft; 206. a conveyor belt; 207. a rear supporting plate; 3. a deviation correcting component; 301. a bolt supporting plate; 302. a clamping plate; 303. a first slide bar; 304. a first slider; 305. a guide wheel; 306. a second slide bar; 307. a second slider; 308. a limiting piece; 4. a detection mechanism; 401. a bolt support; 402. a screw rod box; 403. an electromagnetic slide bar; 404. an electromagnetic sliding sleeve seat; 405. a telescopic cylinder; 406. a hairbrush plug bush; 407. a contact brush; 408. an electric rotating seat; 409. a power arm; 4010. a socket is sleeved; 4011. shovel strips.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-4, the embodiment provides a ceramic tile blank detection production line, which comprises a base component 1 and a detection mechanism 4, wherein the top side of the base component 1 is provided with a material conveying mechanism 2 assembled by bolts, the side of the material conveying mechanism 2 is provided with a deviation correcting component 3 connected above one side of the base component 1 by bolts, and the other side of the base component 1 is provided with a detection mechanism 4 connected by bolts;

the detection mechanism 4 comprises a bolt support 401, a screw rod box 402, an electromagnetic slide rod 403, an electromagnetic slide sleeve seat 404, a telescopic cylinder 405, a brush plug bush 406, a contact brush 407, an electric rotating seat 408, a power arm 409, a socket 4010 and a shovel bar 4011, wherein the bolt support 401 is arranged above the other side of the base assembly 1, the screw rod box 402 for installing the electromagnetic slide rod 403 is arranged below one end of the bolt support 401, the electromagnetic slide sleeve seat 404 is slidably connected to the outer side of the electromagnetic slide rod 403, the telescopic cylinder 405 is arranged below the electromagnetic slide sleeve seat 404, the brush plug bush 406 for plugging the contact brush 407 is arranged below the telescopic cylinder 405, one side of the electromagnetic slide sleeve seat 404 is provided with the electric rotating seat 408, the output end of the electric rotating seat 408 is connected with a power arm 409, and one end of the power arm 409 is provided with the socket 4010 for installing the shovel bar 4011.

The contact brushes 407 are distributed in an array perpendicular to the bottom side of the brush plug bush 406, the shovel strips 4011 are in a folded strip structure, and the median lines of the electromagnetic sliding sleeve seat 404 and the electric rotating seat 408 are mutually parallel.

In this embodiment, the electromagnetic sliding sleeve seat 404 is driven to move right above the detection position by starting the electromagnetic sliding rod 403 in the screw rod box 402 to output power, the telescopic cylinder 405 below the electromagnetic sliding sleeve seat 404 is started to output power to drive the brush insert 406 to move downwards, so that the contact brush 407 below the brush insert 406 effectively detects the tile after correction, when the defective product is detected, the electric rotating seat 408 on one side of the electromagnetic sliding sleeve seat 404 is started to output power to drive the power arm 409 to move, the sleeve joint seat 4010 on one end of the power arm 409 is used for attaching the connected shovel strip 4011 on one side of the tile, then the electromagnetic sliding rod 403 is started to output power to drive the electromagnetic sliding sleeve seat 404 to move, the tile is discharged out of the equipment through the notch of the side guard plate 203, and the effect of taking out the defective product is achieved.

The base assembly 1 comprises a bed support 101 and a platen 102, the top side of the bed support 101 being provided with the platen 102.

In this embodiment, the platen 102 is mounted on the top side of the bed support 101, and the feeding mechanism 2, the deviation correcting member 3, and the detecting mechanism 4 are sequentially mounted on the top side of the platen 102 by bolts.

The material conveying mechanism 2 comprises a bolt base 201, a bracket 202, a side guard plate 203, a first motor 204, a roller shaft 205, a conveying belt 206 and a rear supporting plate 207, wherein the bolt base 201 is arranged on the top side of the bedplate 102, the bracket 202 is provided with a side bolt connected with the side guard plate 203 on the top side of the bolt base 201, the roller shaft 205 connected with the first motor 204 is arranged on the inner side of the bracket 202, the conveying belt 206 is connected to the outer side of the roller shaft 205 in a rolling manner, the rear supporting plate 207 is arranged on the inner side of one end of the bracket 202, and the side guard plate 203 is provided with a notch-shaped structure.

In this embodiment, the first motor 204 on the side of the starting side guard 203 outputs power to drive the roller 205 on the inner side of the bracket 202 to rotate, the conveyer belt 206 is driven to run by the rotation of the roller 205, the tile to be detected is placed on the conveyer belt 206 to run, and the multiple groups of support roller rods arranged on the inner side of the side guard 203 are used for preventing the conveyer belt 206 from collapsing, so that the tile is conveyed by the running of the conveyer belt 206.

The deviation correcting component 3 comprises a bolt supporting plate 301, a clamping plate 302, a first sliding rod 303, a first sliding block 304, a guide wheel 305, a second sliding rod 306, a second sliding block 307 and a limiting piece 308, wherein the bolt supporting plate 301 is arranged above one side of the bedplate 102, the clamping plate 302 is arranged on the top side of the bolt supporting plate 301, the first sliding rod 303 and the second sliding rod 306 which are distributed in parallel are arranged on the inner side of the clamping plate 302, two groups of first sliding blocks 304 which are connected in a sliding manner are arranged on the first sliding rod 303, and the guide wheel 305 which is connected through a bearing is arranged below the first sliding blocks 304.

In this embodiment, the bolt supporting plate 301 is connected above one side of the platen 102 through a bolt, so that the top side of the bolt supporting plate 301 is provided with the clamping plate 302 in bolted connection, and the inner side of the clamping plate 302 is provided with the first sliding rod 303 and the second sliding rod 306 which are parallel to each other, and according to the size of the tile, the first sliding rod 303 and the second sliding rod 306 are slidingly connected according to the two groups of the first sliding rod 304 and the second sliding rod 307, so as to respectively adjust the spacing between the two groups of the first sliding rod 304 and the second sliding rod 307, so as to adapt to the size of the tile.

Two groups of second sliding blocks 307 which are connected in a sliding way are arranged on the second sliding rod 306, and a limiting piece 308 is arranged below the second sliding blocks 307.

In this embodiment, after the conveyor belt 206 drives the tile to run, the running track is straightened by the guide wheel 305 under the first slider 304, and the running track is finally adjusted by the spacing piece 308 under the second slider 307 through the adjusted tile, so that the tile is convenient for the device to perform effective detection.

The working principle of the ceramic tile blank detection production line is as follows: firstly, a first motor 204 on one side of a side guard 203 is started to output power to drive a roller shaft 205 on the inner side of a bracket 202 to rotate, a conveyer belt 206 is driven to run by the rotation of the roller shaft 205, tiles to be detected are placed on the conveyer belt 206 to run, a plurality of groups of support roller rods are arranged on the inner side of the side guard 203, thus an effect of preventing the conveyer belt 206 from collapsing is achieved, the tiles are conveyed by the running of the conveyer belt 206, a bolt supporting plate 301 is connected on one side upper part of a bedplate 102 by bolting a bolt supporting plate 301, a bolt-connected clamping plate 302 is arranged on the top side of the bolt supporting plate 301, a first sliding rod 303 and a second sliding rod 306 which are parallel to each other are arranged on the inner side of the clamping plate 302, the first sliding rod 303 and the second sliding rod 306 are connected in a sliding manner according to the sizes of the tiles, the distances between the two groups of first sliding rods 304 and the second sliding rods 307 are respectively adjusted, to adapt to the size of the tile, when the conveyor belt 206 drives the tile to run, the irregular tile state is straightened by the guide wheel 305 under the first sliding block 304, the running track is finally regulated by the regulated tile and the limit piece 308 under the second sliding block 307, so that the tile is convenient for the equipment to effectively detect, the electromagnetic sliding seat 404 is driven to run right above the detection position by starting the electromagnetic slide bar 403 output power in the screw rod box 402, the brush insert 406 is driven to run downwards by starting the telescopic cylinder 405 output power under the electromagnetic sliding seat 404, the contact brush 407 under the brush insert 406 effectively detects the tile after correction, when defective products are detected, the electric rotating seat 408 output power on one side of the electromagnetic sliding seat 404 is started to drive the power arm 409 to run, the socket 4010 at one end of the power arm 409 is used for attaching the connected shovel bar 4011 to one side of the tile, and then the electromagnetic slide bar 403 is started to output power to drive the electromagnetic slide sleeve seat 404 to operate, so that the tile is discharged out of the device through the notch of the side guard plate 203, and the effect of taking out defective products is achieved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a ceramic tile body detects production line, includes base subassembly (1) and detection mechanism (4), its characterized in that: the automatic feeding device is characterized in that a material conveying mechanism (2) assembled by bolts is arranged on the top side of the base assembly (1), a deviation correcting component (3) connected with one side of the base assembly (1) by bolts is arranged on the side of the material conveying mechanism (2), and a detection mechanism (4) connected with the other side of the base assembly (1) by bolts is arranged above the other side of the base assembly;

detection mechanism (4) include bolt pillar (401), lead screw box (402), electromagnetism slide bar (403), electromagnetism sliding sleeve seat (404), telescopic cylinder (405), brush plug bush (406), contact brush (407), electronic roating seat (408), power arm (409), cup joint seat (4010) and shovel strip (4011), bolt pillar (401) set up the opposite side top of base subassembly (1), the one end below of bolt pillar (401) is provided with lead screw box (402) of installation electromagnetism slide bar (403), the outside sliding connection of electromagnetism slide bar (403) has electromagnetism sliding sleeve seat (404), just the below of electromagnetism sliding sleeve seat (404) is provided with telescopic cylinder (405), the below of telescopic cylinder (405) is provided with brush plug bush (406) of pegging graft contact brush (407), one side of electromagnetism sliding sleeve seat (404) is provided with electronic roating seat (408), just the output of electronic roating seat (409) is connected with power arm (409), the one end of power arm (409) is provided with cup joint seat (4010) of installing shovel strip (1).

2. A tile blank inspection line according to claim 1, wherein: the contact brushes (407) are distributed in an array mode perpendicular to the bottom side of the brush plug bush (406), the shovel strips (4011) are of a folded strip-shaped structure, and the middle lines of the electromagnetic sliding sleeve seat (404) and the electric rotating seat (408) are distributed in parallel.

3. A tile blank inspection line according to claim 1, wherein: the base assembly (1) comprises a bed seat support (101) and a bedplate (102), wherein the bedplate (102) is arranged on the top side of the bed seat support (101).

4. A tile blank inspection line according to claim 3, wherein: the conveying mechanism (2) comprises a bolt base (201), a bracket (202), a side guard plate (203), a first motor (204), a roller shaft (205), a conveying belt (206) and a rear supporting plate (207), wherein the bolt base (201) is arranged on the top side of the bedplate (102), the bracket (202) of the side guard plate (203) is connected with the top side of the bolt base (201) through bolts, the roller shaft (205) connected with the first motor (204) is arranged on the inner side of the bracket (202), the conveying belt (206) is connected to the outer side of the roller shaft (205) in a rolling mode, the rear supporting plate (207) is arranged on the inner side of one end of the bracket (202), and the side guard plate (203) is provided with a notch-shaped structure.

5. A tile blank inspection line according to claim 3, wherein: the correcting component (3) comprises a bolt supporting plate (301), a clamping plate (302), a first sliding rod (303), a first sliding block (304), a guide wheel (305), a second sliding rod (306), a second sliding block (307) and a limiting piece (308), wherein the bolt supporting plate (301) is arranged above one side of the bedplate (102), the clamping plate (302) is arranged on the top side of the bolt supporting plate (301), the first sliding rod (303) and the second sliding rod (306) which are distributed in parallel are arranged on the inner side of the clamping plate (302), two groups of sliding connection first sliding blocks (304) are arranged on the first sliding rod (303), and the guide wheel (305) connected by a bearing is arranged below the first sliding block (304).

6. A tile blank inspection line according to claim 5, wherein: two groups of second sliding blocks (307) which are connected in a sliding manner are arranged on the second sliding rod (306), and a limiting piece (308) is arranged below the second sliding blocks (307).