CN219702710U - Thickness detection device for ceramic tile - Google Patents

Abstract

The utility model provides a thickness detection device and a detection method for ceramic tiles, and relates to the technical field of ceramic tile thickness detection, wherein the thickness detection device for ceramic tiles comprises a rack, a conveying device is arranged on the rack, a detection device for detecting thickness is also arranged on the rack, a plurality of groups of detection units are arranged on a support frame, each group of detection units comprises a telescopic support part, a pressure detection assembly is arranged in each support part, each pressure detection assembly comprises an elastic piece arranged in a sleeve, a pressing plate is arranged at the lower end of each elastic piece, and a pressure sensor is arranged between each pressing plate and the upper end of a moving rod; the beneficial effects of the utility model are as follows: when the ceramic tile with standard thickness passes through the movable rod, the pressure detected by the detection component is a standard value, when the pressure indication is larger than the standard value, the thickness of the ceramic tile is larger than that of the standard ceramic tile, and the larger the difference value is, the more the thickness of the ceramic tile to be detected is larger than that of the standard thickness, and the higher the defective grade caused by the pressure indication is.

Description

Thickness detection device for ceramic tile

Technical Field

The utility model relates to the technical field of ceramic tile thickness detection, in particular to a thickness detection device and a thickness detection method for ceramic tiles.

Background

The ceramic tile is a plate-shaped or block-shaped ceramic product produced from clay and other inorganic nonmetallic raw materials through the processes of molding, sintering and the like, and is used for decorating and protecting the wall surfaces and the ground surfaces of buildings and structures. It is usually formed by dry pressing, extrusion or other forming methods at room temperature, then dried and fired at a certain temperature.

According to the requirements of GB4100-2006 ceramic tile national Standard, the flatness requirements of the floor tile are that the flatness deviation is less than +/-0.2% and the maximum value is not more than 2mm. If the ceramic tile is 600 x 600, the deviation value of the flatness is between-1.2 mm and +/-1.2 mm, and the maximum value is not more than 2mm.

The utility model with the patent number of CN202121876027.9 and the grant discloses a ceramic tile thickness detector, which uses a plurality of groups of laser sensors symmetrically arranged up and down to detect the thickness of a ceramic tile, and the detection mode can quickly detect the thickness of the ceramic tile, but does not detect the flatness of the ceramic tile, and has the defect of insufficient detection performance in detection performance, and the utility model provides a thickness detection device and a detection method for the ceramic tile, so as to improve the defect of insufficient detection performance of the thickness of the ceramic tile

Disclosure of Invention

The utility model aims to provide a thickness detection device for ceramic tiles, and aims to solve the problem that the existing detection device is insufficient in detection performance.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the automatic sorting machine comprises a frame, a conveying device is arranged on the frame, a detecting device for detecting thickness is further arranged on the frame, and a sorting mechanism for sorting grades according to the detection result of the thickness detecting device is further arranged on the frame.

In order to increase the stability of the ceramic tile when passing through the detection device, the conveying device is a conveying belt arranged on a frame, a supporting plate for supporting a workpiece is further arranged on the frame, and the supporting plate is in contact with the inner annular surface of the conveying belt.

Specifically, detection device is including installing the support frame in the frame, the support frame top is equipped with the position detection module, be equipped with multiunit detecting element on the support frame.

Preferably, each group of detection units comprises a telescopic support component, a contact component is arranged at the lower end of the support component, and a pressure detection component is arranged in the support component.

In order to enable the detection component to detect the thickness of the ceramic tile in a manner of changing the stress of the pressure sensor along with the change of the height of the ceramic tile, the support component comprises a sleeve arranged at the top of the support frame, a movable rod is slidably connected in the sleeve, the contact component is arranged at the lower end of the movable rod, and the pressure detection component is arranged in the sleeve.

In order to prevent the moving rod from rotating, the contact part and unnecessary movement are caused to influence the detection precision, the bottom of the sleeve is provided with a groove for preventing the moving rod from rotating, and the moving rod is provided with a protrusion inserted into the groove.

In order to increase the contact stability of the contact part and the ceramic tile, the contact part is a roller arranged at the lower end of the moving rod, and a rubber pad is arranged on the outer edge surface of the roller.

In order to enable the pressure detection assembly to better detect the thickness of the ceramic tile, the pressure detection assembly comprises an elastic piece arranged in the sleeve, a pressing plate is arranged at the lower end of the elastic piece, and a pressure sensor is arranged between the pressing plate and the upper end of the moving rod.

In order to enable the detection device to sort ceramic tiles with different quality grades according to detection results, the sorting mechanism comprises a shell arranged on a rack, the shell is provided with a plurality of discharging slide ways, and a plurality of sorting assemblies in one-to-one correspondence with discharging sliding are arranged in the shell.

Specifically, the sorting assembly comprises a moving device arranged at the top of the shell, a telescopic component is arranged on the moving device, and a grabbing device for grabbing workpieces is arranged at the moving end of the telescopic component.

In order to be convenient for control letter sorting mechanism, mobile device is the guide rail, the telescopic component is the telescopic link of installing on the guide rail, grabbing device is the sucking disc tongs of installing at the telescopic link removal end.

In order to reduce the breakage rate in the ceramic tile thickness detection process, a buffer piece for preventing the workpiece from being broken and broken is arranged at the bottom of the discharging slide way.

Preferably, the buffer piece is a foam cushion, and an outer film for reducing the sliding friction force of the workpiece is arranged on the outer surface of the foam cushion.

The utility model also provides a ceramic tile thickness detection system based on the ceramic tile thickness detection device, and the thickness detection device also comprises a detection system, a terminal identification system and a sorting system;

the detection system includes a detection controller, further including:

a pressure sensor: the pressure sensor is used for detecting the pressure change of the pressure sensor due to the addition of the thickness of the workpiece under the holding of the workpiece;

and a data acquisition module: the pressure sensor is used for acquiring pressure data detected by the pressure sensor;

and a position detection module: for beginning to record pressure data changes of the pressure sensor when the workpiece is about to move below the detection assembly;

a first communication module: the terminal identification system is used for sending the detection result of the pressure sensor to the terminal identification system, carrying out data processing and displaying the detection result;

the terminal identification system comprises a terminal controller, and the terminal control system further comprises:

and a second communication module: the system is used for receiving the detection data acquired by the detection system and sending a control instruction to the sorting system according to the detection result level;

and a data processing module: the system is used for processing the detection data detected by the detection system, amplifying the data value and outputting display information according to the detection result;

and a display module: outputting a detection result image according to the display information;

and a data grading module: the method is used for classifying the grades of the detection results;

the storage unit is used for storing the detection result information and the workpiece quality grade information;

the sorting system includes a sorting controller, the sorting system further including:

and a third communication module: the control instruction is used for receiving the control instruction sent by the terminal identification system;

a signal identification module: the sorting controller is used for distinguishing control instructions sent by the terminal identification system and driving sorting assemblies of corresponding grades to grasp workpieces;

gripping device: for gripping and releasing a workpiece;

telescoping member: the gripping device is used for moving up and down to make the gripping device contact with or separate from a workpiece;

the mobile device: the gripping device is used for transferring the workpiece from the conveying belt to the discharging slideway after gripping the workpiece, so that the function of automatically classifying the quality grades of the workpiece is realized.

The utility model also provides a ceramic tile thickness detection method based on the ceramic tile thickness detection device, when the qualified workpiece supports the movable rod below the contact part, the pressure of the elastic part acting on the pressure sensor through the pressing plate is standard pressure, and the detection result is displayed on a qualified standard line;

when the workpiece to be detected, the thickness of which is larger than that of the qualified workpiece, is positioned below the contact part and the movable rod is upwards supported, the pressure of the elastic part acting on the pressure sensor through the pressing plate is larger than the standard pressure, and the detection result is displayed above the qualified standard line;

dividing the defective grade of the workpiece caused by overlarge thickness according to the degree that the pressure detected by the pressure sensor is larger than the standard pressure;

when the workpiece to be detected, the thickness of which is smaller than that of the qualified workpiece, is positioned below the contact part, and the movable rod is upwards supported, the pressure of the elastic piece acting on the pressure sensor through the pressing plate is smaller than the standard pressure, and the detection result is displayed below the qualified standard line;

dividing the defective grade of the workpiece caused by insufficient thickness according to the degree that the pressure detected by the pressure sensor is smaller than the standard pressure;

when defects are arranged on the detection points corresponding to the contact parts on the workpiece to be detected, and pits or bulges appear, the pressure detected by the pressure sensor can be displayed, and the detection result display line can also show folding points for reflecting the flatness of the surface of the workpiece.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the ceramic tile with standard thickness passes through the movable rod, the pressure detected by the detection component is a standard value, when the pressure indication is larger than the standard value, the thickness of the ceramic tile is larger than that of the standard ceramic tile, and the larger the difference value is, the more the thickness of the ceramic tile to be detected is larger than that of the standard thickness, and the higher the defective grade is caused after the pressure indication is; the smaller the pressure indication of the detection component is compared with the standard value, the thinner the ceramic tile to be detected is compared with the standard ceramic tile, and the larger the difference value is, the thinner the thickness of the ceramic tile to be detected is, and the higher the level of the residue caused by the excessive thinning is;

2. when defects exist on a detection point corresponding to the contact part on the workpiece to be detected, and pits or bulges appear, the pressure detected by the pressure sensor suddenly changes, and a detection result display line also has a break point for reflecting the flatness of the surface of the workpiece, so that the flatness and flatness of the ceramic tile can be detected, and the detection function of the detection device is further completed, so that the performance of the detection device is more perfect;

3. the sorting assembly can divide the defective grades of the ceramic bricks according to the thickness detection result, and finally sort and discharge the ceramic bricks of the defective grades of the corresponding grades through the sorting assembly, so that the division of the grades of the ceramic bricks is realized, the outward output of enterprises at different prices is facilitated, and the detection work of the enterprises is facilitated.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic axial view of a thickness detection device for ceramic tiles in the present utility model;

FIG. 2 is a schematic diagram of a thickness detection device for ceramic tiles in full section in the present utility model;

FIG. 3 is a schematic view in full section of the sorting mechanism of the present utility model;

FIG. 4 is a schematic front view of the detecting device of the present utility model;

FIG. 5 is a schematic diagram of a detection device of the present utility model in full section;

FIG. 6 is a schematic top view in full section of a travel bar of the present utility model;

FIG. 7 is a schematic system diagram of a thickness detection device for ceramic tiles according to the present utility model;

FIG. 8 is a view showing the detection result of the thickness detection device for ceramic tiles according to the present utility model;

FIG. 9 is a diagram showing an example of the detection result of the thickness detection device for ceramic tiles according to the present utility model.

In the figure: 1. a frame; 2. a conveying device; 3. a detection device; 4. a sorting mechanism; 5. a supporting plate; 31. a support frame; 32. a position detection module; 33. a detection unit; 331. a support member; 332. a contact member; 333. a pressure detection assembly; 3311. a sleeve; 3312. a moving rod; 3313. a groove; 3314. a protrusion; 3321. a roller; 3322. a rubber pad; 3331. an elastic member; 3332. a pressing plate; 3333. a pressure sensor; 41. a housing; 42. a discharging slideway; 43. a sorting assembly; 431. a mobile device; 432. a telescopic member; 433. a gripping device; 6. and a buffer member.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

As shown in fig. 1-5, a thickness detection device for ceramic tiles comprises a frame 1, wherein a conveying device 2 is arranged on the frame 1, a detection device 3 for detecting thickness is further arranged on the frame 1, and a sorting mechanism 4 for sorting grades according to the detection result of the thickness detection device 3 is further arranged on the frame 1.

Further, the conveying device 2 is a conveying belt arranged on the frame 1, the frame 1 is also provided with a supporting plate 5 for supporting the workpiece, and the supporting plate 5 is contacted with the inner annular surface of the conveying belt; the one end that the layer board 5 is close to the material loading still is equipped with arc bending angle downwards for prevent to sink because of ceramic tile leads to the conveyer belt because of self weight, when ceramic tile moves on to layer board 5, the one end that ceramic tile is close to layer board 5 collides with layer board 5, leads to ceramic tile cracked, and the angle of arc bending downwards can make the smooth transfer of ceramic tile to layer board 5, plays the guard action to ceramic tile.

Referring to fig. 1, 2, 4 and 5, the detecting device 3 includes a supporting frame 31 mounted on the frame 1, a position detecting module 32 is disposed on top of the supporting frame 31, and a plurality of groups of detecting units 33 are disposed on the supporting frame 31; the multiple groups of detection units 33 are arranged along the width direction of the ceramic tile and are used for detecting different positions of the ceramic tile, so that position detection points are increased, and the detection precision and the detection quality are improved.

Preferably, each group of the detecting units 33 includes a telescopic supporting member 331, so that when the ceramic tile passes through the detecting unit 33, the supporting member 331 can automatically adjust according to the thickness of the ceramic tile, thereby realizing the detection of the thickness of the ceramic tile; the lower end of the supporting component 331 is provided with a contact component 332, the contact component 332 is in smooth contact with the ceramic tile, so as to increase the smoothness of the contact between the detecting unit 33 and the ceramic tile, reduce the detection error caused by the unsmooth contact between the storage component and the ceramic tile, and facilitate the improvement of the accuracy and precision of thickness detection; the pressure detection component 333 is arranged in the supporting component 331, the pressure detection component 333 is used for detecting pressure change caused by ceramic tile thickness change, and the degree of ceramic tile thickness change is determined according to the degree of pressure change, so that the degree of ceramic tile thickness change of the broken ceramic tile to be detected compared with the ceramic tile thickness change of standard thickness is judged.

Referring to fig. 4 and 5, the supporting member 331 includes a sleeve 3311 mounted on the top of the supporting frame 31, a moving rod 3312 is slidably connected to the sleeve 3311, the contact member 332 is mounted on the lower end of the moving rod 3312, and the pressure detecting assembly 333 is mounted in the sleeve 3311; when the ceramic tile passes through the lower end of the moving rod 3312, the ceramic tile lifts the moving rod 3312 upwards, and at this time, the top of the moving rod 3312 presses the detection assembly, thereby increasing the indication of the pressure sensor 3333;

in this case, when the ceramic tile with standard thickness passes through the moving rod 3312, the pressure detected by the detecting component is a standard value, which means that when the thickness of the ceramic tile to be detected is larger, the pressure value detected by the detecting component is larger, so that the difference between the thickness of the ceramic tile and the thickness of the standard ceramic tile can be judged according to the pressure indication displayed by the detecting component, when the pressure indication is larger than the standard value, the thickness of the ceramic tile is larger than the thickness of the standard ceramic tile, and the larger the difference is, the more the thickness of the ceramic tile to be detected is larger than the standard thickness, and the higher the defective grade is caused after the pressure indication is; the smaller the pressure indication of the detection component compared with the standard value, the thinner the ceramic tile to be detected is compared with the standard ceramic tile, and the larger the difference value is, the thinner the thickness of the ceramic tile to be detected is, and the higher the residue grade caused by the over-thinning is.

Referring to fig. 6, a groove 3313 for preventing the moving rod 3312 from rotating is formed at the bottom of the sleeve 3311, and a protrusion 3314 inserted into the groove 3313 is formed on the moving rod 3312; the protrusion 3314 can slide up and down along the groove 3313, but the groove 3313 can limit the rotation of the moving rod 3312, so that the moving rod 3312 can only move up and down but not rotate, further, redundant actions of the moving rod 3312 are avoided, the up and down vibration of the moving rod 3312 caused by the redundant actions is avoided, the detection result is influenced, and the detection precision is improved.

In order to increase the contact stability of the contact member 332 with the ceramic tile, the contact member 332 is a roller 3321 mounted on the lower end of the moving rod 3312, and a rubber pad 3322 is provided on the outer edge surface of the roller 3321.

The present utility model provides another embodiment in which the contact member 332 at the bottom of the moving rod 3312 is a universal wheel, so that even if the moving rod 3312 can rotate, the universal wheel can reduce errors caused by the rotation of the moving rod 3312; wherein the contact members 332 may also be balls or the like, to advantage.

Referring to fig. 5, the pressure detecting assembly 333 includes an elastic member 3331 installed in the sleeve 3311, wherein a pressing plate 3332 is disposed at a lower end of the elastic member 3331, and a pressure sensor 3333 is disposed between the pressing plate 3332 and an upper end of the moving rod 3312; the elastic member 3331 is preferably a high-precision spring, and is matched with the pressure sensor 3333, so that when the upper end position of the moving rod 3312 changes, the pressure sensor 3333 can clearly sense that the pressure sensor 3333 changes due to the change of the expansion degree of the spring, and further the thickness change of the ceramic tile can be detected.

Referring to fig. 3, the sorting mechanism 4 includes a housing 41 mounted on the frame 1, the housing 41 has a plurality of discharging slides 42, and a plurality of sorting assemblies 43 corresponding to the discharging slides one by one are disposed in the housing 41; sorting assembly 43 can divide the incomplete level of ceramic tile according to thickness testing result, and finally will correspond the incomplete level's of level ceramic tile letter sorting ejection of compact through sorting assembly 43, realizes the division of ceramic tile level, helps the enterprise to export outwards with different prices.

Specifically, the sorting assembly 43 includes a moving device 431 mounted on the top of the housing 41, a telescopic member 432 is disposed on the moving device 431, and a gripping device 433 for gripping a workpiece is disposed at a moving end of the telescopic member 432; when gripping the ceramic tile, the telescopic part 432 is firstly stretched and contacted with the ceramic tile, meanwhile, the gripping device 433 grips the ceramic tile, when the telescopic part 432 is recovered, the telescopic part 432 is taken out of the conveyor belt, and then the moving device 431 carries the ceramic tile to move out to the discharging slideway 42, so that the classification work of the quality of the ceramic tile is completed.

In order to facilitate control of the sorting mechanism 4, the moving device 431 is an electric guide rail, a telescopic cylinder, a threaded screw structure or the like, the telescopic component 432 is a telescopic rod installed on the guide rail, and the grabbing device 433 is a sucker gripper or a manipulator installed at the moving end of the telescopic rod, a pushing structure for pushing ceramic tiles or the like.

Further, a buffer piece 6 for preventing the workpiece from being broken and cracked is arranged at the bottom of the discharging slideway 42, so that the risk that the ceramic tile falls on the discharging slideway 42 and is broken is reduced, and the safety of the ceramic tile is ensured.

Preferably, the buffer member 6 is a foam cushion, and an outer film for reducing the sliding friction force of the workpiece is arranged on the outer surface of the foam cushion, so that the ceramic tile can slide out more smoothly.

The utility model also provides a ceramic tile thickness detection system based on the ceramic tile thickness detection device, and the thickness detection device 3 further comprises a detection system, a terminal identification system and a sorting system;

the detection system includes a detection controller, further including:

pressure sensor 3333: for detecting a pressure change of the pressure sensor 3333 due to the addition of the thickness of the work piece under the addition and holding of the work piece;

and a data acquisition module: for collecting pressure data detected by the pressure sensor 3333;

the position detection module 32: for initiating recording of pressure data changes of the pressure sensor 3333 when the workpiece is about to move below the detection assembly;

a first communication module: the terminal identification system is used for sending the detection result of the pressure sensor 3333 to the terminal identification system, carrying out data processing and displaying the detection result;

the terminal identification system comprises a terminal controller, and the terminal control system further comprises:

and a second communication module: the system is used for receiving the detection data acquired by the detection system and sending a control instruction to the sorting system according to the detection result level;

and a data processing module: the system is used for processing the detection data detected by the detection system, amplifying the data value, enabling the pressure change value to be more obvious, being more beneficial to displaying the micro flaws of the ceramic tile, and outputting display information according to the detection result;

and a display module: outputting a detection result image according to the display information;

and a data grading module: the method is used for classifying the grades of the detection results;

the storage unit is used for storing the detection result information and the workpiece quality grade information;

the sorting system includes a sorting controller, the sorting system further including:

and a third communication module: the control instruction is used for receiving the control instruction sent by the terminal identification system;

a signal identification module: the sorting controller is used for distinguishing control instructions sent by the terminal identification system and driving the sorting assembly 43 with the corresponding grade to grasp the workpiece;

gripping device 433: for gripping and releasing a workpiece;

telescoping member 432: for moving the grasping device 433 up and down to be brought into contact with or separated from the work;

mobile device 431: the gripping device 433 is used for transferring the workpiece from the conveyer belt to the discharging slideway 42 after gripping the workpiece, so as to realize the function of automatically classifying the quality grades of the workpiece.

The utility model also provides a ceramic tile thickness detection method based on the ceramic tile thickness detection device, when a qualified workpiece supports the moving rod 3312 below the contact part 332, the pressure of the elastic part 3331 acting on the pressure sensor 3333 through the pressing plate 3332 is standard pressure, and the detection result is displayed on a qualified standard line;

when the workpiece to be detected, which is thicker than the qualified workpiece, is positioned below the contact part 332 and the moving rod 3312 is supported upwards, the pressure of the elastic member 3331 acting on the pressure sensor 3333 through the pressing plate 3332 is greater than the standard pressure, and the detection result is displayed above the qualified standard line;

dividing the defective grade of the workpiece due to the excessive thickness according to the degree that the pressure detected by the pressure sensor 3333 is greater than the standard pressure;

when the workpiece to be detected, which has a thickness smaller than that of the qualified workpiece, is positioned below the contact part 332 and the moving rod 3312 is supported upward, the pressure of the elastic member 3331 acting on the pressure sensor 3333 through the pressing plate 3332 is smaller than the standard pressure, and the detection result is displayed below the qualified standard line;

dividing the defective grade of the workpiece due to insufficient thickness according to the degree that the pressure detected by the pressure sensor 3333 is smaller than the standard pressure;

when a flaw is detected on the workpiece to be detected at the detection point corresponding to the contact member 332, and a pit or a protrusion 3314 appears, the pressure detected by the pressure sensor 3333 will be suddenly changed, and the detection result shows that a break point will also appear on the line for reflecting the flatness of the surface of the workpiece.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. Thickness detection device (3) for ceramic tile, characterized by, including frame (1), be equipped with conveyor (2) on frame (1), still be equipped with on frame (1) and be used for detecting detection device (3) of thickness, still be equipped with on frame (1) according to the testing result of thickness detection device (3) and carry out sorting mechanism (4) of level letter sorting, detection device (3) are including installing support frame (31) on frame (1), support frame (31) top is equipped with position detection module (32), be equipped with multiunit detecting element (33) on support frame (31), every group detecting element (33) all include telescopic supporting part (331), the lower extreme of supporting part (331) is equipped with contact part (332), be equipped with pressure detection subassembly (333) in supporting part (331).

2. The thickness detection device (3) for ceramic tiles according to claim 1, wherein the conveying device (2) is a conveying belt arranged on a frame (1), a supporting plate (5) for supporting a workpiece is further arranged on the frame (1), and the supporting plate (5) is in contact with the inner annular surface of the conveying belt.

3. The thickness detection device (3) for ceramic tile according to claim 1, wherein the supporting member (331) comprises a sleeve (3311) mounted on top of the supporting frame (31), a moving rod (3312) is slidably connected to the sleeve (3311), the contact member (332) is mounted on a lower end of the moving rod (3312), and the pressure detection assembly (333) is mounted in the sleeve (3311).

4. A thickness detection apparatus (3) for ceramic tiles according to claim 3, wherein the pressure detection assembly (333) comprises an elastic member (3331) mounted in the sleeve (3311), a pressing plate (3332) is provided at a lower end of the elastic member (3331), and a pressure sensor is provided between the pressing plate (3332) and an upper end of the moving rod (3312).

5. The thickness detection device (3) for ceramic tiles according to claim 1, wherein the sorting mechanism (4) comprises a housing (41) mounted on the frame (1), the housing (41) is provided with a plurality of discharging slide ways (42), and a plurality of sorting assemblies (43) which are in one-to-one correspondence with discharging sliding are arranged in the housing (41).

6. The thickness detection device (3) for ceramic tiles according to claim 5, wherein the sorting assembly (43) comprises a moving device (431) mounted on the top of the housing (41), a telescopic part (432) is arranged on the moving device (431), and a gripping device (433) for gripping a workpiece is arranged at the moving end of the telescopic part (432).

7. The thickness detection device (3) for ceramic tile according to claim 6, wherein the moving device (431) is a guide rail, the telescopic member (432) is an installation telescopic rod installed on the guide rail, and the grasping device (433) is a suction cup grip installed at a moving end of the telescopic rod.

8. A thickness detection device (3) for ceramic tiles according to any one of claims 5 to 7, characterized in that the bottom of the discharge chute (42) is provided with a buffer (6) for preventing breakage and chipping of the workpiece.