CN220552427U - Cutting board strip flatness on-line measuring device - Google Patents

Abstract

The utility model provides an online detection device for the flatness of a cutting board strip, which comprises a mounting frame, wherein the mounting frame is used for mounting a ranging component and is detachably connected with a cutting head of a slitter; the mounting frame comprises a mounting plate and a limiting block; limiting blocks are arranged on two sides of the mounting plate, and mounting grooves are formed in the side parts of the cutting heads; the mounting groove is matched and connected with a limiting block; the ranging component comprises a laser receiver and a laser emitter, wherein the laser receiver and the laser emitter are connected with a controller, and the controller is connected with an alarm. The flatness of the anvil plate strip is detected by the ranging component in a ranging mode, and meanwhile, the detected ranging component is mounted on the cutting head of the slitter without additionally mounting a support and a driving piece for driving the ranging component to move; the utility model can not influence the slitter, and the installed laser ranging component can not contact with glass, so that the damage to the glass plate surface can not occur; in addition, the utility model has simple installation and convenient disassembly.

Description

Cutting board strip flatness on-line measuring device

Technical Field

The utility model relates to the technical field of glass substrate processing auxiliary equipment, in particular to an on-line detection device for the flatness of a cutting board strip.

Background

The semi-finished product processing procedure is an important component in the production of the liquid crystal glass substrate, and is mainly used for carrying out series of treatments of transverse sectional cutting, feeding, weighing, longitudinal cutting, cooling, thickness measuring, automatic detection, manual sampling inspection, sorting and blanking after the glass flows out of a muffle furnace. The working procedure tasks are that the glass plate which is formed and pulled down and is transversely cut and blocked is conveyed, weighed, longitudinally cut, sorted, packed and thrown into the grinding. The trimming plate is particularly important in the trimming station, and once the trimming quality is poor, the subsequent processes of collecting bags or flowing into the grinding process can be greatly influenced.

The chopping block strips are inevitably used in longitudinal cutting and breaking actions, are used as consumables in daily production, the surface flatness is related to a product cutting state, if the chopping block strips are uneven, product cutting is affected, broken plates are formed, poor working procedures are caused, currently, the flatness detection technology of the detection chopping block strips is empty and open, the detection chopping block strips are only visible by personnel, are too simple and subjective, the length of the chopping block strips is about 2 m & lt 7 & gt, and are only visible, the detection accuracy cannot be guaranteed, so that poor cutting is caused.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide the online detection device for the flatness of the chopping board strip, which can solve the existing problems.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model is realized by the following technical scheme: the cutting board strip flatness online detection device comprises a mounting frame, wherein the mounting frame is used for mounting a ranging component, and the mounting frame is detachably connected with a cutting head of a slitter; the mounting frame comprises a mounting plate and a limiting block; limiting blocks are arranged on two sides of the mounting plate, and mounting grooves are formed in the side parts of the cutting heads; the mounting groove is matched and connected with a limiting block; the range finding subassembly includes laser receiver and laser emitter, laser receiver and laser emitter connect the controller, the alarm is connected to the controller.

Further, the mounting frame further comprises an elastic plate; the two side walls of the mounting plate are inwards bent to form an arc-shaped structure, and a plurality of elastic plates are arranged at the arc-shaped structure of the mounting plate.

Further, the mounting frame further comprises a limiting groove; the side part of the mounting plate is provided with a through hole which is used for penetrating the data line; the lateral part of mounting panel is equipped with the spacing groove, spacing groove cooperation connection range unit.

Further, the ranging assembly further comprises a laser housing, a pressing plate, a spring and a blocking block; the laser receiver and the laser transmitter are arranged on the inner side of the laser shell; a sliding groove is formed in the side part of the laser shell, and the sliding of the sliding groove is connected with two pressing plates in a sliding manner; the two pressing plates penetrate through the sliding grooves and are connected with the two blocking blocks, and a spring is arranged between the two blocking blocks; the blocking block is connected with the limiting groove in a matched mode.

Furthermore, the mounting plate adopts a U-shaped structure, and each side of the opening of the mounting plate is respectively fixed with two limiting blocks.

Furthermore, the blocking blocks are of an L-shaped structure, and the two blocking blocks are symmetrically distributed.

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

according to the on-line detecting device for the flatness of the chopping board strip, the flatness of the chopping board strip is detected in a ranging mode through the ranging component, and meanwhile, the detected ranging component is mounted on a cutting head of a slitter, and a driving piece for supporting and driving the ranging component to move is not required to be additionally mounted;

the utility model can not influence the slitter, and the installed laser ranging component can not contact with glass, so that the damage to the glass plate surface can not occur; in addition, the utility model has simple installation and convenient disassembly; and the detection effect can be greatly improved, so that the problem of the gap of the means for detecting the flatness of the chopping board strips is thoroughly solved.

Drawings

The disclosure of the present utility model is described with reference to the accompanying drawings. It should be understood that the drawings are for purposes of illustration only and are not intended to limit the scope of the present utility model in which like reference numerals are used to designate like parts. Wherein:

FIG. 1 is a schematic diagram of the overall structure of an on-line detecting device for the flatness of a cutting board strip;

FIG. 2 is a schematic diagram of a connection structure between a mounting frame and a ranging module according to an embodiment of the present utility model;

FIG. 3 is a schematic view of the connection of the cutter head, the mounting frame and the distance measuring assembly according to the embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of the structure A in FIG. 3 according to the embodiment of the present utility model;

FIG. 5 is a schematic view of a split type structure of a mounting bracket and a ranging module according to an embodiment of the present utility model;

fig. 6 is a schematic block diagram of detection in an embodiment of the present utility model.

The reference numerals in the drawings indicate: 1. a cutting head; 11. a cutting nozzle; 12. a mounting groove; 2. a mounting frame; 21. a mounting plate; 22. an elastic plate; 23. a limiting block; 24. a limit groove; 3. a ranging assembly; 31. a laser receiver; 32. a laser housing; 321. a chute; 33. a laser emitter; 34. pressing the plate; 35. a spring; 36. and a blocking piece.

Detailed Description

It is to be understood that, according to the technical solution of the present utility model, those skilled in the art may propose various alternative structural modes and implementation modes without changing the true spirit of the present utility model. Accordingly, the following detailed description and drawings are merely illustrative of the utility model and are not intended to be exhaustive or to limit the utility model to the precise form disclosed.

The online detection device for the flatness of the chopping block strips adopts a distance measuring component 3 to detect the distance between the distance measuring component 3 and the chopping block strips, and the flatness of the chopping block strips is reflected through the distance between the distance measuring component 3 and the chopping block strips, wherein the distance measuring component 3 is arranged on a cutting head 1 of a longitudinal cutting machine through a mounting frame 2, as shown in figure 1, the distance measuring component 3 is arranged on the side part of the cutting head 1 through the mounting frame 2, in particular above a cutting nozzle 11 of the cutting head 1, so that the running of the whole cutting machine is not hindered;

the on-line detection device for the flatness of the chopping block strips comprises a mounting frame 2, wherein the mounting frame 2 is used for mounting a ranging component 3, and the mounting frame 2 is detachably connected with a cutting head 1 of a slitter; specifically, the mounting frame 2 comprises a mounting plate 21 and a limiting block 23; as shown in fig. 2, two sides of the mounting plate 21 are provided with limiting blocks 23, and the side part of the cutting head 1 is provided with a mounting groove 12; the mounting groove 12 is matched and connected with a limiting block 23; the mounting plate 21 adopts a U-shaped structure, and two limiting blocks 23 are respectively fixed on each side of the opening of the mounting plate 21; when the mounting frame 2 and the cutting head 1 are connected, as shown in fig. 3, the limiting block 23 is clamped into the mounting groove 12, wherein the limiting block 23 is vertically designed with the mounting plate 21, in addition, two side walls of the mounting plate 21 are inwards bent to form an arc-shaped structure, a plurality of elastic plates 22 with arc-shaped structures are arranged at the arc-shaped structure of the mounting plate 21, and the limiting block 23 always has an outward tension through the elastic plates 22 and the mounting plate 21 with the arc-shaped structure, so that the connection between the limiting block 23 and the mounting groove 12 is more compact; the installation between the mounting frame 2 and the cutting head 1 is completed; the mounting frame 2 also comprises a limit groove 24; the side part of the mounting plate 21 is provided with a through hole which is used for penetrating through a data line of the ranging component 3; a limit groove 24 is formed in the side part of the mounting plate 21, and the limit groove 24 is connected with the distance measuring assembly 3 in a matching manner;

specifically, the ranging component 3 includes a laser receiver 31 and a laser transmitter 33, where the laser receiver 31 and the laser transmitter 33 are connected to a controller, and the controller is connected to an alarm, as shown in fig. 6; when the laser receiver 31 receives the signal emitted by the laser emitter 33 and is not in the preset range, the controller controls the alarm to alarm; the method comprises the steps of identifying the uneven positions of the chopping board strips and then carrying out alarm reminding; the distance measuring assembly 3 further comprises a laser housing 32, a pressing plate 34, a spring 35 and a blocking block 36, as shown in fig. 3-5; the laser receiver 31 and the laser transmitter 33 are arranged on the inner side of the laser shell 32; a sliding groove 321 is arranged at the side part of the laser shell 32, and the sliding of the sliding groove 321 is connected with two pressing plates 34; the two pressing plates 34 penetrate through the sliding groove 321 and are connected with the two blocking blocks 36, and a spring 35 is arranged between the two blocking blocks 36; the blocking block 36 is matched and connected with the limit groove 24; the blocking blocks 36 are in an L-shaped structure, and two blocking blocks 36 are symmetrically distributed and extend out of the laser housing 32.

When the distance measuring assembly is used, firstly, the distance measuring assembly 3 is installed in the installation frame 2, and the two pressing plates 34 are pressed inwards during installation, so that the two pressing plates 34 are close to each other, and when the two pressing plates 34 are close to each other, the two blocking blocks 36 are driven by the pressing plates 34 to be close to the compression springs 35 simultaneously; then the pressed blocking blocks 36 are aligned with the limiting grooves 24, the pressing plates 34 are loosened, at the moment, the two blocking blocks 36 are reset and inserted into the limiting grooves 24 under the action of the springs 35, and at the same time, the two pressing plates 34 are synchronously reset; connecting the ranging component 3 with the mounting frame 2, and connecting the ranging component 3 with the mounting frame 2 as shown in fig. 3;

then the mounting frame 2 is connected with the cutting head 1, the side part of the cutting head 1 is provided with a mounting groove 12, then the two side plates of the mounting plate 21 are pressed inwards to enable the limiting blocks 23 to be inserted into the mounting groove 12, and the two limiting blocks 23 are loosened to enable the limiting blocks 23 to be connected with the mounting groove 12;

when processing, the laser ranging component 3 moves from top to bottom along with the cutting head 1 of the cutting mechanism, and simultaneously measures the distance between the cutting head and the chopping board strips, and when the deviation is too large and exceeds the preset range of the process, a signal is sent out, an alarm is used for alarming, and personnel can immediately adjust the chopping board strips.

The utility model solves the problem that the prior detection anvil strip is a blank item in the aspect of flatness technology, and solves the problem that the prior detection anvil strip is too simple and subjective to ensure accurate detection only by visual observation of personnel, thereby causing poor cutting;

the utility model can not influence the slitter, and the installed laser ranging component can not contact with glass, so that the damage to the glass plate surface can not occur; in addition, the utility model has simple installation and can greatly improve the detection effect, thereby thoroughly solving the problem of the lack of means for detecting the flatness of the chopping board strips.

The technical scope of the present utility model is not limited to the above description, and those skilled in the art may make various changes and modifications to the above-described embodiments without departing from the technical spirit of the present utility model, and these changes and modifications should be included in the scope of the present utility model.

Claims (6)

1. The utility model provides a chopping block strip roughness on-line measuring device which characterized in that:

the device comprises a mounting frame (2), wherein the mounting frame (2) is used for mounting a ranging assembly (3), and the mounting frame (2) is detachably connected with a cutting head (1) of a slitter; the mounting frame (2) comprises a mounting plate (21) and a limiting block (23); limiting blocks (23) are arranged on two sides of the mounting plate (21), and mounting grooves (12) are formed in the side parts of the cutting heads (1); the mounting groove (12) is matched and connected with a limiting block (23); the ranging component (3) comprises a laser receiver (31) and a laser emitter (33), wherein the laser receiver (31) and the laser emitter (33) are connected with a controller, and the controller is connected with an alarm.

2. The on-line detection device for flatness of cutting board strips according to claim 1, wherein: the mounting frame (2) further comprises an elastic plate (22); the two side walls of the mounting plate (21) are inwards bent to form an arc-shaped structure, and a plurality of elastic plates (22) are arranged at the arc-shaped structure of the mounting plate (21).

3. An on-line detection device for flatness of cutting board strips according to claim 1 or 2, characterized in that: the mounting frame (2) further comprises a limit groove (24); the side part of the mounting plate (21) is provided with a through hole, and the through hole is used for penetrating the data line; the lateral part of mounting panel (21) is equipped with spacing groove (24), spacing groove (24) cooperation connection range finding subassembly (3).

4. An on-line detection device for flatness of cutting board strips according to claim 1 or 2, characterized in that: the ranging assembly (3) further comprises a laser shell (32), a pressing plate (34), a spring (35) and a blocking block (36); the laser receiver (31) and the laser transmitter (33) are arranged on the inner side of the laser shell (32); a sliding groove (321) is formed in the side part of the laser shell (32), and the sliding of the sliding groove (321) is connected with two pressing plates (34); the two pressing plates (34) penetrate through the sliding groove (321) and are connected with the two blocking blocks (36), and a spring (35) is arranged between the two blocking blocks (36); the blocking block (36) is connected with the limit groove (24) in a matching way.

5. The on-line detection device for flatness of cutting board strips according to claim 1, wherein: the mounting plate (21) adopts a U-shaped structure, and two limiting blocks (23) are respectively fixed on each side of the opening of the mounting plate (21).

6. The on-line detection device for flatness of cutting board strips according to claim 4, wherein: the blocking blocks (36) are of an L-shaped structure, and the two blocking blocks (36) are symmetrically distributed.