CN222560818U - Glass size information detection and collection device - Google Patents

Abstract

The utility model discloses a glass size information detection and collection device, including a base, a rotating seat is rotatably arranged in the middle of the upper surface of the base, a servo motor is arranged inside the base, the output shaft of the servo motor passes through the upper surface of the base and is fixedly connected to the rotating seat, a plurality of vacuum suction cups are evenly arranged on the upper surface of the rotating seat, an adjustable thickness measuring mechanism is arranged on one side of the upper surface of the base, and an adjustable distance measuring mechanism is arranged on the other side of the upper surface of the base. Compared with traditional manual measurement, the glass size information detection and collection device disclosed in the present application has the advantages of high precision, fast speed, convenient operation and low labor intensity, and because the glass can be rotated and the thickness measuring mechanism or the distance measuring mechanism can be adjusted, it can be applicable to the measurement of glass of different specifications, greatly improving the universality.

Description

Glass size information detection and acquisition equipment

Technical Field

The utility model relates to the technical field of glass production, in particular to glass size information detection and acquisition equipment.

Background

In the glass processing industry, accurate acquisition of glass size information is a key to ensuring product quality and processing efficiency. The traditional glass size measurement method mainly depends on manual work, has the problems of low precision, low efficiency, high labor intensity and the like, and is inconvenient to measure and operate for glass with different sizes. For this purpose, we propose a glass size information detection and collection device.

Disclosure of utility model

The utility model aims to overcome the existing defects, provides the glass size information detection and acquisition equipment which has the advantages of high precision, high speed, convenient operation and low labor intensity, and because the glass can rotate, thickness measuring mechanism or range finding mechanism are all adjustable to can be applicable to the glass measurement of different specifications, can effectively solve the problem in the background art.

In order to achieve the purpose, the glass size information detection and collection device comprises a base, wherein a rotating seat is rotatably arranged in the middle of the upper surface of the base, a servo motor is arranged in the base, an output shaft of the servo motor penetrates out of the upper surface of the base and is fixedly connected with the rotating seat, a plurality of vacuum suckers are uniformly arranged on the upper surface of the rotating seat, an adjustable thickness measuring mechanism is arranged on one side of the upper surface of the base, and an adjustable distance measuring mechanism is arranged on the other side of the upper surface of the base.

The thickness measuring mechanism comprises a sliding seat arranged in a first sliding groove formed in the upper surface of a base in a sliding mode, a first driving mechanism used for driving the sliding seat to slide in the first sliding groove is arranged on the side surface of the base, an electric push rod is mounted on the upper surface of the sliding seat, a mounting plate is arranged on the side, facing the rotating seat, of the movable end of the electric push rod, and a micrometer is arranged on the mounting plate.

As a preferable technical scheme of the utility model, the first driving mechanism comprises a first driving motor arranged on the side surface of the base, an output shaft of the first driving motor penetrates into the first sliding groove and is connected with the first driving screw rod through a coupler, and the first driving screw rod is in threaded connection with a screw hole formed in the sliding seat.

The distance measuring mechanism comprises a sliding frame which is arranged in a second sliding groove formed in the upper surface of a base in a sliding mode, a second driving mechanism used for driving the sliding frame to slide in the second sliding groove is arranged on the side surface of the base, two third sliding grooves are symmetrically formed in the upper portion of the sliding frame towards one side surface of a rotating seat, two sliding plates are respectively arranged in the two third sliding grooves in a sliding mode, a third driving motor is installed on the outer side surface of the sliding frame, an output shaft of the third driving motor penetrates into the third sliding grooves and is connected with the third driving screw through a coupler, the third driving screw is in threaded connection with screw holes formed in the two sliding plates, the directions of two sections of threads of the third driving screw are opposite, detection blocks are installed on the opposite sides of the two sliding plates, two fixing plates are symmetrically arranged on two ends of the side surface of the sliding frame, and distance measuring sensors matched with the corresponding detection blocks are respectively arranged on the opposite sides of the fixing plates.

As a preferable technical scheme of the utility model, the second driving mechanism comprises a second driving motor arranged on the side surface of the base, an output shaft of the second driving motor penetrates into the second sliding groove and is connected with a second driving screw rod through a coupler, and the second driving screw rod is in threaded connection with a screw hole formed in the side surface of the sliding frame.

As a preferable technical scheme of the utility model, the dial indicator is arranged on the sliding plate, and the heads of the two dial indicators are arranged oppositely.

As a preferable technical scheme of the utility model, the upper surface of the base is symmetrically provided with two guide rail grooves which are parallel to the second sliding groove, and the sliding frame is symmetrically provided with two guide rails which are arranged in the guide rail grooves in a sliding way.

As a preferable embodiment of the present utility model, the upper outer side surface of the carriage is provided with a control panel in an inclined manner.

Compared with the prior art, the glass measuring device has the advantages that glass of which the size is required to be measured is fixed above the rotating seat through the vacuum chuck, then the rotating seat drives the rotating seat to rotate, the part which is required to be detected is enabled to rotate to the thickness measuring mechanism or the distance measuring mechanism, the thickness measuring mechanism or the distance measuring mechanism is regulated, the glass size is detected, and compared with the traditional manual measurement, the glass measuring device has the advantages of high precision, high speed, convenience in operation and low labor intensity, and the glass can be rotated, the thickness measuring mechanism or the distance measuring mechanism can be regulated, so that the glass measuring device is suitable for glass measurement of different specifications, and universality is greatly improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

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

FIG. 3 is a schematic elevational view of the present utility model;

Fig. 4 is a schematic top view of the present utility model.

In the figure: 1 base, 2 rotation seat, 3 vacuum chuck, 4 first spouts, 5 slide, 6 first driving motor, 7 first driving screw, 8 electric putter, 9 mounting panel, 10 micrometer, 11 second spouts, 12 carriage, 13 second driving motor, 14 second driving screw, 15 guide rail groove, 16 third spouts, 17 slide, 18 third driving motor, 19 third driving screw, 20 micrometer gauge, 21 detection block, 22 fixed plate, 23 range sensor, 24 control panel.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model provides a technical scheme that the glass size information detection and collection device comprises a base 1, wherein a rotating seat 2 is rotatably arranged in the middle of the upper surface of the base 1, a servo motor is arranged in the base 1, an output shaft of the servo motor penetrates out of the upper surface of the base 1 and is fixedly connected with the rotating seat 2, a plurality of vacuum chucks 3 are uniformly arranged on the upper surface of the rotating seat 2 and are used for adsorbing and fixing glass to be detected, an adjustable thickness measuring mechanism is arranged on one side of the upper surface of the base 1, an adjustable distance measuring mechanism is arranged on the other side of the upper surface of the base 1, the glass to be measured is fixed above the rotating seat 2 through the vacuum chucks 3, then the rotating seat 2 drives the rotating seat to rotate, so that the part to be detected is rotated to the position of the thickness measuring mechanism or the distance measuring mechanism, the thickness measuring mechanism is adjusted and the glass size is detected.

One specific technical scheme of the thickness measuring mechanism comprises a sliding seat 5 which is arranged in a first sliding groove 4 formed in the upper surface of a base 1 in a sliding mode, a first driving mechanism which is used for driving the sliding seat 5 to slide in the first sliding groove 4 is arranged on the side surface of the base 1, an electric push rod 8 is arranged on the upper surface of the sliding seat 5, a mounting plate 9 is arranged on one side, facing to the rotating seat 2, of a movable end of the electric push rod 8, a micrometer 10 is arranged on the mounting plate 9, the micrometer 10 adopts a digital display type micrometer which is commonly used in the market and can be connected with a PLC controller, and the electric push rod 8 can adjust the height of the micrometer 10 by driving the mounting plate 9 to lift, so that a detection port of the micrometer 10 can be clamped on glass and detect the thickness of the glass.

The preferred technical scheme, first actuating mechanism is including setting up the first driving motor 6 at 1 side surface of base, the output shaft of first driving motor 6 penetrates in the first spout 4 and is connected with first drive screw 7 through the shaft coupling, screw threaded connection that sets up on first drive screw 7 and the slide 5, first driving motor 6 drives slide 5 through first drive screw 7 and slides in first spout 4, can adjust micrometer 10's position to carry out the size measurement to the glass of different length and width.

One preferable technical scheme of the distance measuring mechanism comprises a sliding frame 12 which is arranged in a second sliding groove 11 formed in the upper surface of a base 1 in a sliding way, and a second driving mechanism for driving the sliding frame 12 to slide in the second sliding groove 11 is arranged on the side surface of the base 1; two third sliding grooves 16 are symmetrically formed in the upper portion of the sliding frame 12 towards one side surface of the rotating seat 2, two sliding plates 17 are respectively and slidably arranged in the two third sliding grooves 16, a third driving motor 18 is mounted on the outer side surface of the sliding frame 12, an output shaft of the third driving motor 18 penetrates into the third sliding grooves 16 and is connected with a third driving screw 19 through a coupler, the third driving screw 19 is in threaded connection with screw holes formed in the two sliding plates 17, the directions of two sections of threads of the third driving screw 19 located in the two third sliding grooves 16 are opposite, the third driving motor 18 drives the two sliding plates 17 to move oppositely or oppositely through the third driving screw 19, before measurement, the two sliding plates 17 move to the farthest end under the driving of the third driving screw 19, when the to-be-measured end of glass rotates to one side of the sliding frame 12 under the driving of the rotating seat 2, the sliding frame 12 is driven by a second driving mechanism, then the third driving screw 19 is driven to rotate through the third driving motor 18, the two sliding plates 17 are relatively moved, the two sliding plates 17 are clamped, two opposite detection blocks 21 are respectively and correspondingly arranged on two opposite detection blocks 21 and two detection blocks 21 are respectively and fixedly arranged on two opposite detection blocks 21 and two detection blocks 23 respectively, and a corresponding detection device is arranged on two opposite detection sides of the two detection blocks 21 and a corresponding to the two detection blocks are respectively and a detection plate 21, then the distance measured by the two distance measuring sensors 23 and the thickness of the two sliding plates 17 are subtracted from the distance between the two distance measuring sensors 23, namely the length or the width of the glass, the operation of the measuring process is simple, the labor intensity of workers is reduced, the working efficiency is improved, and meanwhile, the special-shaped glass can be subjected to dimension measurement on different sides of the special-shaped glass, so that the universality is greatly improved.

The preferred technical scheme, second actuating mechanism includes setting up the second driving motor 13 at base 1 side surface, the output shaft of second driving motor 13 penetrates in the second spout 11 and is connected with second drive screw 14 through the shaft coupling, screw threaded connection that second drive screw 14 offered with carriage 12 side surface, second driving motor 13 drives carriage 12 through second drive screw 14 and removes in second spout 11 to adjust range finding mechanism's position, measure the length and the width of glass respectively, also be applicable to the glass size measurement of different specifications simultaneously.

According to an alternative technical scheme, the dial indicators 20 are arranged on the sliding plate 17, the dial indicators 20 are digital display type dial indicators which are commonly used in the market and can be connected with the PLC, the two dial indicators 20 are arranged oppositely, the height of the dial indicator 20 is slightly higher than the upper surface of the vacuum chuck 3, the dial indicators 20 contact the side edge of glass in the moving process of the sliding plate 17 during measurement, the third driving motor is turned off after the readings of the two dial indicators 20 are changed, then according to the readings of the ranging sensors 23 and the readings of the dial indicators 20, the distance measured by the two ranging sensors 23 is subtracted from the distance between the two ranging sensors 23, the length of the dial indicators 20 and the thickness of the two sliding plate 17, and then the displacement measured by the two dial indicators 20 is added, so that the length or width of the glass can be obtained, and the measurement accuracy is further improved.

The preferred technical scheme, the upper surface symmetry of base 1 has offered two guide rail grooves 15 that all are parallel with second spout 11, the symmetry is provided with two guide rails that slide the setting in guide rail groove 15 on the carriage 12, has guaranteed the stability when carriage 12 slides to the accuracy of measuring result has been guaranteed.

In a preferred technical scheme, a control panel 24 is obliquely arranged on the outer surface of the upper part of the sliding frame 12, a display screen and a PLC controller are respectively arranged on the control panel 24, the PLC controller is respectively electrically connected with a servo motor, a vacuum chuck 3, a first driving motor 6, a second driving motor 13, a third driving motor 18, an electric push rod 8, a micrometer 10, a distance measuring sensor 23, a micrometer 20 and the like, and the mode of controlling the electric devices by the PLC controller is a method commonly used in the prior art.

The PLC controller, the servo motor, the vacuum chuck 3, the first driving motor 6, the second driving motor 13, the third driving motor 18, the electric push rod 8, the micrometer 10, the distance measuring sensor 23, the micrometer 20 and the like used in the present application are all electronic components commonly used in the prior art, and the specific structure, the working principle, the circuit connection and the like are all known techniques and are not described in detail herein.

The non-disclosed parts of the utility model are all prior art, and the specific structure, materials and working principle thereof are not described in detail. Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The glass size information detection and acquisition equipment comprises a base (1) and is characterized in that a rotating seat (2) is rotatably arranged in the middle of the upper surface of the base (1), a servo motor is arranged in the base (1), an output shaft of the servo motor penetrates out of the upper surface of the base (1) and is fixedly connected with the rotating seat (2), a plurality of vacuum chucks (3) are uniformly arranged on the upper surface of the rotating seat (2), an adjustable thickness measuring mechanism is arranged on one side of the upper surface of the base (1), and an adjustable distance measuring mechanism is arranged on the other side of the upper surface of the base (1).

2. The glass size information detection and acquisition equipment according to claim 1 is characterized in that the thickness measuring mechanism comprises a sliding seat (5) which is arranged in a first sliding groove (4) formed in the upper surface of a base (1) in a sliding mode, a first driving mechanism used for driving the sliding seat (5) to slide in the first sliding groove (4) is arranged on the side surface of the base (1), an electric push rod (8) is arranged on the upper surface of the sliding seat (5), a mounting plate (9) is arranged on one side, facing the rotating seat (2), of a movable end of the electric push rod (8), and a micrometer (10) is arranged on the mounting plate (9).

3. The glass size information detection and acquisition device according to claim 2, wherein the first driving mechanism comprises a first driving motor (6) arranged on the side surface of the base (1), an output shaft of the first driving motor (6) penetrates into the first sliding groove (4) and is connected with a first driving screw (7) through a coupler, and the first driving screw (7) is in threaded connection with a screw hole formed in the sliding seat (5).

4. The glass size information detection and acquisition device according to claim 1, wherein the distance measuring mechanism comprises a sliding frame (12) which is arranged in a second sliding groove (11) formed in the upper surface of the base (1) in a sliding manner, and a second driving mechanism for driving the sliding frame (12) to slide in the second sliding groove (11) is arranged on the side surface of the base (1); two third sliding grooves (16) are symmetrically formed in the upper portion of the sliding frame (12) towards one side surface of the rotating seat (2), two sliding plates (17) are respectively arranged on the two third sliding grooves (16) in a sliding mode, a third driving motor (18) is mounted on the outer side surface of the sliding frame (12), an output shaft of the third driving motor (18) penetrates into the third sliding grooves (16) and is connected with a third driving screw (19) through a coupler, the third driving screw (19) is in threaded connection with screw holes formed in the two sliding plates (17), the directions of two sections of threads formed in the two sliding plates (17) are opposite, detection blocks (21) are respectively mounted on two opposite sides of the two sliding plates (17), two fixing plates (22) are symmetrically arranged at two ends of the side surfaces of the sliding frame (12), and a distance measuring sensor (23) matched with the corresponding detection blocks (21) are respectively arranged on opposite sides of the fixing plates (22).

5. The glass size information detection and acquisition device according to claim 4, wherein the second driving mechanism comprises a second driving motor (13) arranged on the side surface of the base (1), an output shaft of the second driving motor (13) penetrates into the second sliding groove (11) and is connected with a second driving screw (14) through a coupler, and the second driving screw (14) is in threaded connection with a screw hole formed in the side surface of the sliding frame (12).

6. The glass size information detection and acquisition device according to claim 4, wherein the dial indicator (20) is arranged on the sliding plate (17), and the gauge heads of the two dial indicators (20) are arranged oppositely.

7. The glass size information detection and acquisition device according to claim 4, wherein two guide rail grooves (15) parallel to the second sliding groove (11) are symmetrically formed in the upper surface of the base (1), and two guide rails which are slidably arranged in the guide rail grooves (15) are symmetrically arranged on the sliding frame (12).

8. A glass-size information-detecting and collecting device according to any one of claims 4 to 7, characterized in that the upper outer side surface of the carriage (12) is provided with a control panel (24) in an inclined manner.