CN118914585B

CN118914585B - Full-automatic glass quality detection device

Info

Publication number: CN118914585B
Application number: CN202410993125.2A
Authority: CN
Inventors: 林江平; 李国峰; 刘佳; 史刚社; 许新猴; 秦进宝; 何杰
Original assignee: China Building Material Tongcheng New Material Co ltd
Current assignee: China Building Material Tongcheng New Material Co ltd
Priority date: 2024-07-23
Filing date: 2024-07-23
Publication date: 2025-07-22
Anticipated expiration: 2044-07-23
Also published as: CN118914585A

Abstract

The invention discloses a full-automatic glass quality detection device, which comprises a mounting frame, wherein a transverse table is arranged above the mounting frame, an accurate pressure detection mechanism for detecting all parts on the surface of glass is arranged on the transverse table, the accurate pressure detection mechanism comprises a plurality of fixing pipes fixed at the bottom of the transverse table, and a plurality of pressure rods are connected to the top of the transverse table in a sliding manner. According to the full-automatic glass quality detection device, through the arrangement of the accurate pressure detection mechanism, the pressure detection is sequentially carried out on all parts of the glass surface from left to right, the bearing pressure data of all parts of the glass can be comprehensively detected until the glass is broken, and the minimum bearing pressure value in all parts is detected, so that the minimum bearing pressure of the glass is accurately detected, and compared with the mode of integral pressure detection, the detection means is more accurate.

Description

Full-automatic glass quality detection device

Technical Field

The invention relates to the technical field of glass detection, in particular to a full-automatic glass quality detection device.

Background

The traditional glass quality detection is mostly dependent on manual visual inspection, so that the efficiency is low, and the accuracy and consistency of the detection result are difficult to ensure. With the development of industrial automation and machine vision technologies, glass quality detection gradually develops to automation and intellectualization.

Referring to Chinese patent, the application number is 202110488493.8, the patent solves the problems that the transparency detection is needed by manpower during the production of laminated glass, the manual detection is time-consuming and labor-consuming, the efficiency is low, the production of enterprises is not facilitated, meanwhile, the detection is incomplete, defective products cannot be removed, and the defect that the height of a support frame can be adjusted only by frequently disassembling and installing screws still exists;

however, when the existing glass quality detection device is used for pressure test of glass, the following defects exist:

(1) In order to test the maximum pressure which can be borne by the glass, the pressure is often regulated to be enough to break the glass, but the minimum bearing pressure of the glass cannot be accurately detected when the whole glass is subjected to pressure test because the pressure which can be borne by all parts of the surface of the glass after the glass is produced and molded is also different;

(2) Before pressure detection, if dust and impurities adhere to the surface of the glass, the pressure can be increased during detection, so that the glass is rapidly broken, and the accuracy of a detection result is affected;

for this purpose we propose a fully automatic glass quality detection device to solve the above problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a full-automatic glass quality detection device, which solves the problems in the background art.

The full-automatic glass quality detection device comprises a mounting frame, wherein a transverse table is arranged above the mounting frame, and an accurate pressure detection mechanism for detecting all parts on the surface of glass is arranged on the transverse table;

The accurate pressure detection mechanism is including fixing a plurality of fixed pipes in the horizontal platform bottom, the top sliding connection of horizontal platform has a plurality of pressure bars, the bottom of pressure bar runs through horizontal platform and fixed pipe and extends to the bottom of fixed pipe, the bottom mounting of pressure bar has the pressure head, install pressure sensor on the pressure head, the top of pressure bar is fixed with hemispherical protrusion, the surface fixing of pressure bar has the plectane, the surface and the internal surface sliding connection of fixed pipe of plectane, the surface cover of pressure bar is equipped with the spring, the top and the inner wall fixed of fixed pipe of spring are fixed, the bottom and the top of plectane of spring are fixed, the top of horizontal platform is provided with the order of driving the pressure bar and pushes down the subassembly in proper order, still be provided with the drive subassembly that drives the order and push down the subassembly and remove on the horizontal platform.

Preferably, the sequential pressing assembly comprises two vertical plates fixed at the tops of the transverse tables, a screw rod is rotatably connected between opposite sides of the two vertical plates, and a transverse plate is fixed between the tops of the two vertical plates.

Preferably, the bottom sliding connection of diaphragm has the removal seat, the one end of lead screw runs through the removal seat and extends to the outside of removing the seat, the surface of lead screw and the internal surface threaded connection who removes the seat, the bottom of removing the seat is fixed with the arc seat, arc seat and hemisphere protruding contact extrusion, one side of riser is fixed with motor one, motor one drives the lead screw and rotates.

Preferably, the driving assembly comprises four fixing plates fixed on the top of the transverse platform, wherein a threaded rod is rotatably connected between opposite sides of two fixing plates, a cross rod is fixed between opposite sides of the other two fixing plates, and one ends of the cross rod and the threaded rod penetrate through the vertical plate and extend to the outside of the vertical plate.

Preferably, the outer surface of horizontal pole and the internal surface sliding connection of riser, the surface of threaded rod and the internal surface threaded connection of riser, one side of fixed plate is fixed with motor two, motor two drives the threaded rod and rotates.

Preferably, the internally mounted of mounting bracket has the conveyer belt, the inside of mounting bracket still rotates and is connected with a plurality of feed rolls, on the mounting bracket, and be located the below of feed roll and install and connect the workbin, the top of mounting bracket is fixed with four electric telescopic handle, four electric telescopic handle's output is all fixed with the bottom of horizontal platform.

Preferably, the movable seat is provided with a rotary cleaning assembly for cleaning glass, the rotary cleaning assembly comprises an L-shaped rod I fixed on one side of the movable seat, the bottom end of the L-shaped rod I is rotationally connected with a cleaning plate through a flexible shaft, and bristles are fixed at the bottom of the cleaning plate.

Preferably, the first broken glass pushing unit for pushing out and cleaning broken glass in the material receiving box is arranged on the first L-shaped rod, the broken glass pushing unit comprises a second L-shaped rod fixed on one side of the first L-shaped rod, a connecting plate is fixed at the bottom end of the second L-shaped rod, a push rod is fixed on one side of the connecting plate, one end of the push rod penetrates through one side of the material receiving box and extends to the inside of the material receiving box, a push plate is fixed at one end of the push rod, and the bottom of the push plate is in sliding connection with the bottom wall of the material receiving box.

Advantageous effects

The invention provides a full-automatic glass quality detection device. Compared with the prior art, the device has the following

The beneficial effects are that:

(1) By setting the accurate pressure detection mechanism, the pressure detection is sequentially carried out on all parts of the glass surface from left to right from front to back, the pressure data born by all parts of the glass can be comprehensively measured until the glass is broken, and the minimum pressure bearing value in all parts is measured, so that the minimum pressure bearing of the glass is accurately detected, and compared with the mode of integrally detecting the pressure, the detection means of the invention is more accurate.

(2) Through the setting of rotation type cleaning assembly, before test glass's pressure, rotate clearance board and brush hair to glass top, further start motor one, motor one drives and removes seat and brush hair left and right sides and remove, thereby when having avoided dust and impurity adhesion to glass surface, can increase pressure when pressure detection, lead to glass quick rupture, and then promoted the accuracy of testing result, on the other hand rotation type cleaning assembly is with the linkage of order pressing assembly, when need use rotation type cleaning assembly, the height of adjustment transverse bench, avoid the pressure head to contact glass, when need not use rotation type cleaning assembly, rotate clearance board and brush hair one hundred eighty degrees, reduce the height of transverse bench, carry out the pressure test.

(3) Through the setting of garrulous glass ejecting unit, at the in-process of pressing the subassembly work in proper order, can drive garrulous glass ejecting unit work in step, can press the test on one side, release the clearance of broken glass after the last test, accurate pressure detection mechanism, rotation formula clean subassembly and garrulous glass ejecting unit three link mutually, and degree of automation is high, has promoted detection efficiency by a wide margin.

Drawings

FIG. 1 is a perspective view of an external structure of the present invention;

FIG. 2 is a partial structural perspective view of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is a partial structural rear view of the present invention;

FIG. 5 is a cross-sectional view of the present invention;

FIG. 6 is a cross-sectional view of a stationary tube of the present invention;

Fig. 7 is a perspective view of the rotary cleaning assembly and cullet pushing unit of the present invention.

In the figure, 1, a mounting frame, 2, a transverse table, 3, a precise pressure detection mechanism, 4, a conveyor belt, 5, a feeding roller, 6, a receiving box, 7, a rotary cleaning assembly, 8, a broken glass pushing unit, 9, an electric telescopic rod, 31, a fixed pipe, 32, a pressure rod, a pressure head, 34, a hemispherical protrusion, 35, a circular plate, 36, a spring, 37, a sequential pressing assembly, 38, a driving assembly, 371, a vertical plate, 372, a screw rod, 373, a transverse plate, 374, a moving seat, 375, an arc seat, 376, a motor I, 381, a fixing plate, 382, a threaded rod, 383, a transverse rod, 384, a motor II, 71, an L-shaped rod I, 72, a flexible shaft, 73, a cleaning plate, 74, bristles, 81, an L-shaped rod II, 82, a connecting plate, 83, a push rod, 84 and a push plate.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides three technical schemes, which specifically comprise the following embodiments:

Example 1

Referring to fig. 1-6, a full-automatic glass quality detection device comprises a mounting frame 1, wherein a transverse table 2 is arranged above the mounting frame 1, and an accurate pressure detection mechanism 3 for detecting all parts on the surface of glass is arranged on the transverse table 2;

the accurate pressure detection mechanism 3 includes a plurality of fixed pipes 31 of fixing in the horizontal platform 2 bottom, the top sliding connection of horizontal platform 2 has a plurality of pressure bars 32, the bottom of pressure bar 32 runs through horizontal platform 2 and fixed pipe 31 and extends to the bottom of fixed pipe 31, the bottom mounting of pressure bar 32 has pressure head 33, pressure head 33 adopts the hard rubber materials, can deform, prevent that pressure head 33 and glass rigidity contact, lead to glass to break fast, influence the accuracy of test result, install pressure sensor (not shown in the figure) on the pressure head 33, pressure sensor and outside pressure analyzer electric connection, can give pressure sensor with the pressure on the pressure head 33 during the detection, rethread pressure analyzer shows pressure data, the top of pressure bar 32 is fixed with hemisphere arch 34, the surface of pressure bar 32 is fixed with plectane 35, the surface of plectane 35 and the internal surface sliding connection of fixed pipe 31, the surface cover of pressure bar 32 is equipped with spring 36, the top of spring 36 and the inner wall of fixed pipe 31 are fixed, the bottom of spring 36 and the top of plectane 35 are fixed, the top of horizontal platform 2 has the pressure bar 32 to drive down in proper order and move down, the order is pressed down and is pressed the subassembly 37 and is still set up and is pressed down the subassembly 37 and is pressed down in order and is driven the subassembly and is pressed down in order and is driven down.

By means of the arrangement of the accurate pressure detection mechanism 3, pressure detection is sequentially carried out on all parts of the glass surface from left to right and from front to back, pressure data born by all parts of the glass can be comprehensively measured until the glass is broken, and the minimum bearing pressure value in all parts is measured, so that the minimum bearing pressure of the glass is accurately detected, and compared with the mode of integrally detecting the pressure, the detection means are more accurate.

The internally mounted of mounting bracket 1 has conveyer belt 4, conveyer belt 4 bit prior art, receive outside switch control, and with external power source electric connection, can transmit glass left to the material loading roller 5 after the conveyer belt 4 starts, the inside of mounting bracket 1 still rotates and is connected with a plurality of material loading rollers 5, it has glass to roll on the material loading roller 5, on the mounting bracket 1, and connect workbin 6 is installed to the below that is located material loading roller 5, connect workbin 6 to be used for collecting the glass piece after the pressure test, the top of mounting bracket 1 is fixed with four electric telescopic handle 9, four electric telescopic handle 9 receive outside same switch control, and with external power source electric connection, the output of four electric telescopic handle 9 is all fixed with the bottom of horizontal platform 2, electric telescopic handle 9 can drive horizontal platform 2 lift height-adjusting.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 4, the sequential pressing assembly 37 includes two risers 371 fixed on the top of the traverse table 2, a screw 372 rotatably connected between opposite sides of the two risers 371, and a traverse plate 373 fixed between the tops of the two risers 371.

The bottom sliding connection of diaphragm 373 has removes seat 374, and the one end of lead screw 372 runs through and removes seat 374 and extends to the outside of removing seat 374, and the surface of lead screw 372 and the internal surface threaded connection who removes seat 374, the bottom of removing seat 374 is fixed with arc seat 375, arc seat 375 and hemisphere protruding 34 contact extrusion, and one side of riser 371 is fixed with motor one 376, and motor one 376 is three-phase asynchronous motor, can carry out positive and negative rotation, receives outside switch control, and with external power supply electric connection, motor one 376 drives the rotation of lead screw 372, and the output of motor one 376 is fixed with the one end of lead screw 372 through the shaft coupling.

The driving assembly 38 comprises four fixing plates 381 fixed on the top of the transverse table 2, wherein a threaded rod 382 is rotatably connected between opposite sides of the two fixing plates 381, a cross rod 383 is fixed between opposite sides of the other two fixing plates 381, and one ends of the cross rod 383 and the threaded rod 382 penetrate through the vertical plate 371 and extend to the outside of the vertical plate 371.

The surface of horizontal pole 383 and the internal surface sliding connection of riser 371, the surface of threaded rod 382 and the internal surface threaded connection of riser 371, one side of fixed plate 381 is fixed with motor two 384, and motor two 384 is three-phase asynchronous motor, can just reverse, is controlled by external switch, and with external power supply electric connection, and motor two 384 drives threaded rod 382 and rotates, and the output of motor two 384 is fixed with the one end of threaded rod 382 through the shaft coupling.

Example 3

On the basis of embodiment 2, referring to fig. 2,4 and 7, a rotary cleaning assembly 7 for cleaning glass is provided on a movable seat 374, the rotary cleaning assembly 7 comprises an L-shaped rod 71 fixed on one side of the movable seat 374, a cleaning plate 73 is rotatably connected to the bottom end of the L-shaped rod 71 through a flexible shaft 72, bristles 74 are fixed to the bottom of the cleaning plate 73, and the bristles 74 can clean dust and impurities on the top of the glass.

Through setting up of rotation type cleaning component 7, before the pressure of test glass, rotate cleaning plate 73 and brush hair 74 to the glass top, further start motor one 376, motor one 376 drives and removes seat 374 and brush hair 74 left and right movement, brush hair 74 is cleared up dust and impurity at glass top, thereby when having avoided dust and impurity adhesion to glass surface, during the pressure detection, can increase pressure, can lead to glass to break fast, and then the accuracy of testing result has been promoted, on the other hand rotation type cleaning component 7 links with order pressing component 37, when needing to use rotation type cleaning component 7, the height of adjusting up transverse platform 2, avoid pressure head 33 to contact glass, when need not use rotation type cleaning component 7, rotate cleaning plate 73 and brush hair 74 one hundred eighty degrees, reduce transverse platform 2's height, carry out the pressure test.

The first L-shaped rod 71 is provided with a broken glass pushing-out unit 8 for pushing out and cleaning broken glass in the material receiving box 6, the broken glass pushing-out unit 8 comprises a second L-shaped rod 81 fixed on one side of the first L-shaped rod 71, a connecting plate 82 is fixed at the bottom end of the second L-shaped rod 81, a push rod 83 is fixed at one side of the connecting plate 82, one end of the push rod 83 penetrates through one side of the material receiving box 6 and extends to the inside of the material receiving box 6, a push plate 84 is fixed at one end of the push rod 83, the bottom of the push plate 84 is in sliding connection with the bottom wall of the material receiving box 6, and when the push plate 84 moves leftwards, broken glass in the material receiving box 6 can be pushed out.

Through the setting of garrulous glass ejecting unit 8, at the in-process of pressing the subassembly 37 work in proper order, can drive garrulous glass ejecting unit 8 work in step, can press the test on one side, release the clearance of broken glass after the last test, accurate pressure detection mechanism 3, rotation formula cleaning assembly 7 and garrulous glass ejecting unit 8 three link mutually, and degree of automation is high, has promoted detection efficiency by a wide margin.

And all that is not described in detail in this specification is well known to those skilled in the art.

In operation, the glass to be detected is placed on the conveyor belt 4, the conveyor belt 4 is further started, the conveyor belt 4 conveys the glass to the feeding roller 5, the cleaning plate 73 is rotated around the flexible shaft 72 to the upper part of the feeding roller 5, the four electric telescopic rods 9 are further started, the electric telescopic rods 9 drive the bristles 74 to contact the glass, the motor one 376 is further started, the first motor 376 drives the screw rod 372 to rotate, the screw rod 372 drives the movable seat 374 to move left and right, the movable seat 374 drives the first L-shaped rod 71, the cleaning plate 73 and the bristles 74 to move, dust impurities on the surface of glass are cleaned by the left and right movement of the bristles 74, after cleaning, the cleaning plate 73 is rotated by one hundred eighty degrees around the flexible shaft 72, turning away from the upper part of the feeding roller 5, at this time, starting the electric telescopic rod 9 again to enable the transverse table 2 to move downwards, driving the pressure head 33 to contact with the top of glass, at this time, driving the arc-shaped seat 375 to contact and extrude with the hemispherical protrusions 34 in sequence in the process of moving the seat 374 left and right, enabling the arc-shaped seat 375 to move back and forth through starting the motor II 384, so as to realize pressure detection on all parts of the glass in sequence by using the pressure head 33, after the pressure detection, if the glass is broken, collecting the broken glass by using the material receiving box 6, and when the broken glass needs to be cleaned out, driving the L-shaped rod II 81, the connecting plate 82, the push rod 83 and the push plate 84 to move leftwards by using the process of moving the seat 374, and finally pushing the broken glass out, so as to realize cleaning.

The foregoing detailed description of the embodiments of the invention has been provided for the purpose of illustrating the preferred embodiments of the invention and is not to be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The full-automatic glass quality detection device comprises a mounting frame (1) and is characterized in that a transverse table (2) is arranged above the mounting frame (1), and an accurate pressure detection mechanism (3) for detecting all parts on the surface of glass is arranged on the transverse table (2);

The accurate pressure detection mechanism (3) comprises a plurality of fixed pipes (31) fixed at the bottom of the transverse table (2), a plurality of pressure rods (32) are slidably connected to the top of the transverse table (2), the bottom ends of the pressure rods (32) penetrate through the transverse table (2) and the fixed pipes (31) and extend to the bottom ends of the fixed pipes (31), a pressure head (33) is fixed at the bottom ends of the pressure rods (32), a pressure sensor is mounted on the pressure head (33), hemispherical bulges (34) are fixed at the top ends of the pressure rods (32), a circular plate (35) is fixed on the outer surface of the pressure rods (32), a spring (36) is sleeved on the outer surface of the circular plate (35), the top ends of the spring (36) are fixed with the inner wall of the fixed pipes (31), a sequential pressing assembly (37) driving the pressure rods (32) to move downwards is arranged at the top of the transverse table (2), and a sequential pressing assembly (37) is further arranged on the transverse table (2);

The sequential pressing assembly (37) comprises a movable seat (374), a rotary cleaning assembly (7) for cleaning glass is arranged on the movable seat (374), the rotary cleaning assembly (7) comprises an L-shaped rod I (71) fixed on one side of the movable seat (374), a cleaning plate (73) is rotatably connected to the bottom end of the L-shaped rod I (71) through a flexible shaft (72), and bristles (74) are fixed at the bottom of the cleaning plate (73);

The novel glass crushing machine is characterized in that a glass crushing pushing-out unit (8) for pushing out and cleaning glass crushed in the material receiving box (6) is arranged on the first L-shaped rod (71), the glass crushing pushing-out unit (8) comprises a second L-shaped rod (81) fixed on one side of the first L-shaped rod (71), a connecting plate (82) is fixed at the bottom end of the second L-shaped rod (81), a push rod (83) is fixed on one side of the connecting plate (82), one end of the push rod (83) penetrates through one side of the material receiving box (6) and extends into the material receiving box (6), a push plate (84) is fixed at one end of the push rod (83), and the bottom of the push plate (84) is in sliding connection with the bottom wall of the material receiving box (6);

The rotary cleaning assembly (7) is linked with the sequential pressing assembly (37), when the rotary cleaning assembly (7) is needed, the height of the transverse table (2) is increased, the pressure head (33) is prevented from contacting glass, and when the rotary cleaning assembly (7) is not needed, the cleaning plate (73) and the bristles (74) are rotated for one hundred eighty degrees, the height of the transverse table (2) is reduced, and pressure test is performed.

2. The full-automatic glass quality detection device according to claim 1, wherein the sequential pressing assembly (37) comprises two vertical plates (371) fixed at the top of the transverse platform (2), a screw rod (372) is rotatably connected between opposite sides of the two vertical plates (371), and a transverse plate (373) is fixed between the tops of the two vertical plates (371).

3. The full-automatic glass quality detection device according to claim 2, wherein the bottom of the transverse plate (373) is slidably connected with a movable seat (374), one end of the screw rod (372) penetrates through the movable seat (374) and extends to the outside of the movable seat (374), the outer surface of the screw rod (372) is in threaded connection with the inner surface of the movable seat (374), an arc-shaped seat (375) is fixed at the bottom of the movable seat (374), the arc-shaped seat (375) is extruded in contact with the hemispherical protrusion (34), a motor I (376) is fixed on one side of the vertical plate (371), and the motor I (376) drives the screw rod (372) to rotate.

4. A full automatic glass quality inspection device according to claim 1, wherein the driving assembly (38) comprises four fixing plates (381) fixed on the top of the transverse platform (2), wherein a threaded rod (382) is rotatably connected between opposite sides of two fixing plates (381), a cross rod (383) is fixed between opposite sides of the other two fixing plates (381), and one end of each of the cross rod (383) and one end of each of the threaded rods (382) penetrate through the vertical plate (371) and extend to the outside of the vertical plate (371).

5. The device for automatically detecting the quality of glass according to claim 4, wherein the outer surface of the cross rod (383) is slidably connected with the inner surface of the vertical plate (371), the outer surface of the threaded rod (382) is in threaded connection with the inner surface of the vertical plate (371), a motor two (384) is fixed on one side of the fixing plate (381), and the motor two (384) drives the threaded rod to rotate.

6. The full-automatic glass quality detection device according to claim 1, wherein a conveyor belt (4) is arranged in the mounting frame (1), a plurality of feeding rollers (5) are further rotatably connected in the mounting frame (1), a material receiving box (6) is arranged on the mounting frame (1) and below the feeding rollers (5), four electric telescopic rods (9) are fixed at the top of the mounting frame (1), and the output ends of the four electric telescopic rods (9) are fixed with the bottom of the transverse table (2).