CN215491549U - Automatic glass measuring system - Google Patents

Abstract

The utility model relates to the technical field of glass measurement, in particular to an automatic glass measurement system which comprises a conveying frame, wherein conveying rollers distributed in an array mode are arranged at the top of the conveying frame, a lifting device is arranged below the conveying frame, a measurement frame is arranged above the conveying frame, and a measurement assembly is arranged on the measurement frame; the glass conveying device can drive the lifting plate to move up and down through the electric push rod, so that the lifting plate drives the lifting rod to move up and down, the anti-skid block pushes glass on the conveying roller to move up and down, the glass is convenient to detect, the motor runs to drive the first conical gear to rotate through the second conical gear, the first screw and the second screw are rotated, the sliding block moves on the sliding rod, the detection probe is driven to move towards the glass, in the moving process, the external controller controls the detection probe to carry out multiple measurements, and size data are transmitted to the external controller, so that automatic measurement is realized, and the measurement error of the glass is reduced.

Description

Automatic glass measuring system

Technical Field

The utility model relates to the technical field of glass measurement, in particular to an automatic glass measurement system.

Background

The glass is an amorphous solid with a random structure, which is prepared by taking quartz sand, soda ash, feldspar, limestone and the like as raw materials, mixing, melting at high temperature, homogenizing, processing, forming and annealing, and has the functions of isolating wind, transmitting light, enhancing the aesthetic effect and the like. The method is widely applied to the fields of buildings, daily use, art, medical treatment, chemistry, electronics, instruments, nuclear engineering and the like.

After the glass is produced, the size of the glass generally needs to be measured, so that the glass with unqualified size is screened out, and the glass is convenient to use. The existing glass size measurement is mostly carried out manually, the measurement efficiency is low, the produced glass cannot be measured quickly, the production efficiency and the detection efficiency of the glass are affected, and in addition, when the glass size is measured manually, certain errors are easy to generate, and the screening of unqualified products is affected. In view of this, we propose an automatic glass measurement system.

SUMMERY OF THE UTILITY MODEL

In order to make up for the above deficiencies, the utility model provides an automatic glass measuring system.

The technical scheme of the utility model is as follows:

automatic glass measuring system, including the carriage, the top of carriage is equipped with array distribution's conveying roller, each the axis of rotation of conveying roller all runs through the carriage, and rotates with the carriage and be connected, the below of carriage just is close to center department and is equipped with elevating gear, elevating gear comprises mount and the lifter plate that is parallel to each other, the mount is located the below of lifter plate, and with carriage welded fastening, the top of carriage just is close to center department welded fastening and has the measuring rack, the last measuring component that installs of measuring rack, measuring component includes first screw rod and second screw rod, first screw rod comprises the threaded rod of two sets of bilateral symmetry, the second screw rod comprises the threaded rod of two sets of longitudinal symmetries, mutually perpendicular between first screw rod and the second screw rod.

As the preferred technical scheme, install electric putter on the mount, electric putter's piston rod top and the bottom welded fastening of lifter plate, the bottom of lifter plate just is close to the equal welded fastening of four corners department and has a gag lever post, each the gag lever post all runs through the mount, and with mount sliding connection, the below that just is located the mount on the gag lever post is provided with the stopper.

According to a preferable technical scheme, lifting rods distributed in an array mode are welded and fixed to the top of the lifting plate, the lifting rods and the conveying rollers are distributed at intervals, and anti-skidding blocks are arranged on the tops of the lifting rods.

As an optimized technical scheme, a first sliding groove and a second sliding groove which are perpendicular to each other are formed in the measuring frame, the first sliding groove is located below the first screw rod, the second sliding groove is located below the second screw rod, fixed blocks are welded and fixed at the top of the measuring frame and at the edge close to the first sliding groove and the second sliding groove, sliding rods are arranged in the first sliding groove and the second sliding groove, and the two ends of each sliding rod are welded and fixed with the measuring frame respectively.

As preferred technical scheme, the top of measuring rack just is close to center department and is provided with the set casing, first screw rod the one end that the second screw rod is close to the set casing all runs through the set casing, and rotates with the set casing and be connected, first screw rod the one end that the second screw rod is close to the fixed block all runs through the fixed block, and rotates with the fixed block and be connected, first screw rod all be equipped with the slider on the second screw rod, the slider respectively with first screw rod and second screw rod threaded connection, the slider respectively with corresponding first spout, second spout and slide bar sliding connection, the bottom of slider just is located the below of measuring rack and installs test probe.

As a preferred technical solution, first bevel gears are mounted on the first screw rod and the second screw rod and inside the fixing shell, a motor is mounted on the top of the fixing shell, an output shaft of the motor penetrates through the top of the fixing shell and extends into the fixing shell, a second bevel gear is mounted on the output shaft of the motor and inside the fixing shell, and the second bevel gears are respectively engaged with the first bevel gears.

As a preferable technical scheme, the bottom of the conveying frame and the positions close to the four corners are fixedly welded with the supports.

According to the preferable technical scheme, belt pulleys are mounted on the rotating shafts of the conveying rollers and located on the front side of the conveying frame, the belt pulleys are in sleeve connection transmission through belts, a motor frame is fixedly welded on the upper right corner of the conveying frame, a motor is mounted on the motor frame, and an output shaft of the motor is coaxially connected with the rotating shaft of the rightmost conveying roller.

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

1. the glass conveying device can drive the lifting plate to move up and down through the electric push rod, so that the lifting plate drives the lifting rod to move up and down, the anti-skid block pushes glass on the conveying roller to move up and down, the glass is convenient to detect, the motor runs to drive the first conical gear to rotate through the second conical gear, the first screw and the second screw are rotated, the sliding block moves on the sliding rod, the detection probe is driven to move towards the glass, in the moving process, the external controller controls the detection probe to carry out multiple measurements, and size data are transmitted to the external controller, so that automatic measurement is realized, and the measurement error of the glass is reduced.

2. The glass conveying device is provided with the motor, the motor can drive the rightmost conveying roller to rotate when running, all the conveying rollers can rotate through transmission of the belt pulley and the belt, and therefore glass is conveyed and measurement is convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1 of the present invention;

fig. 2 is a schematic structural view of a lifting device according to embodiment 1 of the present invention;

fig. 3 is a schematic diagram of a lifter plate structure according to embodiment 1 of the present invention;

FIG. 4 is a schematic structural view of a measuring stand according to embodiment 1 of the present invention;

FIG. 5 is an exploded view of a measuring unit according to embodiment 1 of the present invention;

fig. 6 is a schematic view of the overall structure of embodiment 2 of the present invention.

In the figure:

1. a carriage; 11. a support; 2. a conveying roller; 21. a belt pulley; 22. a belt; 23. a motor frame; 24. a motor; 3. a lifting device; 31. a fixed mount; 32. a lifting plate; 33. an electric push rod; 34. a limiting rod; 341. a limiting block; 35. a lifting rod; 351. anti-skid blocks; 4. a measuring frame; 41. a first chute; 42. a second chute; 43. a fixed block; 44. a slide bar; 5. a measurement assembly; 51. a first screw; 52. a second screw; 53. a stationary case; 54. a slider; 55. detecting a probe; 56. a first bevel gear; 57. a second bevel gear; 58. a motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Example 1

Referring to fig. 1 to 5, the present embodiment provides a technical solution:

automatic glass measurement system, including carriage 1, carriage 1's top is equipped with array distribution's conveying roller 2, carriage 1 is all run through in the axis of rotation of each conveying roller 2, and rotate with carriage 1 and be connected, carriage 1's below and be close to center department and be equipped with elevating gear 3, elevating gear 3 comprises mount 31 and lifter plate 32 that are parallel to each other, mount 31 is located lifter plate 32's below, and with carriage 1 welded fastening, carriage 1's top and be close to center department welded fastening have measuring rack 4, install measuring component 5 on the measuring rack 4, measuring component 5 includes first screw 51 and second screw 52, first screw 51 comprises two sets of bilateral symmetry's threaded rod, second screw 52 comprises two sets of front and back symmetry's threaded rod, mutually perpendicular between first screw 51 and the second screw 52.

Preferably as this embodiment, install electric putter 33 on mount 31, electric putter 33's piston rod top and lifter plate 32's bottom welded fastening, electric putter 33 operation can drive lifter plate 32 and reciprocate, thereby it reciprocates to drive glass, conveniently measure, lifter plate 32's bottom and be close to the equal welded fastening of four corners department and have stopper 34, each stopper 34 all runs through mount 31, and with mount 31 sliding connection, stopper 34 plays the limiting displacement to lifter plate 32, improve the stability when lifter plate 32 reciprocates, on the stopper 34 and be located the below of mount 31 and be provided with stopper 341, stopper 341 plays the limiting displacement to stopper 34, can prevent that stopper 34 from breaking away from mount 31.

Preferably as this embodiment, the top welded fastening of lifter 32 has the lifter 35 of array distribution, lifter 35 and conveying roller 2 interval distribution, lifter 32 reciprocates and can drive lifter 35 and remove, makes lifter 35 promote the glass on the conveying roller 2 to measure glass, the top of lifter 35 is provided with non slipping spur 351, non slipping spur 351 adopts silica gel material to constitute, when preventing that glass from sliding, the reinforcing is to glass's safeguard effect, avoids glass to damage.

Preferably, the first sliding groove 41 and the second sliding groove 42 are formed in the measuring frame 4 and are perpendicular to each other, the first sliding groove 41 is located below the first screw 51, the second sliding groove 42 is located below the second screw 52, the top of the measuring frame 4 and the edges of the first sliding groove 41 and the second sliding groove 42 are welded and fixed with the fixing blocks 43, the first sliding groove 41 and the second sliding groove 42 limit the sliding blocks 54, the stability of the sliding blocks 54 can be improved, the sliding rods 44 are arranged inside the first sliding groove 41 and the second sliding groove 42, two ends of the sliding rods 44 are welded and fixed with the measuring frame 4 respectively, the sliding blocks 54 are convenient to slide through the sliding rods 44, and therefore measurement is convenient.

Preferably, a fixed shell 53 is disposed at the top of the measuring frame 4 and near the center, one ends of the first screw 51 and the second screw 52 near the fixed shell 53 penetrate through the fixed shell 53 and are rotatably connected with the fixed shell 53, one ends of the first screw 51 and the second screw 52 near the fixed block 43 penetrate through the fixed block 43 and are rotatably connected with the fixed block 43, a slider 54 is disposed on each of the first screw 51 and the second screw 52, the slider 54 is respectively in threaded connection with the first screw 51 and the second screw 52, the first screw 51 and the slider 54 move relatively to drive the slider 54 to move to measure the length of the glass, the second screw 52 and the slider 54 move relatively to drive the slider 54 to move to measure the width of the glass, so as to measure the size of the glass, the slider 54 is respectively in sliding connection with the corresponding first chute 41, second chute 42 and sliding rod 44, the bottom of the sliding block 54 and the lower part of the measuring frame 4 are provided with the detecting probe 55, the detecting probe 55 adopts an infrared distance measuring sensor, the infrared distance measuring sensor is provided with a pair of infrared signal transmitting and receiving diodes, the infrared distance measuring sensor is used for transmitting a beam of infrared light, a reflecting process is formed after the infrared distance measuring sensor irradiates an object, the infrared distance measuring sensor reflects the infrared signal to the sensor and receives the signal, the CCD image is used for processing and receiving the data of the time difference between the transmission and the reception, the distance of the object is calculated after the signal processor is used for processing, when the detecting probe 55 moves along with the sliding block 54, the infrared light can be transmitted for multiple times for data measurement, the signal processor is used for processing for multiple times according to the data to obtain the accurate size of the glass, and therefore the measuring error is reduced.

Preferably, the first and second screws 51 and 52 are each provided with a first bevel gear 56 inside the fixed casing 53, the top of the fixed casing 53 is provided with a motor 58, an output shaft of the motor 58 penetrates through the top of the fixed casing 53 and extends into the fixed casing 53, a second bevel gear 57 is provided on the output shaft of the motor 58 and inside the fixed casing 53, the second bevel gears 57 are respectively engaged with the first bevel gears 56, the motor 58 is operated to drive the second bevel gears 57 to rotate, and the first and second screws 51 and 52 are rotated through the engagement transmission of the first bevel gears 56, so as to drive the detection probe 55 to move for data measurement.

In the specific use process, the electric push rod 33 operates to push the lifting plate 32 to move upwards through the piston rod, so that the lifting plate 32 drives the lifting rod 35 to move upwards, the lifting rod 35 pushes the glass on the conveying roller 2 to move upwards through the anti-slip block 351, the glass is moved to the bottom of the measuring rack 4, the motor 58 operates to drive the second bevel gear 57 to rotate, the first bevel gear 56 is in meshing transmission, the first screw 51 and the second screw 52 rotate simultaneously, the sliding block 54 slides to the fixed shell 53 on the sliding rod 44, the sliding block 54 drives the detecting probe 55 to move to the glass, the detecting probe 55 continuously emits infrared light in the moving process, and receives the reflected infrared light, so that the detecting probe 55 forms multiple groups of measuring signals, an external signal processor performs multiple processing according to the measuring signals to obtain the accurate size of the glass, and measuring errors are reduced.

Example 2

Referring to fig. 6, the present embodiment provides the following technical solutions on the basis of embodiment 1: the bottom of carriage 1 just is close to all welded fastening in four corners department and has support 11, and support 11 plays support and guard action to carriage 1.

Preferably as this embodiment, all install belt pulley 21 in the axis of rotation of each conveying roller 2 and the front side that is located carriage 1, cup joint the transmission through belt 22 between each belt pulley 21, carriage 1's upper right corner welded fastening has motor frame 23, install motor 24 on the motor frame 23, motor 24's output shaft and the axis of rotation coaxial coupling of rightmost side conveying roller 2, motor 24 operates and drives conveying roller 2 on rightmost side and rotates, carry out the transmission through belt pulley 21 and belt 22, can make all conveying rollers 2 rotate, thereby carry glass, conveniently measure.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. Glass automatic measuring system, including carriage (1), its characterized in that: the top of carriage (1) is equipped with conveying roller (2) that the array distributes, each the axis of rotation of conveying roller (2) all runs through carriage (1), and rotates with carriage (1) and be connected, the below of carriage (1) just is close to center department and is equipped with elevating gear (3), elevating gear (3) comprise mount (31) and lifter plate (32) that are parallel to each other, mount (31) are located the below of lifter plate (32), and with carriage (1) welded fastening, the top of carriage (1) just is close to center department welded fastening and has measuring rack (4), install measuring component (5) on measuring rack (4), measuring component (5) include first screw rod (51) and second screw rod (52), first screw rod (51) comprise two sets of bilateral symmetry's threaded rod, second screw rod (52) comprise two sets of symmetrical threaded rod around, the first screw (51) and the second screw (52) are perpendicular to each other.

2. The automatic glass measurement system of claim 1, wherein: install electric putter (33) on mount (31), the piston rod top of electric putter (33) and the bottom welded fastening of lifter plate (32), the bottom of lifter plate (32) just is close to the equal welded fastening in four corners department and has stopper (34), each stopper (34) all run through mount (31), and with mount (31) sliding connection, the below that just is located mount (31) on stopper (34) is provided with stopper (341).

3. The automatic glass measurement system of claim 1, wherein: the top welding of lifter (32) is fixed with lifter (35) of array distribution, lifter (35) and conveying roller (2) interval distribution, the top of lifter (35) is provided with non slipping spur (351).

4. The automatic glass measurement system of claim 1, wherein: the utility model discloses a measuring rack, including measuring frame (4), first spout (41) and second spout (42) of offering mutually perpendicular on measuring frame (4), first spout (41) are located the below of first screw rod (51), second spout (42) are located the below of second screw rod (52), the top of measuring frame (4) and the equal welded fastening in edge that is close to first spout (41) and second spout (42) have fixed block (43), first spout (41) the inside of second spout (42) all is equipped with slide bar (44), the both ends of slide bar (44) respectively with measuring frame (4) welded fastening.

5. The automatic glass measurement system of claim 1, wherein: a fixed shell (53) is arranged at the top of the measuring frame (4) and close to the center, one ends of the first screw rod (51) and the second screw rod (52) close to the fixed shell (53) penetrate through the fixed shell (53), and is rotationally connected with the fixed shell (53), one ends of the first screw rod (51) and the second screw rod (52) close to the fixed block (43) penetrate through the fixed block (43), and is rotationally connected with the fixed block (43), the first screw rod (51) and the second screw rod (52) are both provided with a slide block (54), the sliding block (54) is respectively in threaded connection with the first screw rod (51) and the second screw rod (52), the sliding blocks (54) are respectively connected with the corresponding first sliding chute (41), the second sliding chute (42) and the sliding rod (44) in a sliding way, and a detection probe (55) is arranged at the bottom of the sliding block (54) and below the measuring frame (4).

6. The automatic glass measurement system of claim 5, wherein: first bevel gear (56) are all installed to the inside that just is located fixed shell (53) on first screw rod (51), second screw rod (52), motor (58) are installed to the top of fixed shell (53), the output shaft of motor (58) runs through the top of fixed shell (53), and extends into the inside of fixed shell (53), on the output shaft of motor (58) and the internally mounted who is located fixed shell (53) has second bevel gear (57), second bevel gear (57) are connected with each first bevel gear (56) meshing respectively.

7. The automatic glass measurement system of claim 1, wherein: and the bottom of the conveying frame (1) is fixedly welded with a support (11) close to four corners.

8. The automatic glass measurement system of claim 1, wherein: each just be located the front side of carriage (1) and all install belt pulley (21), each in the axis of rotation of conveying roller (2) the transmission is cup jointed through belt (22) between belt pulley (21), the upper right corner welded fastening of carriage (1) has motor frame (23), install motor (24) on motor frame (23), the output shaft of motor (24) and the axis of rotation coaxial coupling of rightmost side conveying roller (2).

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