CN219495168U - Vertical measuring device for glass - Google Patents

Abstract

The utility model provides a vertical measuring device for glass, and belongs to the technical field of glass processing. The vertical glass measuring device solves the technical problems that the existing vertical glass measuring device can only carry in one direction, the height measuring mechanism after reversing is inconvenient to assemble and disassemble, the accuracy after assembling and disassembling cannot be guaranteed, and the like. The vertical glass measuring device comprises a frame, a backup plate, a transverse conveying mechanism and a height measuring mechanism, wherein the backup plate is obliquely fixed on the frame, the transverse conveying mechanism is arranged on the lower side of the backup plate and is fixedly connected with the frame, and the height measuring mechanism is arranged at the left end part and/or the right end part of the backup plate. According to the utility model, the height measuring mechanism is arranged at the left end part or the right end part of the backup plate, and when the conveying direction needs to be changed, the height measuring mechanism is only required to be detached from one side of the vertical measuring device and then is arranged at the other side of the vertical measuring device, and parts such as the backup plate and the like are not required to be detached, so that the disassembly and the assembly are simpler and faster.

Description

Vertical measuring device for glass

Technical Field

The utility model belongs to the technical field of glass processing, and particularly relates to a vertical measuring device for glass.

Background

The equipment for measuring the glass specification in the vertical glass measuring device has wide application in a vertical intelligent storage system, a vertical hollow production line or vertical conveying of glass.

Currently, a height measuring mechanism of an existing vertical measuring device is generally arranged in the middle of a backboard, and a vertical glass detection conveying table disclosed in the utility model with the application number of 2017202982988 is used for measuring the length of glass through cooperation of a servo transverse conveying device, a first detecting element and a second detecting element, and a height measuring mechanism is formed through a near-end detecting element, a third detecting element, a lifting transmission device and a longitudinal control servo motor, so that the height of glass is measured, and the height measuring mechanism is positioned in the middle of the backboard and is close to the rear side of the glass conveying direction.

The backboard of the vertical glass detection conveying table has a certain inclination angle, so that the vertical glass detection conveying table can only detect the specification of glass conveyed in a single direction, and if the glass conveyed in the opposite direction is required to be detected, the following two methods are generally adopted: 1. producing a vertical glass detection conveying table suitable for conveying in the opposite direction; 2. and disassembling the backboard and the height measuring mechanism, and then reassembling the backboard and the height measuring mechanism to ensure that the height measuring mechanism is positioned in the middle of the backboard and is always positioned at the rear side of the glass conveying direction, and simultaneously, adaptively adjusting the positions of the first detecting element and the second detecting element.

However, the two methods still have the following problems:

firstly, a manufacturer needs to list a vertical glass detection conveying table in a specific conveying direction according to actual production requirements, and after the vertical glass detection conveying table is installed, the position of the vertical glass detection conveying table can be fixed, so that the position of the vertical glass detection conveying table can not be flexibly adjusted according to production requirements;

the second method is that the workload of disassembling the backboard and the height measuring mechanism is large, meanwhile, the volume and the weight of the backboard are large, a plurality of transverse guide wheels are arranged on the backboard, disassembly and assembly of a manufacturer are difficult, the precision after disassembly is not guaranteed, and measurement inaccuracy is possibly caused; because the lengths of the back plates positioned on two sides of the height measuring mechanism are inconsistent, the leaning frame for fixing the back plates also needs to be specially designed, and the production cost is increased.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a vertical measuring device with faster and more stable conveying direction change.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a vertical measuring device of glass, includes frame, backup plate, transverse conveying mechanism and height measurement mechanism, the backup plate slope is fixed in the frame, transverse conveying mechanism locates the downside of backup plate and with frame fixed connection, its characterized in that: the height measuring mechanism is mounted at the left end part and/or the right end part of the backup plate.

The vertical measuring device is characterized in that the height measuring mechanism is arranged at the left end part or the right end part of the backup plate, when the conveying direction needs to be changed, the height measuring mechanism is only required to be detached from one side of the vertical measuring device and then is arranged on the other side of the vertical measuring device, and parts such as the backup plate and the like do not need to be detached, so that the disassembly and the assembly are simpler and faster; meanwhile, as only the height measuring mechanism is disassembled, only the installation hole sites with consistent height are required to be arranged on the left side and the right side of the backup plate in advance, the precision of the height measuring mechanism can be well ensured after the replacement direction, and the influence of disassembly and assembly on the precision of the vertical measuring device is small; furthermore, as the backup plate does not need to be disassembled, the frame does not need to be specially designed, and only the backup plate can be well supported, so that the production cost is reduced; after the vertical measuring device is adopted, only the vertical measuring device with the same model is required to be purchased, and the vertical measuring device is regulated according to the conveying direction, so that the use is more convenient; as another scheme, when the height measuring mechanism is installed at the left end part and the right end part of the vertical measuring device, when the conveying direction needs to be changed, only the other height measuring mechanism needs to be started.

The transverse driving mechanism is a transmission structure for driving the plurality of driving rollers by the driving motor or a transmission structure for driving the synchronous belt or the conveying belt by the driving motor.

In the vertical measuring device for glass, the height measuring mechanism comprises a sliding rail, a vertical driving piece and an upper mounting trolley, the upper mounting trolley is movably mounted on the sliding rail, the vertical driving piece can drive the upper mounting trolley to move along the sliding rail, the upper mounting trolley is provided with a measuring part, the front end of the measuring part can extend out from the front side of the backup plate, and the measuring part can move downwards along with the upper mounting trolley to press the upper edge of the glass to be measured.

This vertical measuring device passes through the vertical driving piece drive and goes up the mounting trolley and reciprocate along the slide rail, then presses on the glass that awaits measuring through last measurement casting die on the mounting trolley to the thickness of glass is awaited measuring in the drive, simple structure, and it is convenient to measure, and measuring stability is higher.

In the vertical glass measuring device, the height measuring mechanism comprises a lower mounting trolley movably mounted on the sliding rail, the lower mounting trolley is located below the upper mounting trolley, the vertical driving piece is connected with the lower mounting trolley, and the upper mounting trolley is connected with the lower mounting trolley through a buffer cylinder.

This vertical measuring device can play the cushioning effect to measuring the downward movement of casting die through setting up down installation dolly and buffer cylinder, when measuring the casting die and the last border of measuring glass supports the back, the installation dolly down continues a short distance of downward movement and then stops under the drive of vertical driving piece, buffer cylinder is stretched, this buffer cylinder's design can not avoid measuring glass to be crushed by measuring the casting die, can also make measuring the casting die compress tightly between transverse conveying mechanism and measuring the casting die with the glass that will wait to measure, avoid waiting to measure glass both ends to have the space, be favorable to improving measuring precision.

In the vertical glass measuring device, the lower mounting trolley is provided with a first detecting element, the first detecting element is located at the rear side of the front side surface of the backup plate, and the first detecting element can detect whether glass exists in front of the first detecting element.

When the glass is detected by the first detection element, the driving speed of the vertical driving piece is reduced, and the downward moving speed of the lower installation trolley and the upper installation trolley is reduced, so that the measuring part can be more gently contacted with the glass to be detected, the glass or the measuring part is prevented from being damaged due to too high downward moving speed, and the stability and the service life of the vertical measuring device in use are improved. The first detecting element is a proximity sensor.

In the vertical glass measuring device, the height measuring mechanism comprises a magnetic grating ruler, a magnetic grating reading head, a proximity switch and a limit contact, wherein the magnetic grating ruler and the sliding rail are arranged in parallel, the magnetic grating reading head is fixedly connected to the upper mounting trolley, the magnetic grating reading head is always aligned with the magnetic grating ruler when moving along with the upper mounting trolley, the proximity switch and the limit contact are respectively arranged on the upper mounting trolley and the lower mounting trolley, the proximity switch and the limit contact are oppositely arranged, and the limit contact and the proximity switch are staggered and then the magnetic grating reading head starts to read.

The magnetic grating ruler and the magnetic grating reading head have higher mechanical strength, hardness and wear resistance, and are not easily influenced by the change of external temperature and humidity, so that the height measuring mechanism has higher measuring precision and service life; when the height measuring mechanism works, the proximity switch is arranged opposite to the limit contact at the beginning, when the measuring part on the upper mounting trolley is contacted with glass to be measured, the lower mounting trolley continuously moves downwards under the driving of the vertical driving part under the condition that the upper mounting trolley is not moved, so that the proximity switch and the limit contact are staggered, and when the proximity switch and the limit contact are staggered, the magnetic grid reading head starts to read, and the height H1 of the glass to be measured is obtained; further, after the proximity switch and the limit contact are staggered, the vertical driving part stops working or reversely rotates for a small distance, the lower mounting trolley moves upwards for a small distance under the action of the buffer cylinder and the reverse vertical driving part, so that the proximity switch is aligned with the limit contact again, at the moment, the magnetic grating reading head reads again to obtain the height H2 of glass to be measured, the heights H1 and H2 obtained by the two measurements are compared, if the heights of the two measurements are close to each other, the first height H1 is used as a standard, and if the heights of the two sides are too different, the height measuring mechanism is controlled to measure again; in summary, the buffer cylinder in the vertical measuring device not only can play a role in buffering, but also can reset the lower mounting trolley during measurement, so that the magnetic grating reading head can perform secondary measurement and calibrate a first measurement result, thereby improving the measurement precision of the height measuring mechanism and reducing measurement errors.

In the vertical glass measuring device, the height measuring mechanism comprises a mounting section bar, the mounting section bar is fixedly connected to the rear side surface of the backup plate or the rack, the sliding rail is fixedly connected to the left side and/or the right side of the mounting section bar, and the magnetic grating ruler is fixedly connected to the rear side surface of the mounting section bar.

The design of the installation section is convenient for installing the sliding rail and the magnetic grating ruler, and meanwhile, the installation section which is bilaterally symmetrical can enable the height measuring mechanism to be more convenient to assemble and disassemble, the synchronism after the assembly and disassembly is better, and the influence of the assembly and disassembly height measuring mechanism on the precision of the vertical measuring device is avoided; the magnetic grating ruler is fixedly connected to the rear side surface of the mounting section bar, so that the magnetic grating ruler does not need to be disassembled and assembled after the upper mounting trolley and the lower mounting trolley are in the replacement position, and therefore a disassembling and assembling part is reduced, and the height measuring mechanism is more convenient and quick to disassemble and assemble; further, the slide rails can be arranged on the left side and the right side of the installation section bar, an upper slide block and a lower slide block are arranged on each slide rail in a sliding manner, when the height measuring mechanism needs to be moved to the other side, only the upper installation plate, the lower installation plate and corresponding parts are required to be detached, then the upper installation plate and the lower installation plate are fixed on the upper slide block and the lower slide block on the slide rail on the other side, and the corresponding parts are installed in an adaptive manner, so that the disassembly and assembly efficiency can be further improved.

In the vertical glass measuring device, the upper mounting trolley comprises an upper sliding block, an upper base plate and an upper mounting plate, wherein the upper sliding block is in sliding connection with the sliding rail, the inner side surface of the upper base plate is fixedly connected with the upper sliding block, the upper mounting plate is arranged on the rear side of the sliding rail, the upper mounting plate is perpendicular to the upper base plate and is fixedly connected with the upper base plate, the magnetic grating reading head is fixedly connected to the upper mounting plate, an upper cylinder seat is fixedly connected to the rear side of the upper mounting plate, the upper end of the buffer cylinder is rotatably connected with the upper cylinder seat, and the proximity switch is transversely arranged and fixedly mounted at the rear end of the upper base plate; the lower mounting trolley comprises a lower sliding block, a lower base plate and a lower mounting plate, wherein the lower sliding block is in sliding connection with the sliding rail, the inner side surface of the lower base plate is fixedly connected with the lower sliding block, the lower mounting plate is arranged on the rear side of the sliding rail, the lower mounting plate is perpendicular to the lower base plate and is fixedly connected with the lower base plate, the rear side of the lower mounting plate is fixedly connected with a lower cylinder seat, the lower end of the buffer cylinder is rotatably connected with the lower cylinder seat, the vertical driving piece comprises a synchronous belt, a pressing plate for pressing the synchronous belt is arranged on the lower mounting plate, and the limiting contact is arranged on the upper portion of the connecting plate, and the lower portion of the connecting plate is fixedly connected with the lower mounting plate.

The design of the upper installation trolley and the lower installation trolley is convenient for disassembling and replacing positions, so that the upper installation trolley and the lower installation trolley are more convenient and quicker to disassemble and assemble.

In the vertical glass measuring device, the vertical driving piece comprises a driving motor, a driving belt wheel, a driven belt wheel and a synchronous belt, the driving motor drives the driving belt wheel to rotate, the driving belt wheel and the driven belt wheel are respectively arranged on the lower side and the upper side of the installation section bar, the driving belt wheel and the driven belt wheel are connected through the synchronous belt, and the synchronous belt is fixedly connected with the lower installation trolley.

The driving motor and the synchronous belt are designed to enable the moving distance of the lower installation trolley to be easier to control and accurate, the synchronous belt is fixedly connected with the lower installation trolley, then the lower installation trolley is connected with the upper installation trolley through the buffer cylinder, the functions of buffering and secondary measurement can be achieved, and the whole stability and the service life of the vertical measuring device are improved.

In the vertical glass measuring device, the mounting section is provided with the through hole penetrating through the mounting section up and down, one section of the synchronous belt is located in the through hole, the other section of the synchronous belt is located on the outer side of the mounting section, the driving belt wheel and the driving motor are both installed at the lower end of the mounting section, the balancing weight fixedly connected with the synchronous belt is arranged in the through hole, and the balancing weight moves up and down along the through hole.

The weight of the two sides of the synchronous belt can be close by the design of the balancing weight, so that the lower installation trolley and the upper installation trolley can be driven to move up and down by a driving motor with less force.

In the vertical glass measuring device, the measuring press piece comprises a measuring roller and a supporting rod, wherein the supporting rod is longitudinally arranged and fixedly connected with the upper mounting trolley, and the measuring roller is rotatably connected with the supporting rod.

The design of the measuring roller and the supporting rod can ensure that when the measuring pressing piece is pressed on the upper edge of the glass to be measured, the glass still can move along the conveying direction, thereby being beneficial to improving the overall measuring efficiency of the vertical measuring device; meanwhile, the design of the measuring roller can change the sliding friction with the upper edge of the glass to be measured into rolling friction, so that the abrasion of the measuring part in the measuring process can be reduced, and the service life of the measuring part can be prolonged.

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

when the conveying direction is required to be changed, the height measuring mechanism is only required to be detached from one side of the vertical measuring device and then mounted on the other side of the vertical measuring device, and parts such as the backup plate and the like are not required to be detached, so that the disassembly and the assembly are simpler and faster.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic structural view of the lateral conveyance mechanism of the present utility model.

Fig. 3 is a schematic view of the height measuring mechanism of the present utility model.

Fig. 4 is a schematic diagram of a height measuring mechanism according to the present utility model.

Fig. 5 is a schematic view of the structure of the vertical driving member of the present utility model.

Fig. 6 is a schematic view of the explosive structure at the upper and lower mounting carts of the present utility model.

In the figure, 1, a rack; 2. a backup plate; 3. a lateral conveying mechanism; 4. a height measuring mechanism; 41. a vertical drive; 411. a driving motor; 412. a driving belt wheel; 413. a driven pulley; 414. a synchronous belt; 42. a trolley is arranged on the upper part; 421. an upper slider; 422. an upper substrate; 423. an upper mounting plate; 424. an upper cylinder block; 43. a lower mounting trolley; 431. a lower slide block; 432. a lower substrate; 433. a lower mounting plate; 434. a lower cylinder seat; 435. a first detection element; 436. a pressing plate; 437. a connecting plate; 44. measuring the pressing piece; 441. measuring a roller; 442. a support rod; 45. a buffer cylinder; 5. installing a section bar; 51. a slide rail; 52. a through hole; 53. balancing weight; 61. a magnetic grating ruler; 62. a magnetic grating read head; 63. a proximity switch; 64. and limiting the contact.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

The vertical glass measuring device comprises a frame 1, a backup plate 2, a transverse conveying mechanism 3 and a height measuring mechanism 4, wherein the backup plate 2 is obliquely fixed on the frame 1, the transverse conveying mechanism 3 is arranged on the lower side of the backup plate 2 and fixedly connected with the frame 1, and the height measuring mechanism 4 is arranged at the left end part and/or the right end part of the backup plate 2. According to the vertical measuring device, the height measuring mechanism 4 is arranged at the left end part or the right end part of the backup plate 2, when the conveying direction needs to be changed, the height measuring mechanism 4 is only required to be detached from one side of the vertical measuring device and then is arranged on the other side of the vertical measuring device, and components such as the backup plate 2 and the like do not need to be detached, so that the disassembly and the assembly are simpler and faster; meanwhile, as only the height measuring mechanism 4 is dismounted, only mounting hole sites with consistent height are required to be arranged on the left side and the right side of the backup plate 2 in advance, the precision of the height measuring mechanism 4 can be well ensured after the replacement direction, and the influence of the dismounting on the precision of the vertical measuring device is small; furthermore, as the backup plate 2 does not need to be disassembled, the frame 1 does not need to be specially designed, and only the backup plate 2 needs to be well supported, so that the production cost is reduced; after the vertical measuring device is adopted, only the vertical measuring device with the same model is required to be purchased, and the vertical measuring device is regulated according to the conveying direction, so that the use is more convenient; as another scheme, when the height measuring mechanism 4 is installed at the left end part and the right end part of the vertical measuring device, when the conveying direction needs to be changed, the other height measuring mechanism 4 is only required to be started. The transverse driving mechanism is a transmission structure in which the driving motor 411 drives a plurality of driving rollers or a transmission structure in which the driving motor 411 drives the synchronous belt 414 or the conveyor belt.

The height measuring mechanism 4 comprises a sliding rail 51, a vertical driving piece 41, an upper mounting trolley 42 and a lower mounting trolley 43, wherein the upper mounting trolley 42 and the lower mounting trolley 43 are movably mounted on the sliding rail 51, the vertical driving piece 41 can drive the upper mounting trolley 42 to move along the sliding rail 51, a measuring pressing piece 44 is arranged on the upper mounting trolley 42, the front end of the measuring pressing piece 44 can extend out of the front side of the backup plate 2, and the measuring pressing piece 44 can be pressed on the upper edge of glass to be measured along with the downward movement of the upper mounting trolley 42; the lower mounting trolley 43 is located below the upper mounting trolley 42, the vertical driving piece 41 is connected with the lower mounting trolley 43, and the upper mounting trolley 42 is connected with the lower mounting trolley 43 through the buffer cylinder 45.

The vertical measuring device drives the upper mounting trolley 42 to move up and down along the sliding rail 51 through the vertical driving piece 41, and then presses the upper edge of the glass to be measured through the measuring pressing piece 44 on the upper mounting trolley 42, so that the thickness of the glass to be measured is driven, the structure is simple, the measurement is convenient, and the measurement stability is higher; the setting of installing the dolly 43 down and buffering cylinder 45 can play the cushioning effect to measuring casting die 44 down, when measuring casting die 44 and the upper edge of measuring glass support the back, installing the dolly 43 down and continue a short distance and then stop under the drive of vertical driver 41 down, and buffering cylinder 45 is stretched, and the design of this buffering cylinder 45 can not avoid measuring glass to be crushed by measuring casting die 44, can also make measuring casting die 44 compress tightly the glass of waiting to measure between horizontal conveying mechanism 3 and measuring casting die 44, avoids waiting to measure glass both ends to have the space, is favorable to improving the precision of measurement.

Further, the lower mounting cart 43 is provided with a first detecting element 435, the first detecting element 435 is located at the rear side of the front side of the back plate 2, and the first detecting element 435 can detect whether glass exists in front of the first detecting element 435. When the glass is detected by the first detecting element 435 in actual use, the driving speed of the vertical driving piece 41 is reduced, and the downward moving speed of the lower mounting trolley 43 and the upper mounting trolley 42 is reduced, so that the measuring pressing piece 44 can be more gently contacted with the glass to be detected, damage to the glass or the measuring pressing piece 44 caused by too high downward moving speed is avoided, and the stability and the service life of the vertical measuring device in use are improved. The first detection element 435 is a proximity sensor.

The height measuring mechanism 4 comprises a mounting section bar 5, a magnetic grating ruler 61, a magnetic grating reading head 62, a proximity switch 63 and a limit contact 64, wherein the mounting section bar 5 is fixedly connected to the rear side surface of the backup plate 2 or the frame 1, the sliding rail 51 is fixedly connected to the left side and/or the right side of the mounting section bar 5, and the magnetic grating ruler 61 is fixedly connected to the rear side surface of the mounting section bar 5; the magnetic grating ruler 61 is arranged in parallel with the sliding rail 51, the magnetic grating reading head 62 is fixedly connected to the upper mounting trolley 42, the magnetic grating reading head 62 is always aligned with the magnetic grating ruler 61 when moving along with the upper mounting trolley 42, the proximity switch 63 and the limit contact 64 are respectively arranged on the upper mounting trolley 42 and the lower mounting trolley 43, the proximity switch 63 and the limit contact 64 are oppositely arranged, and the limit contact 64 and the proximity switch 63 are staggered, so that the magnetic grating reading head 62 starts reading.

The magnetic grating ruler 61 and the magnetic grating reading head 62 have higher mechanical strength, hardness and wear resistance, are not easily influenced by the change of external temperature and humidity, and therefore the height measuring mechanism 4 has higher measuring precision and service life; when the height measuring mechanism 4 works, the proximity switch 63 is arranged opposite to the limit contact 64 at first, when the measuring element 44 on the upper mounting trolley 42 is contacted with glass to be measured, under the condition that the upper mounting trolley 42 is not moved, the lower mounting trolley 43 is driven by the vertical driving piece 41 to move downwards, so that the proximity switch 63 is staggered with the limit contact 64, and when the proximity switch 63 is staggered with the limit contact 64, the magnetic grating reading head 62 starts reading to obtain the height H1 of the glass to be measured; further, after the proximity switch 63 is staggered with the limit contact 64, the vertical driving piece 41 stops working or reversely rotates for a small distance, the lower mounting trolley 43 moves upwards for a small distance under the action of the buffer cylinder 45 and the reverse vertical driving piece 41, so that the proximity switch 63 is aligned with the limit contact 64 again, at the moment, the magnetic grating reading head 62 reads again to obtain the height H2 of glass to be measured, the heights H1 and H2 obtained by two measurements are compared, if the heights of the two measurements are close, the first height H1 is taken as a reference, and if the heights of the two sides are too different, the height measuring mechanism 4 is controlled to measure again; in summary, the buffer cylinder 45 in the vertical measuring device not only can play a role in buffering, but also can reset the lower mounting trolley 43 during measurement, so that the magnetic grating reading head 62 can perform secondary measurement and calibrate the first measurement result, thereby improving the precision during measurement of the height measuring mechanism 4 and reducing the measurement error. The design of the installation section bar 5 is convenient for installing the sliding rail 51 and the magnetic grating ruler 61, and meanwhile, the installation section bar 5 which is bilaterally symmetrical can also enable the height measuring mechanism 4 to be more convenient to assemble and disassemble, and the synchronism after the assembly and disassembly is better, so that the influence of the assembly and disassembly of the height measuring mechanism 4 on the precision of the vertical measuring device is avoided; the magnetic grating ruler 61 is fixedly connected to the rear side surface of the mounting section bar 5, so that the magnetic grating ruler 61 does not need to be disassembled and assembled after the upper mounting trolley 42 and the lower mounting trolley 43 are replaced, and therefore a disassembling and assembling part is reduced, and the height measuring mechanism 4 is more convenient and quick to disassemble and assemble; further, the slide rails 51 may be disposed on both left and right sides of the mounting section bar 5, and each slide rail 51 is slidably provided with an upper slide 421 and a lower slide 431, when the height measuring mechanism 4 needs to be moved to the other side, only the upper mounting plate 423, the lower mounting plate 433 and the corresponding parts need to be detached, then the upper mounting plate 423 and the lower mounting plate 433 are fixed on the upper slide 421 and the lower slide 431 on the other side slide rail 51, and the corresponding parts are adaptively mounted, so that the dismounting efficiency can be further improved.

Further, as shown in fig. 3, 4 and 6, the upper mounting trolley 42 includes an upper slider 421, an upper substrate 422 and an upper mounting plate 423, the upper slider 421 is slidably connected with the slide rail 51, the inner side surface of the upper substrate 422 is fixedly connected with the upper slider 421, the upper mounting plate 423 is disposed at the rear side of the slide rail 51, the upper mounting plate 423 is perpendicular to the upper substrate 422 and is fixedly connected with the upper substrate 422, the magnetic grating reading head 62 is fixedly connected to the upper mounting plate 423, the rear side of the upper mounting plate 423 is fixedly connected with an upper cylinder seat 424, the upper end of the buffer cylinder 45 is rotatably connected with the upper cylinder seat 424, and the proximity switch 63 is transversely disposed and fixedly mounted at the rear end of the upper substrate 422; the lower mounting trolley 43 comprises a lower sliding block 431, a lower base plate 432 and a lower mounting plate 433, wherein the lower sliding block 431 is slidably connected with the sliding rail 51, the inner side surface of the lower base plate 432 is fixedly connected with the lower sliding block 431, the lower mounting plate 433 is arranged on the rear side of the sliding rail 51, the lower mounting plate 433 is perpendicular to the lower base plate 432 and is fixedly connected with the lower base plate 432, a lower cylinder seat 434 is fixedly connected with the rear side of the lower mounting plate 433, the lower end of the buffer cylinder 45 is rotatably connected with the lower cylinder seat 434, the vertical driving piece 41 comprises a synchronous belt 414, a pressing plate 436 for tightly fixing the synchronous belt 414 is arranged on the lower mounting plate 433, a limit contact 64 is arranged on the upper portion of the connecting plate 437, and the lower portion of the connecting plate 437 is fixedly connected with the lower mounting plate 433. The above-mentioned design of going up installation dolly 42 and installing dolly 43 down is convenient for dismouting change position, makes the dismouting of going up installation dolly 42 and installing dolly 43 down convenient and fast more.

As shown in fig. 5, the vertical driving piece 41 includes a driving motor 411, a driving pulley 412, a driven pulley 413 and a synchronous belt 414, the driving motor 411 drives the driving pulley 412 to rotate, the driving pulley 412 and the driven pulley 413 are respectively arranged at the lower side and the upper side of the installation section bar 5, the driving pulley 412 and the driven pulley 413 are connected through the synchronous belt 414, and the synchronous belt 414 is fixedly connected with the lower installation trolley 43. The driving motor 411 and the synchronous belt 414 are designed to enable the moving distance of the lower installation trolley 43 to be easier to control and accurate, the synchronous belt 414 is fixedly connected with the lower installation trolley 43, then the lower installation trolley 43 is connected with the upper installation trolley 42 through the buffer cylinder 45, the functions of buffering and secondary measurement can be achieved, and the whole stability and the service life of the vertical measuring device can be improved.

As shown in fig. 3 and 4, the mounting section 5 is provided with a through hole 52 penetrating the mounting section up and down, one section of the synchronous belt 414 is located in the through hole 52, the other section is located at the outer side of the mounting section 5, the driving belt pulley 412 and the driving motor 411 are both installed at the lower end of the mounting section 5, a balancing weight 53 fixedly connected with the synchronous belt 414 is arranged in the through hole 52, and the balancing weight 53 moves up and down along the through hole 52. The weight of the weight block 53 can be close to the weight of the two sides of the timing belt 414, so that the driving motor 411 can drive the lower mounting cart 43 and the upper mounting cart 42 to move up and down with less force.

As shown in fig. 6, the measuring presser 44 includes a measuring roller 441 and a supporting rod 442, the supporting rod 442 is disposed longitudinally and fixedly connected to the upper mounting cart 42, and the measuring roller 441 is rotatably connected to the supporting rod 442. The design of the measuring roller 441 and the supporting rod 442 can enable the glass to still move along the conveying direction when the measuring pressing piece 44 presses the upper edge of the glass to be measured, which is beneficial to improving the overall measuring efficiency of the vertical measuring device; meanwhile, the design of the measuring roller 441 can change the sliding friction with the upper edge of the glass to be measured into rolling friction, so that the abrasion of the measuring pressing piece 44 in the measuring process can be reduced, and the service life of the measuring pressing piece 44 can be prolonged. Alternatively, the measurement press 44 includes a measurement press having a groove on its underside for mating with the upper edge of the glass.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered by the protection scope defined by the claims.

Claims (10)

1. The utility model provides a vertical measuring device of glass, includes frame (1), backup plate (2), transverse conveying mechanism (3) and height measurement mechanism (4), backup plate (2) slope is fixed in on frame (1), transverse conveying mechanism (3) locate the downside of backup plate (2) and with frame (1) fixed connection, its characterized in that: the height measuring mechanism (4) is mounted at the left end part and/or the right end part of the backup plate (2).

2. A glass vertical measuring device according to claim 1, wherein: the height measurement mechanism (4) comprises a sliding rail (51), a vertical driving piece (41) and an upper installation trolley (42), the upper installation trolley (42) is movably installed on the sliding rail (51), the vertical driving piece (41) can drive the upper installation trolley (42) to move along the sliding rail (51), a measurement pressing piece (44) is arranged on the upper installation trolley (42), the front end of the measurement pressing piece (44) can extend out from the front side of the backup plate (2), and the measurement pressing piece (44) can be pressed on the glass to be measured along with the downward movement of the upper installation trolley (42).

3. A glass vertical measuring device according to claim 2, wherein: the height measurement mechanism (4) comprises a lower installation trolley (43) movably installed on a sliding rail (51), the lower installation trolley (43) is located below an upper installation trolley (42), the vertical driving piece (41) is connected with the lower installation trolley (43), and the upper installation trolley (42) is connected with the lower installation trolley (43) through a buffer cylinder (45).

4. A glass vertical measuring device according to claim 3, wherein: the lower mounting trolley (43) is provided with a first detection element (435), the first detection element (435) is positioned at the rear side of the front side surface of the backup plate (2), and the first detection element (435) can detect whether glass exists in front of the first detection element.

5. A glass vertical measuring device according to claim 3, wherein: the height measurement mechanism (4) comprises a magnetic grating ruler (61), a magnetic grating reading head (62), a proximity switch (63) and a limit contact (64), wherein the magnetic grating ruler (61) and the sliding rail (51) are arranged in parallel, the magnetic grating reading head (62) is fixedly connected to an upper mounting trolley (42), the magnetic grating reading head (62) is always aligned with the magnetic grating ruler (61) when moving along with the upper mounting trolley (42), the proximity switch (63) and the limit contact (64) are respectively arranged on the upper mounting trolley (42) and the lower mounting trolley (43), the proximity switch (63) and the limit contact (64) are oppositely arranged, and the limit contact (64) and the proximity switch (63) are staggered, and then the magnetic grating reading head (62) starts reading.

6. A glass vertical measuring device according to claim 5, wherein: the height measuring mechanism (4) comprises a mounting section bar (5), the mounting section bar (5) is fixedly connected to the rear side surface of the backup plate (2) or the frame (1), the sliding rail (51) is fixedly connected to the left side and/or the right side of the mounting section bar (5), and the magnetic grid ruler (61) is fixedly connected to the rear side surface of the mounting section bar (5).

7. A glass vertical measuring device according to claim 5, wherein: the upper mounting trolley (42) comprises an upper sliding block (421), an upper substrate (422) and an upper mounting plate (423), wherein the upper sliding block (421) is slidably connected with a sliding rail (51), the inner side surface of the upper substrate (422) is fixedly connected with the upper sliding block (421), the upper mounting plate (423) is arranged on the rear side of the sliding rail (51), the upper mounting plate (423) is perpendicular to the upper substrate (422) and is fixedly connected with the upper substrate (422), a magnetic grating reading head (62) is fixedly connected onto the upper mounting plate (423), an upper cylinder seat (424) is fixedly connected on the rear side of the upper mounting plate (423), the upper end of the buffer cylinder (45) is rotatably connected with the upper cylinder seat (424), and the proximity switch (63) is transversely arranged and is fixedly mounted on the rear end of the upper substrate (422). The utility model provides a lower mounting trolley (43) is including slider (431), lower base plate (432) and mounting panel (433) down, slider (431) and slide rail (51) sliding connection down, the medial surface and slider (431) fixed connection down of lower base plate (432), the rear side of slide rail (51) is located to mounting panel (433), mounting panel (433) perpendicular to lower base plate (432) and with lower base plate (432) fixed connection down, the rear side fixedly connected with down cylinder seat (434) of mounting panel (433), the lower extreme and the rotatable coupling of lower cylinder seat (434) of buffer cylinder (45), vertical driving piece (41) include hold-in range (414), be equipped with on mounting panel (433) and compress tightly clamp plate (436) of fixed with hold-in range (414), limit contact (64) are installed in the upper portion of connecting plate (437), the lower part and the mounting panel (433) fixed connection of connecting plate (437).

8. The glass vertical measuring device according to claim 6, wherein: the vertical driving piece (41) comprises a driving motor (411), a driving belt wheel (412), a driven belt wheel (413) and a synchronous belt (414), the driving motor (411) drives the driving belt wheel (412) to rotate, the driving belt wheel (412) and the driven belt wheel (413) are respectively arranged on the lower side and the upper side of the installation section bar (5), the driving belt wheel (412) and the driven belt wheel (413) are connected through the synchronous belt (414), and the synchronous belt (414) is fixedly connected with the lower installation trolley (43).

9. The glass vertical measurement device of claim 8, wherein: the installation section bar (5) is provided with a through hole (52) penetrating through the installation section bar from top to bottom, one section of the synchronous belt (414) is located in the through hole (52), the other section of the synchronous belt is located on the outer side of the installation section bar (5), the driving belt wheel (412) and the driving motor (411) are both installed at the lower end of the installation section bar (5), a balancing weight (53) fixedly connected with the synchronous belt (414) is arranged in the through hole (52), and the balancing weight (53) moves up and down along the through hole (52).

10. A glass vertical measuring device according to any one of claims 2 to 9, wherein: the measuring press piece (44) comprises a measuring roller (441) and a supporting rod (442), wherein the supporting rod (442) is longitudinally arranged and fixedly connected with the upper mounting trolley (42), and the measuring roller (441) is rotatably connected with the supporting rod (442).