CN216862447U - Glass substrate carrying plate frame - Google Patents

Abstract

The utility model relates to a glass substrate board carrier frame, including support, weighing device and counter, the support includes vertical support and horizontal stand, is formed with on the vertical support to be used for supplying the glass substrate to support the portion of leaning on, and weighing device installs on the horizontal stand and is used for bearing glass substrate to weigh its glass substrate's that bears weight, the counter is installed on the support and is connected with the weighing device electricity, so that the counter can be according to the weight determination glass substrate's that weighing device weighed quantity. Through above-mentioned technical scheme, the glass substrate after the piece is turned over puts the back on the glass substrate carrier grillage, and the glass substrate of weighing device on to the glass substrate carrier grillage is weighed, and the counter determines the quantity of glass substrate according to the weight value that weighing device weighed and monolithic glass substrate's weight, has solved the problem that the manual count easily leaks the number of mistakes, has reduced the work degree of difficulty, has promoted work efficiency.

Description

Glass substrate carrying plate frame

Technical Field

The disclosure relates to the technical field of glass substrate production, in particular to a glass substrate carrying plate frame.

Background

In the production process of float glass, molten glass continuously flows into a tank furnace and floats on the surface of molten tin with high relative density, the molten glass is spread and flattened on the surface of the molten tin, and the surface of a glass substrate, which is contacted with the molten tin, is called as a tin surface. Because the surface flatness of the tin surface of the glass substrate is good, the tin surface of the glass substrate faces outwards when a customer requires goods receiving, and the glass substrate is convenient to take and use during production, but the tin surface of a stacked glass substrate finished product usually faces inwards due to production process reasons, and therefore, before the glass substrate leaves a factory, manual turning is needed to enable the tin surface of the glass substrate to face outwards. When the sheet is turned over manually, the number of the glass substrates stacked on the carrying plate frame is large, and the conditions of wrong number and missing number usually occur when the number of the glass substrates is calculated manually.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a glass substrate board frame, this glass substrate board frame can the quantity of auxiliary computation glass substrate, is favorable to promoting work efficiency.

In order to achieve the above object, the present disclosure provides a glass substrate carrier rack comprising:

the support comprises a vertical support and a horizontal support, and an abutting part for abutting against the glass substrate is formed on the vertical support;

the weighing device is arranged on the horizontal bracket and used for bearing the glass substrate, and the weighing device is used for weighing the weight of the glass substrate borne by the weighing device;

and the counter is arranged on the bracket and is electrically connected with the weighing device, so that the counter can determine the number of the glass substrates according to the weight weighed by the weighing device.

Optionally, the abutting portion is an inclined bracket connected between the vertical bracket and the horizontal bracket.

Optionally, the weighing device is provided with an anti-slip layer on a surface for contacting with the glass substrate.

Optionally, the glass substrate carrier plate frame further comprises an alignment device, the alignment device comprises a telescopic mechanism, the weighing device is provided with the telescopic mechanism along the two sides perpendicular to the stacking direction of the glass substrates, the telescopic mechanism on the two sides of the weighing device is used for clamping the glass substrates borne by the weighing device together, so that the side edges of the glass substrates can be flushed.

Optionally, the telescoping mechanism is movably connected to the horizontal support along the stacking direction of the glass substrates, and the alignment device further includes a driving mechanism for driving the telescoping mechanism to move.

Optionally, the aligning device further includes a lead screw, the weighing device is provided with the lead screw along two sides perpendicular to the stacking direction of the plurality of glass substrates, the lead screw is rotatably connected to the horizontal support, the telescopic mechanism is sleeved on the lead screw and forms a lead screw nut pair with the lead screw, and the driving mechanism is connected to the lead screw and is used for driving the lead screw to rotate.

Optionally, the aligning device further comprises a guide rail, the weighing device is provided with the guide rail along two sides perpendicular to the stacking direction of the plurality of glass substrates, the telescopic mechanism is connected to the guide rail in a sliding manner, and the driving mechanism is connected to the telescopic mechanism and used for pushing the telescopic mechanism to slide in the guide rail.

Optionally, the telescopic mechanism is an air cylinder, the air cylinder includes a cylinder body and a piston rod, and one end of the piston rod, which is far away from the cylinder body, is used for contacting with the side edge of the glass substrate.

Optionally, one end of the piston rod, which is far away from the cylinder body, is provided with a push plate, and the push plate extends along the stacking direction of the plurality of glass substrates.

Optionally, the glass substrate carrier rack further comprises a controller, and the counter and the telescoping mechanism are both electrically connected to the controller.

Through above-mentioned technical scheme, the glass substrate after the piece is turned over puts the back on the glass substrate carrier grillage, and the glass substrate of weighing device on to the glass substrate carrier grillage is weighed, and the counter determines the quantity of glass substrate according to the weight value that weighing device weighed and monolithic glass substrate's weight, has solved the problem that the manual count easily leaks the number of mistakes, has reduced the work degree of difficulty, has promoted work efficiency.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a schematic perspective view of a glass substrate carrier rack provided by an embodiment of the present disclosure, wherein a glass substrate is shown;

fig. 2 is a schematic perspective view of a glass substrate carrier rack provided in an embodiment of the present disclosure.

Description of the reference numerals

1-a scaffold; 11-a vertical support; 12-a horizontal support; 13-an abutment; 2-a weighing device; 3-a counter; 4-an alignment device; 41-a telescoping mechanism; 42-a lead screw; 43-an operation panel; 5-glass substrate.

Detailed Description

The following detailed description of the embodiments of the disclosure refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise specified, directional terms such as "upper, lower, left and right" are generally defined with reference to the drawing plane directions of the corresponding drawings. "inner and outer" refer to the inner and outer of the profile of the respective component.

Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 2, the present disclosure provides a glass substrate carrier rack, including a support 1, a weighing device 2 and a counter 3, wherein the support 1 includes a vertical support 11 and a horizontal support 12, an abutting portion 13 for abutting against a glass substrate 5 is formed on the vertical support 11, the weighing device 2 is mounted on the horizontal support 12 and is used for bearing the glass substrate 5 and weighing the weight of the glass substrate 5 borne by the weighing device, and the counter 3 is mounted on the support 1 and is electrically connected with the weighing device 2, so that the counter 3 can determine the number of the glass substrates 5 according to the weight weighed by the weighing device 2.

Because the weight of the glass substrate 5 of industrial production is comparatively stable, so can be through the mode of weighing the weight of glass substrate 5, through calculating the quantity that reachs piling glass substrate 5, operating personnel is with 5 upset backs of stacking glass substrate, place on glass substrate board pallet, weighing device 2 can weigh and reachs the weight of 5 glass substrate of present placing on glass substrate board pallet, and give counter 3 with weight information transfer, can save monolithic glass substrate 5's weight numerical value in the counter 3 in advance, counter 3 can calculate the quantity of glass substrate 5 according to the weight of the glass substrate 5 that weighing device 2 weighed.

Through the technical scheme, after the glass substrate 5 after the piece turning is placed on the glass substrate carrier plate frame, the weighing device 2 weighs the glass substrate 5 on the glass substrate carrier plate frame, the counter 3 determines the quantity of the glass substrates 5 according to the weight value weighed by the weighing device 2 and the weight of the single glass substrate 5, the problem of easy missing number and error number of manual counting is solved, the work difficulty is reduced, and the work efficiency is improved.

In order to more intuitively display the number of the glass substrates 5, optionally, the counter 3 may have a display screen, and the display screen may be used for displaying the number of the glass substrates 5 determined by the counter 3, so that an operator may know the number of the glass substrates 5 on the glass substrate carrier plate frame at any time, and the glass substrates 5 can be transported out of a factory after reaching a specified number.

In addition, optionally, this disclosure can also include the voice broadcast system, and the voice broadcast system is connected with counter 3 electricity, and after 5 quantity of glass substrate that the counter 3 counted reached the setting value, the voice broadcast system can remind operating personnel in time to transport the glass substrate 5 of accomplishing the piece of turning over, improves work efficiency.

Alternatively, as shown in fig. 2, the abutting portion 13 is an inclined bracket connected between the vertical bracket 11 and the horizontal bracket 12, and the abutting portion 13 can provide support for the glass substrate 5 when the glass substrate 5 is placed, so that the glass substrate 5 is placed obliquely in cooperation with the weighing device 2, and the space occupied by stacking the glass substrates 5 is reduced. Meanwhile, the inclined bracket has a vertical bracket 11 to provide a reinforcing support, and the structural stability of the bracket 1 is enhanced.

Optionally, the weighing device 2 is provided with an anti-slip layer on the surface for contacting with the glass substrate 5, when the glass substrate 5 is placed on the glass substrate carrier plate frame, the lower surface of the glass substrate 5 abuts against the abutting portion 13, the bottom edge of the glass substrate 5 is placed on the weighing device 2, the glass substrate 5 can be stationary on the glass substrate carrier plate frame due to friction between the surfaces of the glass substrate 5 contacting with the weighing device 2, the static friction between the glass substrate 5 and the contact surface can be increased by arranging the anti-slip layer on the surface of the contact, the probability of the glass substrate 5 slipping is reduced, and the safety of the glass substrate 5 is ensured.

Alternatively, as shown in fig. 2, the glass substrate carrier frame further includes an alignment device 4, the alignment device 4 includes a telescoping mechanism 41, the weighing device 2 is provided with the telescoping mechanisms 41 on both sides perpendicular to the stacking direction of the plurality of glass substrates 5, and the telescoping mechanisms 41 on both sides of the weighing device 2 are used for commonly clamping the plurality of glass substrates 5 carried by the weighing device 2 so that the side edges of the plurality of glass substrates 5 can be leveled. Because the turned glass substrate 5 is manually placed on the glass substrate carrier, the glass substrate carrier is prone to be uneven, the stacking safety of the glass substrate 5 is affected, and the glass substrate 5 is inconvenient to package. Therefore, the retracting mechanisms 41 are disposed on both sides of the weighing device 2, and when the glass substrates 5 are stacked to a certain number, the retracting mechanisms 41 on both sides of the weighing device 2 are simultaneously extended toward the glass substrates 5 from the ends close to the glass substrates 5, and collectively hold the plurality of glass substrates 5 from both sides of the weighing device 2 so that the side edges of the plurality of glass substrates 5 are flush. The glass substrate 5 is adjusted by the aligning device 4, so that the adjusting result is more uniform and accurate due to the adoption of a machine adjusting mode, the manual workload is reduced, and the production efficiency is improved.

One side of the weighing device 2 may be provided with one telescopic mechanism 41, or may be provided with a plurality of telescopic mechanisms 41, and the weighing device 2 may be provided with the telescopic mechanisms 41 along both sides perpendicular to the stacking direction of the plurality of glass substrates 5, and the number of the telescopic mechanisms 41 on one side of the weighing device 2 is not limited in the present disclosure.

Alternatively, as shown in fig. 1, the retracting mechanism 41 is movably connected to the horizontal support 12 in the stacking direction of the glass substrates 5, and the aligning apparatus 4 further includes a driving mechanism for driving the retracting mechanism 41 to move, and since the glass substrates 5 increase in number and the stacking thickness increases, during which a plurality of alignments are required at different stacking thicknesses. The retracting mechanism 41 is provided to be movable in the stacking direction of the glass substrates 5, and when the stacking thickness of the glass substrates 5 is different, the retracting mechanism 41 can be moved to different positions, and the side edges of the glass substrates 5 are clamped by the retracting mechanism so that the side edges of the glass substrates 5 are flush. So set up for alignment device 4 also can normally work when facing different glass substrate 5 that pile up the thickness, has promoted alignment device 4's flexibility.

Optionally, in an embodiment of the present disclosure, the alignment device 4 further includes a connecting rod, two ends of the connecting rod are respectively connected to the telescopic mechanisms 41 on two sides of the weighing device 2, at least one of the telescopic mechanisms 41 is connected to a driving mechanism, when the driving mechanism drives the telescopic mechanisms 41 to move, under the driving of the connecting rod, the other telescopic mechanisms 41 also move together, so as to simultaneously clamp the glass substrate 5 on two sides of the weighing device 2, and make the side edges of the glass substrate 5 flush. So set up, on the one hand can reduce actuating mechanism's the quantity of setting, retrench the structure of aligning device 4, on the other hand can link telescopic machanism 41, promotes telescopic machanism 41's the tight alignment effect of clamp.

In order to improve the automation degree of the alignment device 4, optionally, the glass substrate 5 further includes a controller, the counter 3 and the telescoping mechanism 41 are both electrically connected to the controller, when the number of the glass substrates 5 on the glass substrate carrier plate rack reaches a set number, the counter 3 sends the number information to the controller, the controller starts the driving mechanism, drives the telescoping mechanism 41 to move to a suitable position where the glass substrates 5 are currently stacked in thickness, and clamps the glass substrates 5 from both sides of the weighing device 2 so that the side edges of the glass substrates 5 are flush. This kind of mode can be when operating personnel turns over the piece and pile up self-holding alignment glass substrate 5, need not manual operation, has reduced intensity of labour, has promoted work efficiency.

In order to improve the flexibility of the alignment device 4, optionally, the alignment device 4 may further include an operation panel 43, and the operation panel 43 is electrically connected to the driving mechanism and the telescoping mechanism 41, so that an operator can control the driving mechanism and the telescoping mechanism 41 through the operation panel 43, so that the telescoping mechanism 41 moves to different positions on two sides of the weighing device 2 under the driving of the driving mechanism to push the glass substrate 5 to be adjusted. The operator can better control the drive mechanism and the telescopic mechanism 41 through the operation panel 43.

Optionally, as an embodiment, as shown in fig. 2, the aligning device 4 further includes a lead screw 42, the weighing device 2 is provided with lead screws 42 on both sides perpendicular to the stacking direction of the plurality of glass substrates 5, the lead screws 42 are rotatably connected to the horizontal bracket 12, the telescopic mechanism 41 is sleeved on the lead screws 42 and forms a lead screw nut pair with the lead screws 42, and the driving mechanism is connected to the lead screws 42 and is used for driving the lead screws 42 to rotate. Adopt the screw-nut pair to convert the rotation of lead screw 42 into telescopic machanism 41 along the length direction's of lead screw 42 linear motion, to the thickness of piling up of different glass substrate 5, can both pinpoint, the structure is also comparatively simple simultaneously.

Optionally, as another embodiment, the alignment device 4 further includes a guide rail, two sides of the weighing device 2 along a direction perpendicular to the stacking direction of the plurality of glass substrates 5 are provided with the guide rail, the telescoping mechanism 41 is slidably connected to the guide rail, and the driving mechanism is connected to the telescoping mechanism 41 and is used for pushing the telescoping mechanism 41 to slide in the guide rail. The guide rail is adopted for moving and guiding the telescopic mechanism 41, the sliding is more flexible, the friction force between the telescopic mechanism 41 and the guide rail is small, and the guide rail is simple in structure and convenient to install.

Alternatively, the retracting mechanism 41 may be a cylinder including a cylinder body and a piston rod, one end of the piston rod away from the cylinder body being used for contacting the side edge of the glass substrate 5. The cylinder has simple structure, convenient control, fast execution and high working efficiency.

Here, the present disclosure does not limit the type of the telescopic mechanism 41, and for example, a linear motor, a telescopic rod, or the like may be used as the telescopic mechanism 41.

Optionally, one end of the piston rod away from the cylinder is provided with a push plate extending in the stacking direction of the plurality of glass substrates 5. Because the glass substrate 5 that piles up has certain thickness, adopt telescopic machanism 41 to promote probably can't make a plurality of glass substrate 5 flush simultaneously simply, through the setting of push pedal, can increase telescopic machanism 41 application of force area, also make the side of a plurality of glass substrate 5 can both use the plane of push pedal and glass substrate 5 contact as the reference surface to align, thereby press from both sides tight all glass substrate 5 once only, improve aligning device 4's work efficiency.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, various possible combinations will not be separately described in this disclosure.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A glass substrate carrier plate frame, comprising:

the glass substrate supporting device comprises a support (1), wherein the support (1) comprises a vertical support (11) and a horizontal support (12), and an abutting part (13) for abutting against a glass substrate (5) is formed on the vertical support (11);

the weighing device (2) is arranged on the horizontal bracket (12) and is used for bearing the glass substrate (5), and the weighing device (2) is used for weighing the weight of the glass substrate (5) borne by the weighing device;

a counter (3) mounted on the support (1) and electrically connected to the weighing device (2) so that the counter (3) can determine the number of the glass substrates (5) according to the weight weighed by the weighing device (2).

2. A glass substrate cassette rack according to claim 1, characterized in that the abutment (13) is an inclined bracket connected between the vertical bracket (11) and the horizontal bracket (12).

3. A glass substrate carrier plate rack according to claim 1, wherein the surface of the weighing means (2) intended to be in contact with the glass substrate (5) is provided with a non-slip layer.

4. A glass substrate carrier rack according to any of claims 1-3, further comprising an alignment device (4), wherein the alignment device (4) comprises a telescoping mechanism (41), wherein the weighing device (2) is provided with the telescoping mechanism (41) along both sides perpendicular to the stacking direction of the plurality of glass substrates (5), and wherein the telescoping mechanisms (41) on both sides of the weighing device (2) are used for commonly clamping the plurality of glass substrates (5) carried by the weighing device (2) so that the side edges of the plurality of glass substrates (5) can be leveled.

5. A glass substrate carrier rack according to claim 4, wherein the telescopic mechanism (41) is movably connected to the horizontal support (12) in the stacking direction of the glass substrates (5), the alignment device (4) further comprising a drive mechanism for driving the telescopic mechanism (41) to move.

6. A glass substrate carrier plate rack according to claim 5, wherein the aligning device (4) further comprises a lead screw (42), the weighing device (2) is provided with the lead screw (42) along both sides perpendicular to the stacking direction of the plurality of glass substrates (5), the lead screw (42) is rotatably connected to the horizontal bracket (12), the telescopic mechanism (41) is sleeved on the lead screw (42) and forms a lead screw nut pair with the lead screw (42), and the driving mechanism is connected with the lead screw (42) and is used for driving the lead screw (42) to rotate.

7. A glass substrate carrier rack according to claim 5, wherein the aligning device (4) further comprises a guide rail, the weighing device (2) is provided with the guide rail along both sides perpendicular to the stacking direction of the plurality of glass substrates (5), the telescoping mechanism (41) is slidably connected to the guide rail, and the driving mechanism is connected with the telescoping mechanism (41) and is used for pushing the telescoping mechanism (41) to slide in the guide rail.

8. A glass substrate carrier plate rack according to claim 4, wherein the retracting mechanism (41) is a gas cylinder comprising a cylinder body and a piston rod, the end of the piston rod remote from the cylinder body being adapted to contact the side edge of the glass substrate (5).

9. A glass substrate carrier plate rack according to claim 8, wherein the end of the piston rod remote from the cylinder is provided with a push plate extending in the stacking direction of a plurality of the glass substrates (5).

10. The glass substrate carrier rack of claim 4, further comprising a controller, wherein the counter (3) and the telescoping mechanism (41) are both electrically connected to the controller.

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