CN214937018U - Glass scribing machine - Google Patents

Abstract

The utility model provides a glass scribing machine, including scribing table, feed mechanism and scribing mechanism, through setting up a plurality of air vents on the scribing table, and make the air vent connect vacuum pipeline and compressed air pipeline, when needing to scribe the glass on the scribing table, through inserting the vacuum at the air vent and adsorbing glass on the surface of scribing table, make glass fixed, after the scribing of glass is accomplished, through inserting compressed air at the air vent and making glass suspend, convenient to transfer, the security is high; the glass cutter is connected to the end part of the air cylinder rod of the pressing air cylinder, so that the glass cutter can move up and down under the driving of the air cylinder rod, the glass cutter can cut glass at constant pressure, the end surface of the glass is neat, and the effect is good; through connecting the air cylinder that pushes down on the first slider of the first slide rail of two coordinate transfer devices for the glass sword can follow the air cylinder that pushes down and move along front and back, left and right directions relative to the scribing platform under two coordinate transfer devices's drive, can mark various shapes, and is efficient.

Description

Glass scribing machine

Technical Field

The utility model relates to a glass manufacturing field, in particular to glass scriber.

Background

In the process of processing and manufacturing glass, a large piece of glass needs to be scratched into various shapes according to different purposes and different requirements, when the glass is scratched, a manual glass scratching mode is usually adopted, the efficiency is low, the danger is high, and when the glass is scratched into a special shape, the end face of the glass is not neat.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art and providing a glass scribing machine with high efficiency, good safety and neat end surface.

In order to achieve the above object, the utility model adopts the technical scheme that a glass scribing machine comprises:

a scribing table;

the glass scribing machine comprises a feeding mechanism, a scribing table and a scribing mechanism, wherein the feeding mechanism is used for conveying glass to be scribed to the scribing table;

the scribing mechanism is used for scribing the glass on the scribing table into a required shape;

a plurality of vent holes are uniformly distributed on the scribing table, openings of the vent holes are positioned on the upper surface of the scribing table, the vent holes are connected with a vacuum pipeline and a compressed air pipeline, the scribing table comprises a Teflon layer positioned on the upper surface of the scribing table, and the vent holes penetrate through the Teflon layer;

the scribing mechanism comprises a two-coordinate transferring device, a pressing cylinder and a glass cutter, wherein the two-coordinate transferring device comprises a first slide rail located above the scribing table, the pressing cylinder is connected to a first slide block of the first slide rail, the glass cutter is connected to the end portion of a cylinder rod of the pressing cylinder, the glass cutter can move up and down under the driving of the cylinder rod, and the glass cutter can also move along the front-back direction and the left-right direction relative to the scribing table under the driving of the two-coordinate transferring device along with the pressing cylinder.

Preferably, the scribing mechanism further comprises a limiting device, the limiting device is used for limiting the distance of the air cylinder rod driving the glass cutter to move downwards, and the limiting device is fixedly connected to the cylinder body of the air cylinder.

Further preferably, the limiting device is a mechanical limiting device, the limiting device comprises an L-shaped limiting plate, the plate surface of the limiting plate extending in the vertical direction is detachably fixed on the cylinder body, and the plate surface of the limiting plate extending in the horizontal direction is located right below the cylinder rod.

Preferably, the scribing mechanism further comprises a pressure regulating valve, the pressure regulating valve is connected in series with a gas supply path of the lower pressing cylinder, and the pressure regulating valve is used for regulating the pressure when the glass cutter scribes the glass.

More preferably, the pressure regulating valve is a digital display precision pressure regulating valve capable of keeping the air pressure in the cylinder constant at a set value.

Preferably, the dicing table comprises a terrazzo body, and the teflon layer covers the upper surface of the terrazzo body.

Preferably, the two-coordinate transfer device further comprises a second slide rail and a vertical rod, the second slide rail is located below the scribing table and located on two sides of the scribing table, the vertical rod is connected to a second slide block of the second slide rail, and the first slide rail is erected on the vertical rod.

Further preferably, the second slide rail extends in the front-rear direction.

Preferably, the first slide rail extends in a left-right direction.

Further preferably, the glass cutter is positioned on one side of the first slide rail.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. the plurality of vent holes are formed in the scribing table and are connected with the vacuum pipeline and the compressed air pipeline, when the glass on the scribing table needs to be scribed, the vacuum is connected into the vent holes to adsorb the glass on the surface of the scribing table, so that the glass is fixed, and after the scribing of the glass is finished, the compressed air is connected into the vent holes to enable the glass to be suspended, so that the transfer is convenient, and the safety is high;

2. the glass cutter is connected to the end part of the air cylinder rod of the pressing air cylinder, so that the glass cutter can move up and down under the driving of the air cylinder rod, the glass cutter can cut glass at constant pressure, the end face is neat, and the cutting effect is good;

3. through connecting the air cylinder that pushes down on the first slider of two coordinate transfer device's first slide rail for the glass sword can follow the air cylinder that pushes down and remove along front and back, left and right directions for the scribing table under two coordinate transfer device's drive, can the scribing go out various shapes, and is efficient.

Drawings

Fig. 1 is a schematic front view, partially in section, of a preferred embodiment of the present invention.

Fig. 2 is a schematic top view of fig. 1.

Fig. 3 is a partially enlarged view of a portion a in fig. 1.

Wherein: 100. a scribing table; 101. a terrazzo body; 102. a Teflon layer; 103. a vent hole; 104. a vacuum line; 105. a compressed air conduit; 200. a feeding mechanism; 201. a sucker component; 202. a rotating device; 203. a three-coordinate transfer device; 204. a support frame; 2041. a cross beam; 300. a scribing mechanism; 301. a two-coordinate transfer device; 3011. a first slide rail; 3012. a first slider; 3013. a second slide rail; 3014. a second slider; 3015. erecting a rod; 302. pressing down the air cylinder; 3021. a cylinder rod; 3022. a limiting plate; 3023. a cylinder body; 303. a glass cutter; 3031. a diamond scribe head; 304. a pressure regulating valve.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to more easily understand the advantages and features of the present invention, and to make clear and definite definitions of the protection scope of the present invention.

The utility model discloses the upper and lower direction of description is the upper and lower direction in figure 1, the left and right sides direction of description is the left and right sides direction in figure 1, the fore-and-aft direction of well description is the upper and lower direction in figure 2.

As shown in fig. 1-3, the utility model provides a glass scribing machine, include: the dicing table 100 comprises a dicing table 100, a feeding mechanism 200 and a dicing mechanism 300, wherein a plurality of vent holes 103 are uniformly distributed on the dicing table 100, the openings of the vent holes 103 are positioned on the upper surface of the dicing table 100, the vent holes 103 are connected with a vacuum pipeline 104 and a compressed air pipeline 105, the dicing table 100 comprises a Teflon layer 102 positioned on the upper surface of the dicing table, and the vent holes 103 penetrate through the Teflon layer 102; the feeding mechanism 200 is used for conveying glass to be scribed to a scribing table, the feeding mechanism 200 comprises a sucker assembly 201, a rotating device 202, a three-coordinate transfer device 203 and a support frame 204, the sucker assembly 201 is connected to the rotating device 202, the rotating device 202 is connected to the three-coordinate transfer device 203, the rotating device 202 is a double-head motor, the three-coordinate transfer device 203 is arranged on a cross beam 2041 of the support frame 204, the sucker assembly 201 can rotate under the driving of the rotating device 202, the rotating axis of the sucker assembly 201 is parallel to the horizontal plane, and the sucker assembly 201 can also move in the vertical, front-back and left-right directions relative to the support frame 204 under the driving of the three-coordinate transfer device 203 along with the rotating device 202; the scribing mechanism 300 is used for scribing the glass on the scribing table 100 into a desired shape; the scribing mechanism 300 comprises a two-coordinate transfer device 301, a down-pressing cylinder 302 and a glass cutter 303, wherein the two-coordinate transfer device 301 comprises a first slide rail 3011 positioned above the scribing table 100, the down-pressing cylinder 302 is connected to a first slide block 3012 of the first slide rail 3011, the glass cutter 303 is connected to the end part of a cylinder rod 3021 of the down-pressing cylinder 302, the glass cutter 303 can move up and down under the driving of the cylinder rod 3021, and the glass cutter 303 can also move along the front-back and left-right directions relative to the scribing table 100 under the driving of the two-coordinate transfer device 301 along with the down-pressing cylinder 302.

Be equipped with diamond scribing head 3031 on glass sword 303, diamond scribing head 3031 impresses the glass of taking the scribing and carries out the scribing, lead to glass to split in advance and cause the damage for preventing that diamond scribing head 3031 from impressing too deeply, scribing mechanism 300 still includes stop device, in this embodiment, stop device is mechanical stop device, specifically, stop device is the limiting plate 3022 of an L-shaped, limiting plate 3022 is used for injecing the distance that cylinder rod 3021 drove glass sword 303 and moves down, the face detachably that limiting plate 3022 extended along the upper and lower direction is fixed on cylinder body 3023, the face that limiting plate 3022 extended along the horizontal direction is located cylinder rod 3021 under.

The scribing mechanism 300 further comprises a pressure regulating valve 304, the pressure regulating valve 304 is detachably fixed on the first slider 3012 and is connected in series to a gas supply path (not shown in the gas supply path) of the down-pressure cylinder 302, the pressure regulating valve 304 is used for regulating the pressure when the glass blade 303 scribes the glass, in order to prevent the air pressure fluctuation caused by the change of the volume of the cavity inside the cylinder 3023 when the cylinder rod 3021 extends and contracts, the pressure regulating valve 304 is a digital display precision pressure regulating valve, and the pressure regulating valve 304 can keep the air pressure inside the cylinder 3023 at a set value.

In some embodiments, the dicing table 100 includes a terrazzo body 101, the terrazzo body 101 has a relatively smooth and flat surface, and the teflon layer 102 is a teflon tape bonded to the upper surface of the terrazzo body 101, which provides the advantage of providing a relatively flat upper surface through the terrazzo body 101, making the upper surface of the terrazzo body 101 smoother through the teflon tape, and also extending the service life of the terrazzo body 101.

The two-coordinate transfer device 301 further includes a second slide rail 3013 and a vertical rod 3015, the second slide rail 3013 is located below the scribing table 100 and located at two sides of the scribing table 100, the vertical rod 3015 is connected to a second slide block 3014 of the second slide rail 3013, the first slide rail 3011 is erected on the vertical rod 3015, in this embodiment, the second slide rail 3013 extends in the front-back direction, the first slide rail 3011 extends in the left-right direction, and the glass cutter 303 is located at one side of the first slide rail 3011.

It should be noted that the two-coordinate transfer device and the three-coordinate transfer device inevitably include driving components such as a motor and a screw pair, which belong to the prior art and are not described herein again.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. the plurality of vent holes are formed in the scribing table and are connected with the vacuum pipeline and the compressed air pipeline, when the glass on the scribing table needs to be scribed, the vacuum is connected into the vent holes to adsorb the glass on the surface of the scribing table, so that the glass is fixed, and after the scribing of the glass is finished, the compressed air is connected into the vent holes to enable the glass to be suspended, so that the transfer is convenient, and the safety is high;

2. the glass cutter is connected to the end part of the air cylinder rod of the pressing air cylinder, so that the glass cutter can move up and down under the driving of the air cylinder rod, the glass cutter can cut glass at constant pressure, the end face is neat, and the cutting effect is good;

3. through connecting the air cylinder that pushes down on the first slider of two coordinate transfer device's first slide rail for the glass sword can follow the air cylinder that pushes down and remove along front and back, left and right directions for the scribing table under two coordinate transfer device's drive, can the scribing go out various shapes, and is efficient.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. A glass scribe, comprising:

a scribing table;

the glass scribing machine comprises a feeding mechanism, a scribing table and a scribing mechanism, wherein the feeding mechanism is used for conveying glass to be scribed to the scribing table;

the scribing mechanism is used for scribing the glass on the scribing table into a required shape;

the method is characterized in that:

a plurality of vent holes are uniformly distributed on the scribing table, openings of the vent holes are positioned on the upper surface of the scribing table, the vent holes are connected with a vacuum pipeline and a compressed air pipeline, the scribing table comprises a Teflon layer positioned on the upper surface of the scribing table, and the vent holes penetrate through the Teflon layer;

the scribing mechanism comprises a two-coordinate transferring device, a pressing cylinder and a glass cutter, wherein the two-coordinate transferring device comprises a first slide rail located above the scribing table, the pressing cylinder is connected to a first slide block of the first slide rail, the glass cutter is connected to the end portion of a cylinder rod of the pressing cylinder, the glass cutter can move up and down under the driving of the cylinder rod, and the glass cutter can also move along the front-back direction and the left-right direction relative to the scribing table under the driving of the two-coordinate transferring device along with the pressing cylinder.

2. The glass scribe according to claim 1, wherein: the scribing mechanism further comprises a limiting device, the limiting device is used for limiting the distance of the air cylinder rod for driving the glass cutter to move downwards, and the limiting device is fixedly connected to a cylinder body of the air cylinder.

3. The glass scribe according to claim 2, wherein: the limiting device is a mechanical limiting device and comprises an L-shaped limiting plate, the surface of the limiting plate extending in the vertical direction is detachably fixed on the cylinder body, and the surface of the limiting plate extending in the horizontal direction is located right below the cylinder rod.

4. The glass scribe according to claim 1, wherein: the scribing mechanism further comprises a pressure regulating valve, the pressure regulating valve is connected in series with a gas supply path of the pressing cylinder and is used for regulating the pressure of the glass cutter during scribing the glass.

5. The glass scribe according to claim 4, wherein: the pressure regulating valve is a digital display precision pressure regulating valve and can keep the air pressure in the cylinder body constant at a set value.

6. The glass scribe according to claim 1, wherein: the scribing table comprises a terrazzo body, and the Teflon layer covers the upper surface of the terrazzo body.

7. The glass scribe according to claim 1, wherein: the two-coordinate transfer device further comprises a second slide rail and a vertical rod, the second slide rail is located below the scribing table and located on two sides of the scribing table, the vertical rod is connected to a second slide block of the second slide rail, and the first slide rail is erected on the vertical rod.

8. The glass scribe according to claim 7, wherein: the second slide rail extends in the front-rear direction.

9. The glass scribe according to claim 1, wherein: the first slide rail extends along the left-right direction.

10. The glass scribe according to any one of claims 1 to 9, wherein: the glass cutter is positioned on one side of the first sliding rail.

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