KR20120067424A - Apparatus for engraving qr code - Google Patents

Abstract

PURPOSE: A QR(Quick Response) code engraving apparatus is provided to easily engrave a QR code on a slate using a machine having a head unit without burning the slate. CONSTITUTION: A QR code engraving apparatus(100) comprises a slate(10), a base plate(110) on which the slate is placed, a supporter(120) which is bent at the top of the base plate and supports the side of the slate, a carrier(130) which is installed on the top of the base plate and moved back and forth, a machine which has a head unit(141) for engraving a QR code(Q) on the surface of the slate according to data input through a computer, an air sprayer(150) which removes the residues from the engraved slate, and a slate position detecting sensor(160) which is located on the same line as the head unit and recognizes the position of the slate to engrave to the edge of the slate.

Description

Apparatus for Engraving QR code}

The present invention relates to a device for processing a QR code, and more particularly to a device for processing a QR code stippled QR code using an ultra-precision processing machine on a slab.

In general, if you create a memorial plaque, gratitude plaque, stone monument, etc. by realistically carving the photo of the wedding, the winner's photo, and the deceased on the slab as it is, you can keep the souvenir for a long time.

A QR code with unique data, such as a memorial plaque, a plaque of honor, a monument, and a coin box, can be engraved, and you can share your own information through the data from this QR code. Can be provided.

A QR code is a two-dimensional bar code in matrix format representing information in a black and white plaid pattern. QR code is a two-dimensional bar code that overcomes the limitations of conventional bar codes and expands its format and contents, and can store data of characters other than numbers by having vertical and horizontal information.

In the early days, it was widely used for product management, such as automobile parts production management, and was widely used as a replacement for existing barcodes. Since then, Japan has evolved into a means for retrieving connected Internet information by printing QR codes on various print media using camera phones.

For example, when inserting a magazine ad into a camera phone, a variety of applications are being developed that can recognize codes, link to websites, show more detailed information, or print QR codes on business cards, making it easier to enter personal information.

Conventionally, in the same principle as printing photographic images on paper with a computer and a printing press, the laser is focused on an intense laser at one point according to the data of the QR code input to the computer, and the surface of the object is cut off or the skin of the slab is lasered. It uses a method of expressing QR codes (pictures or photos) by discoloring them by burning them with light rays.

However, in such a conventional structure, when processing the QR code of the black and white lattice pattern, there is a problem that the pattern of the black and white lattice is not stippled due to the intense laser beam, the surface of the slab is easily burned.

In addition, there is a problem that the left remains of burned slabs black on the slab surface is not smooth processing.

The visual expression method that discolors the surface of the slab, rather than physically shaving it, cannot be perceived by the touch as the texture of the surface state of the slab after processing. This lowers and there is a fear of discoloration in long term storage.

In addition, due to the distance deviation of the sensor unit for recognizing the position of the machine and the slab there is a problem that not all the edges of the slab are processed.

An object of the present invention is to solve the problems of the prior art as described above, it is easy to stipple the QR code on the surface of the slab with a processing machine equipped with a needle, and provided with an air sprayer on the top of the slab, slab powder, etc. It is to provide a device for processing the QR code to remove the residue of the processing to proceed smoothly.

Another object of the present invention is to provide a device for processing a QR code that can be processed to the edge of the slab by providing a position sensor on the same line as the processing machine.

Apparatus 100 for processing a QR code according to the present invention for achieving the above object, plate-shaped slab 10 and; A base plate 110 on which the slab 10 is placed; It is formed to be bent in the upper portion of the base plate 110, the support 120 for supporting the side so that the stone plate 10 does not flow; A carrier (130) mounted on the upper side of the base plate (110) so as to be movable back and forth; A processing unit (140) formed on the carrier (130) and provided with a head portion (141) for stippled the surface of the slab (10) to carve a QR code (Q) by data input to a computer; An air injector 150 formed on one side of the processing machine 140 to remove the residue of the slab 10 stippled by the processing machine 140; It is formed on one side of the processing machine 140, is located on the same line as the head portion 141, the slab position recognition sensor 160 for recognizing the position to stipple up to the edge of the slab 10; It is done.

The head portion 141 is characterized in that the engraving on the surface of the slab 10 by varying the point density according to the brightness of the QR code (Q).

The slab position recognition sensor 160, the elastic connection member is built in the processing machine 140, the one end is supported by the elastic connection member and connected to the other end of the bent portion 161 The plate portion 162 is disposed in the same position on the vertical line and the head portion 141 is provided, the plate portion 162 is characterized in that it comprises a through hole 163 through which the head portion 141 can pass. It is done.

The air injector 150 is characterized in that at least one is formed in a position symmetric up, down, left and right on the carrier 130.

The processing machine 140 is configured to be rotatable, and the slab position recognition sensor 160 is configured to recognize the position of the slab 10 at the tip of the head portion 141 in the processing progress direction. .

Apparatus for processing the QR code according to the present invention has the following effects.

In the present invention, by stippled the surface of the slab with a processing machine provided with a head portion, there is an effect that can easily stipple the QR code (Q) without burning the slab.

In addition, the air injector provided on one side of the processing machine has an effect of smoothly proceeding by removing residues such as slab powder remaining on the surface of the slab.

In addition, the slab position sensor is provided on the same line as the head of the machine, there is no distance deviation between the machine and the slab position sensor, the machine can move to the edge of the slab to stipple the slab.

1 is a perspective view showing the configuration of a preferred embodiment of a device for processing a QR code according to the present invention.
Figure 2 is a plan view showing the configuration of a preferred embodiment of a device for processing a QR code according to the present invention.
Figure 3 is a plan view showing the configuration of the processing machine and the slab position recognition sensor of the apparatus for processing a QR code according to the present invention.
Figure 4 is a front view showing the configuration of a processing machine of the apparatus for processing a QR code according to the present invention.

Hereinafter, a configuration of an apparatus for processing a QR code according to the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing the configuration of a preferred embodiment of the apparatus for processing a QR code according to the present invention, Figure 2 is a plan view showing a configuration of a preferred embodiment of the apparatus for processing a QR code according to the present invention, Figure 3 4 is a plan view showing the configuration of a machine for processing a QR code and a slab position recognition sensor according to the present invention, and FIG. 4 is a front view showing the configuration of a machine for processing a QR code according to the present invention.

As shown in FIG. 1, the apparatus 100 for processing a QR code supports a plate-shaped slab 10, a base plate 110 on which the slab 10 is placed, and the slab 10. Support 120, the carrier 130 to move back and forth, left and right, the processing machine 140 to carve the QR code (Q), the air sprayer 150 to remove the residue of the slab 10, and the slab ( 10) is composed of a slab position recognition sensor 160 for recognizing the position.

The base plate 110 is formed in a flat plate shape, and serves to support the lower portion of the stone plate 10 so as to stably horizontally put the stone plate 10 to engrave the QR code Q.

The support 120 is provided on the base plate 110. The support 120 serves to support the side of the slab 10 in a shape bent along the edge of the slab 10.

On the upper surface of the support 120, the dimension portion 121 is marked in the longitudinal direction is formed. The dimension part 121 measures the length of the slab 10 and serves to measure a position to be processed.

The support 120 may be formed in a double structure consisting of an inner member 120a and an outer member 120b. That is, the inner member 120a is fixed, and the outer member 120b formed on the outer surface of the inner member 120a slides along the longitudinal direction of the base plate 110 to move the It serves to support the end, regardless of size.

The support 120 is provided with a fastening hole that can be fastened to the base plate 110 on the bottom surface in contact with the base plate 110 in a detachable form with the base plate 110, the fastening member to be described below It is fixed to the base plate 110 through 122.

One side of the support 120, a fastening member 122 is provided. The fastening member 122 is coupled to and separated from the base plate 110 through a fastening hole of the support 120.

In addition, the support 120 may be detachable by an adhesive tape to the base plate 110.

The carrier 130 is provided above the base plate 110. The carrier 130 moves to the front and rear (A direction) with respect to the base plate 110, thereby moving the processing machine 140 to be described later (A direction) of the base plate 110. .

The carrier 130 has a crossbar 131 on which the processing machine 140 to be described below is mounted, and the crossbar 131 on the base plate in a state in which the crossbar 131 is kept at a predetermined distance from the base plate 110. The vertical pole 132 which supports both sides of the 110 so that a movement is possible, and the carrier drive mechanism which moves the said carrier 130 in the front-back direction is comprised.

The crossbar 131 of the carrier 130 is provided with a processing machine 140. The head portion 141 for stipple the surface of the slab 10 is mounted to the lower portion of the processing machine 140, the head portion driving to drive the head portion 141 on the upper portion of the processing machine 140. A mechanism is provided. The head part 141 vibrates up and down on the slab 10 and serves to stipple the surface of the slab 10.

The machine 140 is driven to move left and right (B direction) to the carrier 130, the drive of the machine 140 relative to the carrier 130 is driven by the control of the computer head drive By means of a mechanism.

One side of the processing machine 140, the air sprayer 150 is provided. In more detail, the air injector 150 is provided to protrude toward the surface of the slab 10 from the upper portion of the processing machine 140. The air injector 150 is configured to be movable to the left and right (B direction) in the same way as the processor 140. The air injector 150 is formed at one or more symmetrical positions in the processing machine 140, and serves to remove the residue of the slab 10 stippled by the processing machine 140.

One side of the head portion 141 of the processing machine 140 is provided with a slab position recognition sensor 160. The slab position recognition sensor 160 is connected to the bent portion 161, one end of which is supported by the elastic member E compressed in the processing machine 140 and the other end of the bent portion 161, the head portion It consists of a plate-shaped portion 162 which is placed at the same position on the vertical line and 141.

The bent portion 161 is formed in a plate shape, and serves to support one end of the plate portion 162 at the tip of the head portion 141 of the processing machine 140.

형상'으로 상기 헤드부(141)가 관통될 수 있도록 중앙부에 관통홀(163)이 마련되어, 상기 가공기(140)가 상기 석판(10)의 가장자리까지 점각할 수 있도록 석판위치를 감지하는 역할을 한다. The plate portion 162 is'

The through hole 163 is provided at the center portion so that the head portion 141 can be penetrated into a shape, and serves to sense the position of the slab so that the processing machine 140 can be stippled to the edge of the slab 10. .

Hereinafter, the operation of the apparatus 100 for processing the QR code according to the present invention having the configuration as described above will be described in detail.

First, the apparatus 100 for processing a QR code according to the present invention is supplied with power through a power cable, and connected to a computer via a communication cable, the computer operates the apparatus 100 for processing a QR code of the present invention. The program to install is installed.

 Place the slab 10 to be carved at the set position of the base plate 110. The base plate 110 may be coated with a rubber plate or the like on the surface in order to firmly fix the stone plate (10). The slab 10 is fixed to the support plate 120 provided on the upper portion of the base plate 110 so as not to flow.

According to the size of the slab 10, the length of the outer member 120b of the support 120 can be adjusted by sliding back and forth (A direction) with respect to the base plate 110.

The head part 141 of the processing machine 140 is moved to the stipple starting point of the slab 10 on the fixed slab 10 surface, and the head part 141 is installed to contact the surface of the slab 10.

When the preparation process of the apparatus 100 for processing such a QR code is completed, the processor 140 is driven to stipple the QR code (Q) received by the computer on the slab (10).

The head part 141 of the said processing machine is comprised by the ultra-precision needle, and is controlled to oscillate up and down on the surface of the said slab 10, and stipples the surface of the said slab 10. FIG.

While stippleing the slab 10 with the processing machine 140, residues such as slab powder are generated on the surface of the slab 10. At this time, the pair of air injectors 150 provided in the up, down, left and right symmetry around the head portion 141 of the processing machine 140 is driven at the same time as the processing proceeds, the slab processed by the processing machine 140 The residue of (10) will be removed.

As shown in Figure 4, the elastic member (E) formed on the upper portion of the processing machine 140 is connected to one end of the bent portion 161 of the lithographic position recognition sensor 160, the elastic force in the direction of processing Works. The plate-shaped portion 162 of the slab position recognition sensor 160 is seated on the surface of the slab 10 to recognize the position of the slab 10.

The slab position recognition sensor 160 is released from the surface of the slab 10 while the elastic member E is restored at the point where the slab 10 ends, that is, the edge of the slab position recognition sensor 160. Since the position of the slab 10 is not recognized, the driving of the processing machine 140 is stopped.

When the processing machine 140 drives in the reverse direction with respect to the direction in which the processing proceeds, since the slab position recognition sensor 160 is located at the rear end of the head part 141, the position of the slab 10 is not recognized. I can't.

In order for the slab position recognition sensor 160 to recognize the position of the slab 10, the slab position recognition sensor 160 should be formed at the tip of the head portion 141 of the processing machine 140 in a direction in which the slab is processed.

Therefore, a driving mechanism is provided on the upper part of the processing machine 140 so that the processing machine 140 rotates according to the direction in which the processing proceeds. When the processing machine 140 rotates, the slab position recognition sensor 160 is provided. Will also rotate simultaneously.

That is, the slab position recognition sensor 160, the processing machine 140 is moved up and down (A direction) and left and right (B direction), when processing the edges of the slab 10, the processing is in progress It rotates along the direction and is located at the front end than the head portion 141 of the processing machine 140 so as to recognize the position of the slab 10 can be processed.

By the apparatus 100 for processing the QR code according to the present invention as described above, the slab 10 does not leave a margin to the edge of the slab 10 is made. QR code (Q) carved on the slab 10 is expressed in contrast and outline by the density of the point.

The slab 10 carved QR code (Q) produced by the apparatus 100 for processing a QR code according to the present invention, various art works, interior, monument, crypt, environment according to the purpose of use of the slab 10 It can be produced in various ways such as sculptures, figures and personal collections.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

10. Slab 100. QR code processing device
110. Base plate 120. Support plate
121. Dimensions 122. Fastening members
130. Carrier 140. Machine
141.Head 150.Air Injection
160. Slab position recognition sensor 161. Bending part
162. Plate Section 163. Through Hole

Claims (5)

Plate-shaped slab 10;
A base plate 110 on which the slab 10 is placed;
It is formed to be bent in the upper portion of the base plate 110, the support 120 for supporting the side so that the stone plate 10 does not flow;
A carrier (130) mounted on the upper side of the base plate (110) so as to be movable back and forth;
A processing unit (140) formed on the carrier (130) and provided with a head portion (141) for stippled the surface of the slab (10) to carve a QR code (Q) by data input to a computer;
An air injector 150 formed on one side of the processing machine 140 to remove the residue of the slab 10 stippled by the processing machine 140;
It is formed on one side of the processing machine 140, is located on the same line as the head portion 141, the slab position recognition sensor 160 for recognizing the position to stipple up to the edge of the slab 10; Apparatus 100 for processing a QR code, characterized in that. The method of claim 1,
The head part 141,
Apparatus for processing a QR code, characterized in that the surface of the slab 10 is carved by varying the point density according to the brightness of the QR code (Q). The method of claim 1,
The slab position recognition sensor 160,
An elastic connection member is built in the processing machine 140, and is connected to the bent portion 161 supported at one end by the elastic connecting member and the other end of the bent portion 161, and is vertically identical to the head portion 141. Apparatus for processing a QR code which is provided with a plate-shaped portion (162) placed in a position, the plate-shaped portion (162) comprises a through hole (163) so that the head portion (141) can penetrate. The method of claim 1,
The air injector 150,
Apparatus for processing a QR code, characterized in that at least one is formed in a position symmetric up, down, left and right on the carrier (130). The method of claim 1,
The processing machine 140,
Is configured to be rotatable, the apparatus for processing a QR code, characterized in that the slab position recognition sensor 160 is configured to recognize the position of the slab 10 at the tip than the head portion 141 in the machining progress direction ( 100).

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