KR102204266B1 - A paper boring machine - Google Patents

Abstract

The present invention detects the accumulation of waste chips generated during the paper punching operation to prevent forgery and theft of checks, gift certificates, securities, and important documents, and the paper punching operation to organize documents, and discharge timing of the discarded chips It relates to a composite perforator that can be easily seen, and more specifically, a body with a collection space formed inside and an open outer surface to show the collection space; and a pair of side plates installed side by side in the collection space And;, a spacer plate installed between a pair of side plates, and a rotation hole formed on the outer surface;, installed between a pair of side plates above the collection space, and the stacked first and second papers are input respectively The first and second paper input spaces are formed on the outer surface, a plurality of authentication mark holes connected to the first and second paper input spaces are formed on the outer surface, and a plurality of stitch holes connected to the second paper input space and collection space A paper fixing member formed on the outer surface, the guide rod is formed on the outer surface, and the discharge hole connected to the second paper input space and the collection space is formed on the outer surface under the plurality of authentication mark holes; and guided along the guide rod. A guide hole is formed on the outer surface, and a plurality of first and second perforation pins are mounted to form holes in the stacked first and second paper by penetrating through a plurality of authentication mark holes and a plurality of knitting holes, respectively, and facing the rotation hole. A paper perforation member having an operating space formed on the outer surface of the beam; and a rotating shaft installed between a pair of side plates and rotatably installed in the rotating hole through the operating space, and is installed eccentrically to the rotating shaft. In the composite perforator including a drive motor provided with an operating cam in close contact with the upper and lower inner surfaces; and a cover installed on an open outer surface of the main body, waste chips generated when the first and second perforation pins of the paper perforating member are perforated are It relates to a composite perforator, characterized in that the detection unit for detecting accumulation in the collection space is installed and included.

Description

Complex boring machine {A paper boring machine}

The present invention relates to a multi-perforator, and in particular, a paper punching operation for preventing forgery and theft of checks, gift certificates, securities, and important documents, and the accumulation of waste chips generated during a paper punching operation for organizing documents. It relates to a composite perforator that can detect and easily know when to discharge waste chips.

In general, government agencies, local governments, banks and department stores have punched out all issued checks, gift certificates, securities, and important documents, such as the name of the institution, letters and numbers, etc. using a puncher.

In other words, race marks were marked for verification and identification of documents on checks, gift certificates, securities, and important documents through a puncher.

In this regard, Patent Document 1 is installed on one side of the fixing part and provided with an insertion part for supporting the inserted paper, and the lifting part inserted between the fixing part and the insertion part so as to be able to move up and down, and the upper part of the lifting part are combined. The driving unit including a perforation member having a perforation portion to which one or more perforation pins for perforating the paper inserted in the insertion portion on the bottom surface are coupled to protrude downward, and a driving portion having a driving motor for lifting the perforation member up and down. As a result of the lifting part ascending and descending, the perforation pin of the perforation part moves up and down to perforate one or more holes in the paper surface, and guide grooves are formed up and down on one side of the fixing part, and the lifting part is provided with the A guide protrusion is formed to be in close contact with the guide groove, and a height adjustment device for adjusting the elevation of the perforation member is installed on the upper surface of the body, and the height adjustment device includes a control plate installed on the upper surface of the body and the control plate. A perforator, characterized in that it has a support bolt screwed to a tip end and supported on one surface of the perforation member, and a switch for stopping the operation of the driving motor is installed on one surface of the perforation member on which the support bolt is supported. Provided.

However, in the case of Patent Literature 1, when waste chips generated during drilling of a perforated member accumulate, there is a concern that the waste chips flow back and interfere with perforation of the perforated member.

Patent Document 1: Domestic registered patent No. 10-0827834 (registered on April 29, 2008)

Accordingly, the present invention detects the accumulation of waste chips generated during the paper punching operation for preventing forgery and theft of checks, gift certificates, securities, and important documents, and the paper punching operation for organizing documents. The purpose of this is to provide a composite perforator that can easily know when to discharge.

In order to achieve the object as described above, the present invention provides a main body having a collection space formed therein and an open outer surface so that the collection space is visible; and a pair of side plates installed side by side in the collection space; and A spacer plate installed between the pair of side plates and having a rotating hole formed on the outer surface thereof; A first and second spacer plate installed between the pair of side plates above the collection space and into which the stacked first and second papers are inserted, respectively. 2 Paper input space is formed on the outer surface, a plurality of authentication mark holes connected to the first and second paper input spaces are formed on the outer surface, and a plurality of pitting holes connected to the second paper input space and collection space are formed on the outer surface And, a guide rod is formed on the outer surface, and a paper fixing member formed on the outer surface of the discharge hole connected to the second paper input space and the collection space under the plurality of authentication mark holes; and the guide hole guided along the guide rod is on the outer surface A plurality of first and second perforation pins are mounted to form holes in the stacked first and second paper by penetrating through a plurality of authentication mark holes and a plurality of knitting holes, respectively, and operated on the outer surface facing the rotation hole A paper perforation member having a space; and a rotation shaft installed between the pair of side plates and installed to be rotated in the rotation hole through the operating space, and installed eccentrically to the rotation shaft to the upper and lower inner surfaces of the operating space A driving motor provided with an operating cam in close contact with the body; In the composite perforator including a cover installed on the open outer surface of the main body, waste chips generated when the first and second perforation pins of the paper perforation member are perforated are accumulated in the collection space. It provides a composite perforator, characterized in that the detection unit is installed and included to detect that.

The present invention detects the accumulation of waste chips generated during the paper punching operation to prevent forgery and theft of checks, gift certificates, securities, and important documents, and the paper punching operation to organize documents, It has the effect of easily knowing when to discharge.

In the present invention, since the first and second transmissive optical sensors are installed on a pair of side plates in close proximity to the paper fixing member, there is an effect of reducing the adhesion of dust generated as waste chips accumulate in the collection space.

That is, there is an effect of preventing as much as possible from deteriorating the function of the first and second transmission type optical sensors.

In the present invention, since the first and second transmission type optical sensors are installed in the installation holes of a pair of side plates, there is an effect that they always face each other unless their positions are arbitrarily changed.

In addition, there is an effect of preventing the positions of the first and second transmissive optical sensors from being changed by the vibration generated during the paper drilling operation.

In the present invention, since the reflective optical sensor is installed on the paper fixing member, there is an effect of reducing the adhesion of dust generated as waste chips accumulate in the collection space.

In other words, there is an effect of preventing the deterioration of the function of the reflective optical sensor as much as possible.

In the present invention, since some of the plurality of first perforated pins have different lengths in the longitudinal direction, perforations for the stacked first paper are randomly performed by a time difference.

In addition, since the length in the longitudinal direction of the plurality of first perforation pins is formed longer as it goes from one side of the paper perforation member to the other side, the first perforation pins with a longer length are used to perforate the stacked first paper by time difference. It is done in order.

In other words, there is an effect of preventing the overload of the drive motor.

In addition, by reducing the impact applied to the plurality of first punched pins due to the elasticity of the stacked first paper, there is an effect of protecting the plurality of first punched pins.

The present invention has the effect that the stacked first and second papers are first cut at both sharp ends of the share cutter and later cut along the semicircular groove shape of the share cutter to be punched.

In other words, there is an effect of preventing the overload of the drive motor.

In addition, there is an effect of reducing the impact applied to the plurality of first and second puncture pins due to the elasticity of the stacked first and second papers, thereby protecting the plurality of first and second puncture pins.

In the present invention, since the heights of both ends of the share cutter are equally formed around the first and second perforation pins, the stacked first and second papers are in point contact with both ends of the share cutter at the same time to limit movement. There is an effect of being easily perforated.

That is, there is an effect of preventing the stacked first and second papers from being wrinkled.

In the present invention, since the share cutter is formed in a semicircular groove shape rather than a'V' or'U' shape, there is an effect of preventing the scrap chip from being inserted deeply and not falling out.

1 is an exploded perspective view of a composite drilling machine according to a first embodiment of the present invention,
Figure 2 is a perspective view of the combination of the composite drilling machine according to the first embodiment of the present invention,
3 to 7 are partially enlarged views of the composite drilling machine according to the first embodiment of the present invention,
8 to 10 is a state diagram of the use of the composite drilling machine according to the first embodiment of the present invention,
11 is a partially enlarged view of a composite drilling machine according to a second embodiment of the present invention,
12 is a state diagram of a use of a composite perforator according to a second embodiment of the present invention,
13 is a partially enlarged view of a composite drilling machine according to a third embodiment of the present invention,
14 is a view showing a state of use of a composite perforator according to a third embodiment of the present invention.

Hereinafter, a configuration of a specific embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 14, the multi-perforation machine 1000 according to various embodiments of the present invention includes a first paper stacked to prevent counterfeiting and theft of checks, gift certificates, securities, and important documents. ) Is perforated, and is used to perforate the stacked second paper (2) to organize documents.

And, as shown in Figs. 1 to 10, the composite perforator 1000 according to the first embodiment of the present invention has a collection space 110 formed inside, and an outer surface so that the collection space 110 is visible. This open body 100 is included.

Here, on the outer surface of the main body 100, the stacked first and second papers (1) (2) are in the form of'b' that prevents shaking of the stacked first and second papers (1) (2) when drilling. The fixing member 120 is installed to be movable.

In addition, the composite perforator 1000 has a pair of side plates 200 installed side by side in the collection space 110; and is installed between the pair of side plates 200, and a rotation hole 310 The spacer plate 300 formed on the outer surface; is installed between the pair of side plates 300 above the collection space 110, and the stacked first and second papers (1) and 2 are respectively input The first and second paper input spaces 410 and 420 are formed on the outer surface, and a plurality of authentication mark holes 430 connected to the first and second paper input spaces 410 and 420 are formed on the outer surface. , A plurality of pitting holes 440 connected to the second paper input space 420 and the collection space 110 are formed on the outer surface, a guide rod 450 is formed on the outer surface, and a plurality of the authentication mark holes ( A paper fixing member 400 formed on the outer surface of the second paper input space 420 and the discharge hole 460 connected to the collection space 110 below 430 is included.

In addition, the paper fixing member 400 includes first and second plates 401 and 402 having a plurality of authentication mark holes 430 and a plurality of knitting holes 440 formed on the outer surface thereof, and a plurality of the knitting holes 440. ) And a third plate 403 formed on the outer surface of the discharge hole 460 is included.

Here, a guide rod 450 is installed on the outer surface of the first plate 401, and the discharge hole 460 formed in the third plate 403 has a larger area than the combined number of authentication mark holes 430. It is formed in a behavior similar to a square.

Further, the paper fixing member 400 is installed between the first and second plates 401 and 402, and includes a first spacer 404 having a plurality of knitting holes 440 formed on the outer surface thereof.

Here, the first paper input space 410 is formed between the first and second plates 401 and 402 by the first spacer plate 404.

In addition, the paper fixing member 400 includes a second spacer plate 405 installed between the second and third plates 402 and 403.

Here, the second paper input space 420 is formed between the second and third plates 402 and 403 by the second spacer plate 405.

In addition, the side plate 200 has a first fitting hole 220 into which the spacer plate 300 is inserted, and the second and third sheets into which the stacked first and second papers 1 and 2 are inserted. Fitting holes 230 and 240 are formed on the outer surface.

Here, the second and third fitting holes 230 and 240 are formed so that the stacked first and second papers 1 and 2 inserted into the first and second paper input spaces 410 and 420 do not get caught. .

In addition, a third plate 403 is inserted into the third fitting hole 240.

In addition, the composite perforator 1000 has a guide hole 510 guided along the guide rod 450 formed on the outer surface, and is stacked through a plurality of authentication mark holes 430 and a plurality of knitting holes 440, respectively. A plurality of first and second punching pins 520 and 530 forming holes in the first and second papers 1 and 2 are mounted, and an operating space 540 on the outer surface facing the rotating hole 310 The formed paper perforation member 500 is included.

In addition, the paper perforation member 500 includes a first plate 501 having a guide hole 510 formed on an outer surface thereof; a support rod 502 installed on an upper surface of the first plate 501; and the support rod A second plate 503 installed on 502 is included.

Here, an operating space 540 is formed between the first and second plates 501 and 503 and the support rod 502.

In addition, the paper perforation member 500 includes a third plate 504 having a guide hole 510 formed on an outer surface thereof and a plurality of first and second perforation pins 520 and 530 mounted thereon.

Here, the first perforation pin 520 is formed so as not to penetrate the second paper input space 420 and is formed to have a diameter smaller than that of the second perforation pin 530.

In addition, the composite perforator 1000 is installed between a pair of side plates 200, and is provided with a rotation shaft 610 that passes through the operating space 540 and is installed to be rotated in the rotation hole 310, the A drive motor 600 provided with an operation cam 620 that is eccentrically installed on the rotation shaft 610 and in close contact with the upper and lower inner surfaces of the operation space 540 is included.

Here, the drive motor 600 is made of a DC motor or an AC motor.

In addition, the composite perforator 1000 includes a cover 700 installed on the open outer surface of the main body 100.

Here, the cover 700 includes a control unit for controlling the driving motor 600; and the first and second papers (1) (2) stacked while being able to manually and automatically operate the driving motor 600 through the control unit. ) A control panel, etc. that can control the drilling work time setting, etc. are installed.

In addition, the cover 700 is provided with an alarm unit and a display unit for indicating the state of the multi-perforator 1000.

In addition, the composite perforator 1000 detects that the waste chips 3 generated when the first and second perforation pins 520 and 530 of the paper perforation member 500 are perforated are accumulated in the collection space 110 800 installed and included.

In addition, the sensing unit 800 includes first and second transmissive optical sensors 810 and 820 installed to face each other on the pair of side plates 200 so as to be close to the paper fixing member 400.

In addition, the first transmissive optical sensor 810 includes a light emitting device that emits light, and the sensor sensitivity is adjusted.

Here, the first transmission type optical sensor 810 is controlled by a PWM control method of a controller installed in the cover 700 to emit light.

In addition, the second transmission type optical sensor 820 includes a light receiving device or the like that detects light emitted from the first transmission type optical sensor 810, and the sensor sensitivity is adjusted.

Here, the second transmissive optical sensor 820 amplifies a detection signal by detecting light and outputs it to a control unit installed in the cover 700.

In addition, the second transmissive optical sensor 820 measures the time and amount of light detected by the detection of light, and outputs a detection signal indicating the measured time and amount of light.

In addition, installation holes 210 in which the first and second transmissive optical sensors 810 and 820 are installed are formed on the outer surfaces of the pair of side plates 200, respectively.

In addition, some of the plurality of first perforated pins 520 are formed to have different lengths in the longitudinal direction.

And, the end portions of the first and second perforation pins 520 and 530 in contact with the first and second papers 1 and 2 are formed by shear cutters 521 and 531 in a semicircular groove shape As a result, both ends 521a and 531a of the share cutter 521 and 531 are sharpened.

Here, both end portions 521a and 531a of the share cutters 521 and 531 have the same height h around the first and second boring pins 520 and 530.

In addition, the composite perforator 1000 has a paper detection sensor that detects the stacked first and second papers (1) and 2 inputted into the first and second paper input spaces 410 and 420. ) Is installed on the outer surface around the discharge hole 460 and included.

That is, the paper detection sensor outputs a detection signal to the control unit installed on the cover 700 to inform whether or not the stacked first and second papers 1 and 2 are inserted.

So, as shown in Figs. 1 to 10, the first and second papers stacked in the first and second paper input spaces 410 and 420 of the composite perforator 1000 according to the first embodiment of the present invention Insert (1) and (2) respectively.

Here, the stacked first paper 1 consisting of checks, gift certificates, securities, and important documents is inserted into the first paper input space 410, and documents for sewing in the second paper input space 420 The stacked second paper 2 made of is inserted.

In addition, since the second and third fitting holes 230 and 240 of the side plate 200 are formed so that the stacked first and second papers 1 and 2 do not get caught, the stacked first and second papers (1) If (2) has a large area, it is inserted without being caught in the second and third fitting holes 230 and 240.

Then, the fixing member 120 is in close contact with one side of the stacked first and second papers 1 and 2 to adjust the position, and then the driving motor 600 is driven.

Then, as the rotation shaft 610 rotates, the operation cam 620 eccentrically installed on the rotation shaft 610 presses the paper perforation member 500 while pressing the lower inner surface of the operation space 540.

Here, the paper perforation member 500 is guided by a guide rod 450 inserted into the guide hole 510 and descends.

In addition, the plurality of first perforated pins 520 penetrate the first paper input space 410 through the plurality of authentication mark holes 430, and the plurality of second perforated pins 530 are provided with a plurality of uneven holes ( Through 440, the second paper input space 420 is passed through.

That is, the plurality of first piercing pins 520 formed so as to penetrate only the first paper input space 410 are made to punch only the stacked first paper 1 inserted into the first paper input space 410. In addition, the plurality of second perforation pins 530 perforate only the stacked second paper 2 inserted into the second paper input space 420.

In addition, since some of the plurality of first perforation pins 520 are formed to have different lengths in the longitudinal direction, they do not simultaneously contact the stacked first paper 1 and do not punch simultaneously.

That is, the impact applied to the plurality of first perforation pins 520 during perforation due to the elasticity of the first paper 1 as it is stacked is alleviated.

In addition, the ends of the first and second perforation pins 520 and 530 are not in contact with the first and second papers 1 and 2 on which the entire area is stacked by the share cutters 521 and 531. do.

That is, the stacked first and second papers 1 and 2 are cut by first contacting the ends 521a and 531a sharply formed on both sides of the share cutters 521 and 531, It is cut along the share cutters 521 and 531 and drilled.

In other words, the impact applied to the plurality of first and second perforated pins 520 and 530 during perforation due to the elasticity of the first and second papers 1 and 2 are alleviated.

In addition, since both ends 521a and 531a of the share cutters 521 and 531 have the same height h around the first and second puncture pins 520 and 530, the stacked The first and second papers (1) and (2) are brought into contact at the same time.

That is, the movement of the stacked first and second papers 1 and 2 generated during the perforation is restricted by making point contact with both ends 521a and 531a of the share cutters 521 and 531.

In other words, the stacked first and second papers 1 and 2 are easily cut and drilled by the share cutters 521 and 531 of the first and second drilling pins 520 and 530.

That is, the composite puncher 1000 prevents forgery and theft of checks, gift certificates, securities, important documents, etc. by marking authentication marks such as letters or numbers on the stacked first paper 1, and the stacked second paper 1 A hole is formed in the paper (2) so that the documents can be organized.

In addition, when the perforation operation is completed, the operation cam 620 does not press the paper perforation member 500 while pressing the upper inner surface of the operation space 540.

That is, the paper perforation member 500 is guided by the guide rod 450 inserted into the guide hole 510 and is raised.

In addition, the waste chips 3 generated when the first and second piercing pins 520 and 530 of the paper piercing member 500 are pierced are accommodated in the share cutters 521 and 531 having a semicircular groove shape, After completion of the drilling operation, it is easily removed and discharged from the discharge hole 460 and the plurality of knitting holes 440 to be accumulated in the collection space 110 of the main body 100.

Here, the sensing unit 800 including the first and second transmission type optical sensors 810 and 820 detects the waste chips 3 accumulated in the collection space 110.

In more detail, the first transmission type optical sensor 810 emits light, and the light of the first transmission type optical sensor 810 that has passed the descending waste chip 3 is transmitted to the second transmission type optical sensor ( 820 detects and outputs a detection signal to a control unit installed in the cover 700.

Here, the second transmissive optical sensor 820 measures a time and an amount of light detected through the detection of light, and outputs a detection signal indicating the measured time and an amount of light.

Then, the control unit analyzes the detected time and the amount of light obtained through the detection signal, and through the analysis, it notifies that the waste chip 3 has moved to the collection space 110 by display and sound.

In addition, when the waste chips 3 are stacked from the collection space 110 to the paper fixing member 400, the second transmission type optical sensor 820 is the first transmission type optical sensor 810 passing through the waste chip 3 It detects light and outputs a detection signal to the control unit.

Then, the control unit analyzes the detected time and amount of light obtained through the detection signal, and through the analysis, it informs that the waste chip 3 is fully filled in the collection space 110 by display and sound.

Here, since the first and second transmissive optical sensors 810 and 820 are installed in the installation holes 210 of the pair of side plates 200, they are stably fixed to the pair of side plates 200. .

In addition, as shown in FIGS. 11 and 12, the sensing unit 800 of the composite perforator 1000 according to the second embodiment of the present invention includes the first and second transmission-type optical sensors 810 ( Instead of 820, a reflective optical sensor 830 installed on the outer surface of the paper fixing member 400 to face the collection space 110 is included.

Here, the reflective optical sensor 830 is installed on the outer surface around the discharge hole 460 of the third plate 403 to face the collection space 110.

In addition, the reflective optical sensor 830 has a sensor sensitivity adjusted, and includes a light emitting element and a light receiving element, and the light emitted from the light emitting element is reflected by the waste chip 3 and detected by the light receiving element, The light-receiving device outputs a detection signal to a control unit installed in the cover 700 by detecting light.

In addition, the reflective optical sensor 830 is controlled by a PWM control method of the controller to emit light, and amplifies a detection signal by detecting the light and outputs it to a controller installed on the cover 700.

In addition, the reflective optical sensor 830 measures the time and amount of light detected by detection of light, and outputs a detection signal indicating the measured time and amount of light.

So, as shown in Figs. 11 and 12, the sensing unit 800 of the complex perforator 1000 according to the second embodiment of the present invention detects the waste chips 3 accumulated in the collection space 110. do.

In more detail, the reflective optical sensor 830 emits light, detects the light reflected by the waste chip 3 descending into the collection space 110, and transmits the light to the control unit installed on the cover 700. It outputs a detection signal.

Here, the reflective optical sensor 820 measures a time and an amount of light detected through the detection of light, and outputs a sensing signal indicating the measured time and an amount of light.

Then, the control unit analyzes the detected time and the amount of light obtained through the detection signal, and through the analysis, it notifies that the waste chip 3 has moved to the collection space 110 by display and sound.

In addition, when the waste chips 3 are accumulated from the collection space 110 to the paper fixing member 400, the reflective optical sensor 830 detects the light reflected by the accumulated waste chips 3 and is detected by the control unit. Signal is output.

Then, the control unit analyzes the detected time and amount of light obtained through the detection signal, and through the analysis, it informs that the waste chip 3 is fully filled in the collection space 110 by display and sound.

And, as shown in Figs. 13 and 14, a plurality of first puncture pins 520 of the composite perforator 1000 according to the third embodiment of the present invention is from one side of the paper perforation member 500 Since the length is formed to be longer in the longitudinal direction as it faces to, the stacked first paper 1 is not in contact with the stacked first paper 1 at the same time and no perforation is performed at the same time.

That is, the first paper with the first perforation pin 520 having the shortest length is stacked first, while the first paper 1 with the longest first perforation pin 520 is stacked first. (1) is the last to do the perforation.

In other words, the impact applied to the plurality of first perforation pins 520 during perforation due to the elasticity of the first paper 1 as it is stacked is alleviated.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains within the scope not departing from the spirit of the present invention. Various changes and modifications will be possible by the user.

1: 1st paper 2: 2nd paper
3: waste chip 100: main body
110: collection space 200: side plate
210: mounting hole 300: spacer
310: rotation hole 400: paper fixing member
410: first paper input space 420: second paper input space
430: certification mark hole 440: braid hole
450: guide rod 500: paper perforation member
510: guide hole 520: first drilling pin
521: share cutter 521a: end
530: second drilling pin 531: share cutter
531a: end 540: operating space
600: drive motor 610: rotating shaft
620: operation cam 700: cover
800: sensing unit 810: first transmissive optical sensor
820: second transmissive optical sensor 830: reflective optical sensor
1000: complex boring machine

Claims (8)

A main body 100 having a collection space 110 formed therein and an open outer surface so that the collection space 110 is visible; and a pair of side plates 200 installed side by side in the collection space 110 And;, a spacer plate 300 installed between the pair of side plates 200 and having a rotation hole 310 formed on the outer surface thereof; and a pair of side plates 300 above the collection space 110 ), the first and second paper input spaces 410 and 420 into which the stacked first and second papers (1 and 2) are respectively input are formed on the outer surface, and the first and second papers are inserted A plurality of authentication mark holes 430 connected to the spaces 410 and 420 are formed on the outer surface, and a plurality of knitting holes 440 connected to the second paper input space 420 and the collection space 110 are provided. The discharge hole 460 is formed on the outer surface, the guide rod 450 is formed on the outer surface, and is connected to the second paper input space 420 and the collection space 110 under the plurality of authentication mark holes 430 A paper fixing member 400 formed on the outer surface; and a guide hole 510 guided along the guide rod 450 is formed on the outer surface, and a plurality of authentication mark holes 430 and a plurality of knitting holes 440 A plurality of first and second perforation pins 520 and 530 are mounted to form holes in the stacked first and second papers 1 and 2 through each of them, and on the outer surface facing the rotating hole 310 A paper perforation member 500 having an operating space 540 formed thereon; and a rotation shaft installed between the pair of side plates 200 and installed to be rotated in the rotation hole 310 through the operating space 540 A drive motor 600 provided with 610 and provided with an operating cam 620 that is eccentrically installed on the rotation shaft 610 to be in close contact with the upper and lower inner surfaces of the operating space 540;, the main body 100 In the composite perforator including a cover 700 installed on the open outer surface of),
The first and second punching pins 520 and 530 of the paper punching member 500 are provided with a detection unit 800 that detects accumulation of waste chips 3 generated during punching in the collection space 110, and ,
The sensing unit 800 includes first and second transmissive optical sensors 810 and 820 installed facing each other on a pair of side plates 200 so as to be close to the paper fixing member 400,
An installation hole 210 is formed on the outer surface of the pair of side plates 200 in which the first and second transmissive optical sensors 810 and 820 are installed, respectively,
The plurality of first perforation pins 520 is a composite perforator, characterized in that the length toward the opposite side from one side of the paper perforation member 500 is formed longer in the longitudinal direction. delete delete delete delete delete The method of claim 1,
The share cutter 521 is formed at the ends of the first and second punching pins 520 and 530 in contact with the first and second papers 1 and 2 while forming a semicircular groove-shaped share cutter 521 and 531. ) A composite perforator, characterized in that sharply forming both ends (521a) (531a) of (531). The method of claim 7,
Both ends (521a, 531a) of the share cutter (521, 531) is a composite perforator, characterized in that the height (h) is the same around the first and second drilling pins (520, 530).

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