KR200211096Y1 - Trimer for laminator film - Google Patents
Trimer for laminator film Download PDFInfo
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- KR200211096Y1 KR200211096Y1 KR2020000007414U KR20000007414U KR200211096Y1 KR 200211096 Y1 KR200211096 Y1 KR 200211096Y1 KR 2020000007414 U KR2020000007414 U KR 2020000007414U KR 20000007414 U KR20000007414 U KR 20000007414U KR 200211096 Y1 KR200211096 Y1 KR 200211096Y1
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- South Korea
- Prior art keywords
- pin
- cutting
- grounded
- resistor
- led
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Links
- 239000013638 trimer Substances 0.000 title 1
- 238000000034 method Methods 0.000 claims 1
- 238000010586 diagram Methods 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 230000005669 field effect Effects 0.000 description 2
- 101100244014 Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) ppi-5 gene Proteins 0.000 description 1
- 101150023294 PIN4 gene Proteins 0.000 description 1
- 102000007315 Telomeric Repeat Binding Protein 1 Human genes 0.000 description 1
- 108010033711 Telomeric Repeat Binding Protein 1 Proteins 0.000 description 1
- 239000003990 capacitor Substances 0.000 description 1
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D5/00—Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D5/20—Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed
- B26D5/30—Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed having the cutting member controlled by scanning a record carrier
- B26D5/34—Arrangements for operating and controlling machines or devices for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting with interrelated action between the cutting member and work feed having the cutting member controlled by scanning a record carrier scanning being effected by a photosensitive device
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D1/00—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
- B26D1/01—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
- B26D1/04—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member
- B26D1/045—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member for thin material, e.g. for sheets, strips or the like
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D1/00—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
- B26D1/01—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
- B26D1/04—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member
- B26D1/06—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member wherein the cutting member reciprocates
- B26D1/065—Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member wherein the cutting member reciprocates for thin material, e.g. for sheets, strips or the like
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/26—Means for mounting or adjusting the cutting member; Means for adjusting the stroke of the cutting member
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Forests & Forestry (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Fixed Capacitors And Capacitor Manufacturing Machines (AREA)
- Sewing Machines And Sewing (AREA)
- Control Of Cutting Processes (AREA)
- Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
Abstract
본 고안은 라미네이터필름 및 사무용지등과 같이 얇은 종이나 필름을 절단하는 절단기에 관한것으로서 MCU (MICROPROCESS0R CONT CONTROL UNIT)직접회로를 사용하여 절단물의 두께에 따라서 절단용칼의 이동속도를 임의로 조절할수 있으며, 절단폭을 1800mm, A0, A1, A2, A3, A4중의 임의 선택하며, 이를 파넬에 LED로서 디스프레이하므로서 정밀하고, 효과적인 절단을 할수있는 라미네이터 필름 절단기에 관한것이다.The present invention relates to a cutting machine for cutting thin paper or film such as laminator film and office paper. By using MCU (MICROPROCESS0R CONT CONTROL UNIT) direct circuit, the moving speed of cutting knife can be arbitrarily adjusted according to the thickness of the cutting material. It is a laminator film cutting machine that can select a cutting width from 1800mm, A0, A1, A2, A3, A4, and display it as an LED on the panel to make precise and effective cutting.
Description
본 고안은 종이나 라미네이터필름을 절단하는 절단기에 관한 것으로서 전세계적으로 흔히 공통적으로 사용되고 있는 종이나 필름의 규격인 18000mm,A0,A1,A2,A3및 A4 길이를 조작파넬상의 스윗치 설정에 의하여 절단할수 있도록 고안된 것으로서, 종래의 절단기는 절단하고저하는 종이나 필름의 길이에 관계없이 절단용칼이 고정거리를 이동하기 때문에 절단속도가 느리고 A0 ∼ A4 등과같은 규격 절단에 불편한것이 많었으나, 본 고안은 이들 불편한 단점들을 개선한 것이다.The present invention relates to a cutting machine for cutting paper or laminator film, and it is possible to cut the length of 18000mm, A0, A1, A2, A3 and A4, which are commonly used in the world, by the switch setting on the operation panel. As the conventional cutting machine is designed to cut the cutting paper, the cutting speed moves a fixed distance irrespective of the length of the paper or film to cut the cutting speed is slow and was inconvenient for cutting standards such as A0 ~ A4, but the present invention Uncomfortable disadvantages have been improved.
본 고안은 종이나, 라미네이터 필름 절단기로서 선택 스윗치에 의하여 절단범위를 국제규격 싸이즈인 1800mm, A0,A1,A2,A3,A4를 선택하여 절단할수 있으며, 이들 절단 사이즈를 LED로서 파넬에 디스프레이하며, 절단칼의 이동속도를 펄스폭 변조(PWM)에 의하여 조절하는, 마이크로세서 직접회로를 사용하므로서 정밀하고 효율 높은 절단을 하는 절단기인것이다.The present invention can cut the cutting range by selecting switch as paper or laminator film cutting machine by selecting switch, and select international cutting size 1800mm, A0, A1, A2, A3, A4, and display these cutting size on panel as LED, It is a cutting machine for precise and efficient cutting by using microprocessor integrated circuit that controls the moving speed of cutting knife by pulse width modulation (PWM).
도-1 본 고안의 회로도1 is a circuit diagram of the present invention
도-2 본 고안의 회로도2 is a circuit diagram of the present invention
도-3 본 고안의 회로도3 is a circuit diagram of the present invention
도-4 본 고안의 조절파넬(CONTROL PANEL)Figure 4 control panel of the present invention (CONTROL PANEL)
도-1에 일어서Stand up on Figure-1
단자 +5V는 저항 R1을 통하여 SW1과 저항 R2와 단자 KEY에 연결되고, SW1의 다른선은 접지되며, 저항 R2의 다른끝은 저항 R3와 SW2에 연결되고 SW2의 다른 끝은 접지되며, 저항 R3의 다른끝은 저항 R4와 SW3에 연결되며, SW3의 다른 끝은 접지되고 저항 R4의 다른끝은 저항 R5와 SW4에연결되고, SW4의 다른끝은 접지되고, R5의 다른끝은 R6와 SW5에 연결되고, SW5의 다른끝은 접지되고 R6의 다른 끝은 SW6에 연결되고 SW6의 다른끝은 접지된다.Terminal + 5V is connected to SW1, resistor R2 and terminal KEY through resistor R1, the other line of SW1 is grounded, the other end of resistor R2 is connected to resistors R3 and SW2 and the other end of SW2 is grounded, resistor R3 The other end of is connected to resistors R4 and SW3, the other end of SW3 is grounded, the other end of resistor R4 is connected to resistors R5 and SW4, the other end of SW4 is grounded, and the other end of R5 is connected to R6 and SW5. The other end of SW6 is grounded, the other end of R6 is connected to SW6, and the other end of SW6 is grounded.
커넥터 CN1의 핀 1은 +5V에 연결되며 가변저항VR1의 1에 연결되며, 3은 접지되고, 2는 CN1의 핀 6에 연결되며 CN1의 핀2는 발광다이오드 LD1에 연결되며, 이의 다른끝은 저항 R8을 통하여 접지되고, CN1의 핀3은 LD2에 연결되고, 이의 다른끝은 저항 R9을통하여 접지되고, CN1의 핀4는 LD3에 연결되고, 이의 다른끝은 저항 R10을 통하여 접지되고 CN1의 핀5는 LD4에 연결되고 이의 다른끝은 저항 R11을 통하여 접지되고, CN1의 핀7은 단자 KEY에 연결되고 CN1의 핀 8은 접지된다.Pin 1 of connector CN1 is connected to + 5V and is connected to 1 of variable resistor VR1, 3 is grounded, 2 is connected to pin 6 of CN1, pin 2 of CN1 is connected to light emitting diode LD1, and the other end thereof Grounded via resistor R8, pin 3 of CN1 is connected to LD2, its other end is grounded through resistor R9, pin4 of CN1 is connected to LD3, and its other end is grounded through resistor R10 and Pin 5 is connected to LD4 and its other end is grounded through resistor R11, pin 7 of CN1 is connected to terminal KEY and pin 8 of CN1 is grounded.
도-2에 있어서In FIG.
커넥터 CN3의 핀1은 VDD에 연결되고, 핀2는 저항 R7을 통하여 접지되고, 핀3은 트란지스터 Q5의 베이스에 연결되고 이의 에미터는 접지되고 이의 콜렉터는 저항 R6를 통해 VDD에 연결되며 동시에 직접회로 U2/A의 핀 1에 연결되고 이의 PIN2는 U3의 핀 25에 연결되며Pin 1 of connector CN3 is connected to VDD, pin 2 is grounded through resistor R7, pin 3 is connected to the base of transistor Q5, its emitter is grounded and its collector is connected to VDD through resistor R6 and simultaneously To pin 1 of circuit U2 / A and its PIN2 to pin 25 of U3
커넥터 CN4의 핀1은 VDD에 연결되고 핀2는 R14를 통해 접지되고, 핀3은 Q10의 베이스에 연결되고 이의 에미터는 접지되고 이의 콜렉터는 저항 R13을 통해 VDD에 연결됨과 동시에 U2/B의 핀3에 연결되고 이의 핀4는 U3의 핀26에 연결되고,Pin 1 of connector CN4 is connected to VDD, pin 2 is grounded through R14, pin 3 is connected to the base of Q10, its emitter is grounded and its collector is connected to VDD through resistor R13, and at the same time pin of U2 / B To pin 3 and pin 4 of it to pin 26 on U3,
CN6의 핀 1은 VDD에 연결되고, 핀2는 R20을 통하여 접지되고, 핀3은 Q15의 베이스에 연결되고, 이의 에미터는 접지되고 이의 콜렉터는 저항 R18을 통하여 VDD에 연결되고 동시에 U2/C의 핀5에 연결되고 이의 핀6은 U3의 핀27에 연결되고Pin 1 of CN6 is connected to VDD, pin 2 is grounded through R20, pin 3 is connected to the base of Q15, its emitter is grounded and its collector is connected to VDD through resistor R18 and at the same time U2 / C To pin 5 and pin 6 of it to pin 27 on U3
CN9의 핀1은 VDD에 연결되고, 핀2는 저항 R29를 통하여 접지되고, 이의 핀3은 Q18의 베이스에 연결되고 이의 에미터는 접지되고, 이의 콜렉터는 R28을 통하여 VDD에 연결되고 동시에 U2/E의 핀11에 연결되고 이의 핀10은 U3의 핀28에 연결되고,Pin 1 of CN9 is connected to VDD, pin 2 is grounded through resistor R29, pin 3 of which is connected to the base of Q18 and its emitter is grounded, and its collector is connected to VDD through R28 and simultaneously U2 / E To pin 11 of and pin 10 of it to pin 28 of U3,
커넥터 CN8의 VDD는 U3의 핀20에 연결되고, LED A는 핀15에 연결되고, LED B는 핀16에, LED C는 핀17에, LED D는 핀 18에, SPEED는 핀2에, 각각 연결되며, 커넥터 CN7의 핀1. 핀2는 FOOT SW에 연결되며 동시에 핀 1은 저항 R21을 통하여 VDD에 연결되고, 동시에 U2/D의 핀9에 연결되고, 이의 핀8은 U3의 핀12에 연결되고 CN7의 핀2는 접지된다.VDD of connector CN8 is connected to pin 20 of U3, LED A to pin 15, LED B to pin 16, LED C to pin 17, LED D to pin 18, SPEED to pin 2, respectively. Pin 1 of connector CN7. Pin 2 is connected to FOOT SW and at the same time pin 1 is connected to VDD via resistor R21, at the same time to pin 9 of U2 / D, its pin 8 is connected to pin 12 of U3 and pin 2 of CN7 is grounded. .
커넥터 CN1의 핀1는 브릿지다이오드(BRIDGE DIODE) BD1의 핀2에, CN1의 핀2는 BD1의 핀4에 연결되고, 이의 핀3은 접지되고, 이의 핀1은 전해콘덴서(ELECTROLYTIC CAPACITOR) EC3를 통하여 접지되고 동시에 전계효과 트란지스터(FIELD EFFECT TRANSISTOR) Q1의 소스(SOURCE)에 연결됨과 동시에, R1,Q2의 콜렉터에 연결되고, 단자 PWM은 저항 R4를 통하여 Q3의 베이스에 연결됨과 동시에 저항 R5를 통하여 접지되고 Q3의 에미터는 접지되고, 이의 콜렉터는 저항 R3를 통하여 Q2, Q4의 베이스에 공통연결되며 동시에 저항 R1을 통하여 BD1의 핀1에 연결되고,Q2의 콜렉터는 BD1의 핀1에 연결되고, Q2의 에미터는 Q4의 에미터에 연결되며 동시에 저항 R2를 통하여 Q1의 게이트에 연결되며 Q4의 콜렉터는 접지되고, Q1의 드레인(DRAIN)은 다이오드 D5,D7,D8의 캐소드(CATHOD)에 연결됨과 동시에 Q6,Q7의 소스(SOURCE)에 공통연결된다.Pin 1 of connector CN1 is connected to pin 2 of BRIDGE DIODE BD1, pin 2 of CN1 is connected to pin 4 of BD1, pin 3 of which is grounded, pin 1 of which is an electrolytic capacitor EC3. Connected to the source of the field effect transistor Q1 and simultaneously to the collector of R1 and Q2, and the terminal PWM is connected to the base of Q3 through the resistor R4 and simultaneously to the resistor R5. Grounded and the emitter of Q3 is grounded, its collector is commonly connected to the bases of Q2 and Q4 via resistor R3 and simultaneously connected to pin 1 of BD1 via resistor R1, and the collector of Q2 is connected to pin 1 of BD1 The emitter of Q2 is connected to the emitter of Q4 and at the same time connected to the gate of Q1 through resistor R2, the collector of Q4 is grounded, and the drain (DRAIN) of Q1 is connected to the cathode (CATHOD) of diodes D5, D7, D8. At the same time as the source of Q6, Q7 It is connected.
U3의 핀21은 저항 R15를 통하여 Q8의 베이스에 연결되며 동시에 R16을 통해 접지되고, Q8의 에미터는 접지되고, 이의 콜렉터는 R11을 통하여 Q6의 게이트(GATE)에 연결됨과 동시에 R9을 통하여 단자 MV에 연결되며, U3의 핀22는 저항 R17을 통하여 Q9의 베이스에 연결됨과 동시에 저항 R19를 통하여 접지되고, Q9의 에미터는 접지되고 이의 콜렉터는 저항 R12를 통하여 Q7의 게이트에 연결됨과 동시에 R10을 통하여 단자 MV에 연결되고, U3의 핀23은 Q16의 베이스에 연결되고, 이의 에미터는 접지되고, 이의 콜렉터는 R22를 통하여 MV에 연결되고, 동시에 저항101을 통하여 Q13의 베이스에 연결되고, 이외에 미터는 MV에 연결되고, 이의 콜렉터는 저항 R24를 통하여 Q11의 게이트에 연결되며 동시에 R26을 통하여 접지된다.Pin 21 of U3 is connected to the base of Q8 via resistor R15 and simultaneously grounded through R16, the emitter of Q8 is grounded, and its collector is connected to the gate of Q6 through R11 and at the same time through terminal MV through R9. Pin 22 of U3 is connected to the base of Q9 via resistor R17 and grounded through resistor R19, the emitter of Q9 is grounded and its collector is connected to the gate of Q7 through resistor R12 and simultaneously through R10. Connected to terminal MV, pin 23 of U3 is connected to the base of Q16, its emitter is grounded, its collector is connected to MV through R22, and at the same time to the base of Q13 through resistor 101, in addition to the meter It is connected to MV, and its collector is connected to the gate of Q11 through resistor R24 and simultaneously grounded through R26.
U3의 핀24는 트관지스터 Q17의 베이스에 연결되고 Q17의 에미터는 접지되고, 이의 콜렉터는 저항 R23을 통하여 MV에 연결됨과 동시에 저항 R102를 통하여 Q14의 베이스에 연결되고 이의 에미터는 MV에 연결되고, Q14의 콜렉터는 저항 R25를 통하여 Q12의 게이트에 연결됨과 동시에 R27을 통하여 접지된다.Pin 24 of U3 is connected to the base of transistor Q17 and the emitter of Q17 is grounded, its collector is connected to MV through resistor R23 and at the same time to the base of Q14 through resistor R102 and its emitter to MV, The collector of Q14 is connected to the gate of Q12 through resistor R25 and grounded through R27.
Q6의 소스는 D7의 애노드 D9의 캐소드, CN5, 구동모터 M에 Q11의 드레인에 공통연결되고, Q7의 드레인(DRAIN)은 CN5,M,D8의 애노드, Q12의 드레인 D10의 캐소드에 공통연결되고, Q11의 소스는 D9의 애노드, Q12의 소스 D10의 애노드 PSWI에 연결되고 PSWI의 다른끝은 접지된다.The source of Q6 is commonly connected to the anode of D7's cathode, CN5, and driving motor M to the drain of Q11, and the drain of Q7 (DRAIN) is commonly connected to the anode of CN5, M and D8, to the cathode of drain D10 of Q12. The source of Q11 is connected to the anode of D9, the anode of Q12 to the anode PSWI and the other end of the PSWI is grounded.
도-3에 있어서In Fig.-3
CON1의 핀 1은 U1의 에미터에, 이의 콜렉터는 CON의 핀 3과 UI의 애노드에 이의 캐소드는 CON1의 핀 2에 각각 연결된다.Pin 1 of CON1 is connected to the emitter of U1, its collector is connected to pin 3 of CON and the anode of the UI, and its cathode is connected to pin 2 of CON1.
도-4에 있어서In Fig.-4
누름스윗치 1800,A0,A1,A2,A3,A4,가 있으며 LED A,B,C,D가 있으며 스피드조절 노브(KNOB)가 있다.There are push switch 1800, A0, A1, A2, A3, A4, LED A, B, C, D, and KNOB.
상기와같이 구성된 본 고안의 작용을 설명하면 다음과 같다.Referring to the operation of the present invention configured as described above are as follows.
1. 절단거리 선택 및 발광다이오드 LED의 발광1. Selection of cutting distance and light emitting diode LED
도-4에 있어서 누름스윗치(PUSH BUTTON SWITCH) 1800, A0,A1,A2,A3,A4중 임의의 절단하고저 하는 스윗치를 누르면 이 스윗치는 회도면 도-1의 SW1,SW2,SW3,SW4,SW4,SW5,SW6에 해당 하는것으로서 스윗치를 누름에 따라 도-1의 단자 KEY에는 전압이 나타난다. 이전압은 절단거리 1800의 경우 해당 스윗치는 SW1이며 KEY에는 나타나는 전압은 0V이다. 즉 1800-SW1-0V이다.In FIG. 4, when the switch which cuts any one of the push switch 1800, A0, A1, A2, A3, A4 is cut, this switch is SW1, SW2, SW3, SW4, This corresponds to SW4, SW5, and SW6. As the switch is pressed, the voltage appears at the terminal KEY of FIG. This voltage is SW1 for cutting distance 1800 and the voltage displayed on KEY is 0V. That is 1800-SW1-0V.
이와 마찬가지로Similarly
A0 - SW2 - 0.455V, A1 - SW3 - 0.9V, A2 - SW4 - 1.429V,A0-SW2-0.455V, A1-SW3-0.9V, A2-SW4-1.429V,
A3 - SW5 - 1,914V, A4 - SW6 - 2.436V 가되며 도-1의 KEY단자에는 절단길이의 선택 스윗치에 따라 전압이 변화하여 나타난다.A3-SW5-1,914V, A4-SW6-2.436V, and the KEY terminal of Figure -1 appears with the voltage changing according to the selection switch of the cutting length.
이 전압은 도-2의 커넥터 CN8의 KEY단자에 나타나고 이는 MCU 직접회로 U3의 핀3에 나타난다.This voltage appears on the KEY terminal of connector CN8 in Figure 2, which appears on pin 3 of MCU integrated circuit U3.
한편 MCU 직접회로 U3은 이미 입력된 프로그람(PROGRAM)에 의하여 핀 15,16,17,18에 발광다이오드(LED=LIGHT EMITTING DIODE)가 빛을 발광할수 있도록 전압을 출력한다.On the other hand, MCU integrated circuit U3 outputs a voltage so that LED can emit light on pins 15, 16, 17, and 18 by the input program.
즉 U3에 입력된 프로그램에 의하여 SW1을 누르면, 절단길이 1800mm를 절단하게 되며 LED A, LED D가 빛을 발하게된다. (SW1 - 1800 - LED A, LED D)That is, if SW1 is pressed by the program input to U3, cutting length 1800mm is cut and LED A and LED D light up. (SW1-1800-LED A, LED D)
이와 마찬가지로 선택스위치와 절단 길이와, 빛을 발하는 LED와의 관계는 다음과 같이 된다.Similarly, the relationship between the selection switch, the cut length, and the light emitting LED is as follows.
SW2 - A0 - LED A, LED C SW3 - A1 - LED A, LED BSW2-A0-LED A, LED C SW3-A1-LED A, LED B
SW4 - A2 - LED B, LED D SW5 - A3 - LED B, LED CSW4-A2-LED B, LED D SW5-A3-LED B, LED C
SW6 - A4 - LED C, LED DSW6-A4-LED C, LED D
상기와 같이 빛을 발하는 LED A,B,C,D는 도-4의 파넬에서 빛을 발하게 되어 기계의 조작자가 쉽게 절단거리를 인식 할수 있도록 하게된다.The LEDs A, B, C, D that emit light as described above emits light in the panel shown in FIG.
이와 동시에 절단길이용 선택스윗치를 누름에 따라서 U3의 핀13인 PWM 단자에는 24KHZ의 펄스신호가 나타나며 이신호는 절단용칼의 이동속도 조절 노브(KNOB)의 설정에 의하여 DUTY CYCLE이 30%~90% 가변하게 된다.At the same time, 24KHZ pulse signal appears at the PWM terminal of pin 13 of U3 when pressing the selector for cutting length. Done.
2. 절단용 칼의 이동속도 조절2. Adjust the moving speed of cutting knife
도-4의 파넬상의 속도조절용 노브를 조절하면, 이는 도-1의 가변저항기 VR1을 조절하는 것으로서 이 가변저항은 커넥터 CN1을 통하여 도-2의 커넥터 CN8에 연결되어 U3의 핀2에 연결되며, 후트스윗치를 밟으면 U3에 이미 입력된 프로그램에 의하여 가변저항 VR1의 변화에 따라 핀13의 PWM 단자에는 DUTY CYCLE이 30~90%가변하는 24KHZ의 PWM 펄스를 출력하게되며, 이 PWM신호는 저항 R4와 R5에서 전압분할되어 트란지스터 Q3의 베이스에 인가되며 그출력은 Q3의 콜럭터에 나타나고, 이는 다시 Q2와 Q4의 베이스에 인가되어 그출력은 전계효과 트란지스터(FIELD EFFECT TRANSISTOR) Q1의 케이트에 인가되어 Q1의 드레인 (DRAIN)에는 전압 약 4O볼트, 주파수 24KHZ이며 속도조절용 가변저항 VR1의 조절에 의하여 DUTY CYCLE이 30~90% 가변하는 신호로 나타낸다.Adjusting the speed adjustment knob on the panel of Fig. 4, which adjusts the variable resistor VR1 of Fig.-1, which is connected to pin CN 2 of U3 through connector CN1 to connector CN8 of Fig. -2, When the step switch is pressed, according to the change of the variable resistance VR1 by the program already inputted to U3, the PWM terminal of pin 13 outputs 24KHZ PWM pulse with 30 ~ 90% of the duty cycle. Voltage division at R5 is applied to the base of transistor Q3 and its output appears at the collector of Q3, which in turn is applied to the bases of Q2 and Q4, and its output is applied to the gate of the field effect transistor Q1. In the drain of Q1, voltage is about 40 volts, frequency is 24KHZ, and the duty cycle is controlled by 30 ~ 90% of the duty cycle by the variable speed VR1.
3. 절단용 칼을 정 방향으로 이동시키기 위한 구동모타의 작동3. Operation of drive motor to move cutting knife in forward direction
도-2에 있어서 U3의 핀 21,22,23,24에는 구동모타 M을 정회전, 역회전, 및 급정지 시키기 위한 전압을 나타낸다.In Fig. 2, pins 21, 22, 23, and 24 of U3 show voltages for driving the drive motor M forward, reverse, and sudden stop.
정회전의 경우 : 후트 스윗치를 밟어 연결시키면 U3의 핀21 (단자 A)와 핀24(단자 D)에는 전압이 나타난다. A에 나타난 신호는 트란지스터 Q8의 콜렉터에 신호를 나타내고 이는 FET Q6를 작동시키므로서 Q1의 드레인에 나타난 PWM 신호를 Q6를 통하여 커넥터 CN5를 통하여 구동 모터 M에 가하며, 한편 단자 D에 나타난 신호는 Q17의 콜렉터에 신호를 나타내고 이는 Q14의 콜렉터에 신호를 나타내고 이는 FET Q12의 게이트에 인가되어 Q12를 작동시키므로서 Q12의 드레인이 접지되어 이는 커넥터 CN5를 통하여 구동모터 M에 가해지모로서 구동모타 M은 정회전하게되며 절단용 칼은 정방향으로 이동하며 절단하게 되는 것이다.In the case of forward rotation: When the foot switch is connected, the voltage appears at pin 21 (terminal A) and pin 24 (terminal D) of U3. The signal shown in A represents a signal to the collector of transistor Q8, which activates FET Q6, thereby applying a PWM signal appearing at the drain of Q1 to drive motor M via connector CN5 via Q6, while the signal shown at terminal D is Q17. Signal to the collector of Q14, which signals to the collector of Q14, which is applied to the gate of FET Q12 to operate Q12, which drains Q12 to ground, which is applied to drive motor M through connector CN5, which drives motor M The cutting knife moves forward and cuts.
4. 절단용 칼의 이동정지4. Moving stop of cutting knife
도-4에서, 절단용 칼이 이동하여 이동거리 선택스윗치 SW1∼6의 선택에 의하여 지정된 장소 A혹은 B 혹은 C혹은 D로 이동하면 A,B,C,D에 각각 장치되어 있는 포토인테럽터(PHOTO INTERRUPTER)의 빛을 차단하게되며, 이는 도-3의 U1의 빛을 차단하는 것이므로 이신호는 CON1에 나타난다.In Fig. 4, when the cutting knife moves and moves to a place A, B, or C or D designated by the selection of the travel distance selection switches SW1 to 6, the photo interrupters installed in A, B, C, and D respectively. It blocks the light of (PHOTO INTERRUPTER), which is to block the light of U1 of Fig.-3, so this signal appears in CON1.
CON1에 나타난 신호는 도-2에 있어서 절단용 칼이 정지하는 장소가 A의 경우The signal shown in CON1 is A when the cutting knife stops in FIG.
SNA - Q5 - U2/A - U3 의 핀25Pin 25 of SNA-Q5-U2 / A-U3
B의 경우 SNB - Q10 - U2/B - 핀26SNB for B-Q10-U2 / B-Pin 26
C의 경우 SNC - Q15 - U2/C - 핀27SNC for C-Q15-U2 / C-Pin 27
D의 경우 SND - Q18 - U2/E - 핀28 에 신호를 인가한다.For D, apply a signal to SND-Q18-U2 / E-pin 28.
이렇게 인가되는 신호는 U3에 이미 입력 된 프로그램에 의해 구동은 모타 M을 급정지 시키는 신호를 U3의 핀 23 단자 C, 핀24 단자 D 에 나타냄과 동시에, 결단용 칼을 또다시 이동시킬때에 구동모타를 역회전 시키는 신호를 U3의 핀22 단자 B, 핀23 단자 C에 나타내게 된다.The signal applied in this way is displayed on pin 23 terminal C and pin 24 terminal D of U3 to stop the motor M, which is driven by the program already input to U3. The signal to reverse the rotation is shown on pin 22 terminal B and pin 23 terminal C of U3.
절단용 칼의 이동정지 작동은 다음과 같다.Movement stop operation of cutting knife is as follows.
도-2에서 구동용모타 M을 급정지시기는 신호가 U3의 핀23 (C), 핀24 (D)에 나타나면 핀23 (C) 신호는 Q16-Q13을 통하여 FET Q11을 통전시키며, 전 24 (D)에 나타낸 신호는 Q17-Q14를 통하여 FET Q12를 통전시키므로서 구동모터 M의 두 단자는 CN5를 통하여 Q11-Q12를 통하여 통전되므로 M의 정지시에 발생하는 역기전력을 통전시키므로서 M은 급정지하게 되므로서 절단용 칼은 급정지 하게된다.In Fig. 2, when a signal for suddenly stopping the driving motor M is displayed on pins 23 (C) and 24 (D) of U3, the pin 23 (C) signal energizes the FET Q11 through Q16-Q13. The signal shown in D) energizes the FET Q12 through Q17-Q14, and the two terminals of the drive motor M are energized through Q11-Q12 through CN5, so that M is suddenly stopped by energizing the back EMF generated when M is stopped. As a result, the cutting knife suddenly stops.
5. 절단용 칼을 역방향으로 이동시키기위한 구동모타의 작동5. Operation of drive motor to move cutting knife in reverse direction
절단용 칼을 역방향으로 이동시키기 위한 신호가 도-2의 U3의 핀 22 (B), 와 핀23 (C)에 나타나면 핀22 (B)의 신호는 Q9을 통하여 FET Q7을 통전시키므로서 FET Q1의 드레인에서 출력되는 PWM 단속펄스 신호를 구동모터 M에 인가시킨다.If a signal for moving the cutting knife in the reverse direction appears on pins 22 (B) and 23 (C) of U3 in Fig. -2, the signal of pin 22 (B) energizes FET Q7 through Q9 and thus FET Q1. The PWM intermittent pulse signal output from the drain of is applied to the drive motor M.
인가 된 신호는 정회전시에 Q6가 통전되는것에 비하여 역회전시에는 Q7이 통전되므로 구동모타 M의 극성이 반대로 되는것이다.When the applied signal is Q6 energized at forward rotation, Q7 is energized at reverse rotation, so the polarity of driving motor M is reversed.
한편 U3의 핀23 (C)의 출력은 Q16, Q13을 통하여 FET Q11을 통전시키게 되며 이로서 접지는 Q11을 통하여 구동모터 M에 인가되지만 정회전시에 Q12가 통전되는 것에 비하여 역회전시에는 Q11 통전되므로서 구동모터 M의 극성이 반대로 되는것이다. 따라서 구동모터 M에 가해지는 PWM 펄스신호와 접지는 정회전시에 비하여 반대 극성으로 인가되므로 구동모터는 역회전하게 되고 처음 정방향으로 이동된 절단용 칼은 2번째 이동시에는 역방향으로 움직이게 되므로서 절단용 칼은 초기에는 정방향 이동을 하므로서 절단하고, 2번찌는 역방향 이동을 하므로서 절단하게 되므로서 절단에 소요되는 시간을 단축시키게 되는 것이다.On the other hand, the output of pin 23 (C) of U3 energizes FET Q11 through Q16 and Q13, so that ground is applied to drive motor M through Q11, but Q11 is energized during reverse rotation, whereas Q12 is energized during forward rotation. The polarity of the drive motor M is reversed. Therefore, since the PWM pulse signal and ground applied to the drive motor M are applied with opposite polarity compared to the forward rotation, the drive motor is reversed and the cutting knife moved in the first forward direction moves in the reverse direction when the second movement is performed. Is initially cut in the forward movement, and the number 2 is cut by the reverse movement to shorten the time required for cutting.
이상에서 설명한 바와같이 본 고안은 도-1,도-4의 선택스윗치 SW1~6에 의하여절단폭은 1800mm,A0∼A4로 선택하고, 이 선택은 도-4의 파넬에 LED로서 나타내게 하며 도-2의 후트(FOOT) 스윗치를 밟으면 절단용칼을 이동시키는 구동모터 M의 정회전하여 칼을 정방향으로 이동시키어 선택된 길이를 절단한 후 칼이 정지하고, 다시 후트 스위치를 밟으면 구동모타는 역회전하게되어, 절단용 칼은 역방향으로 진행하며 절단하게되고, 속도조절용 가변저항 VR1의 조절에 의하여 절단용칼의 이동속도를 임의로 조절하므로서 절단효과를 높인 절단기를 고안하게 되는 것이다.As described above, the present invention selects a cutting width of 1800 mm, A0 to A4 by the selection switches SW1 to 6 of Figs. 1 and 4, and this selection is indicated as an LED on the panel of Fig. 4 and Fig.- When the foot switch of 2 is pressed, the drive motor M which moves the cutting knife is rotated forward to move the knife in the forward direction. After cutting the selected length, the knife stops, and when the foot switch is pressed again, the drive motor is reversed. Cutting knife is to cut in progress in the reverse direction, by adjusting the speed of the variable resistance VR1 for adjusting the speed arbitrarily adjust the moving speed of the cutting knife to devise a cutting effect of the cutting effect.
Claims (3)
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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KR2020000007414U KR200211096Y1 (en) | 2000-03-15 | 2000-03-15 | Trimer for laminator film |
IT2000MI001921A IT1318793B1 (en) | 2000-03-15 | 2000-08-29 | CUTTING DEVICE FOR FILMS, FORMED IN A LAMINATE |
DE10104051A DE10104051B4 (en) | 2000-03-15 | 2001-01-31 | Cutting device for laminator films |
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KR2020000007414U KR200211096Y1 (en) | 2000-03-15 | 2000-03-15 | Trimer for laminator film |
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DE29513308U1 (en) * | 1995-08-21 | 1997-02-06 | METEOR-SIEGEN Maschinenfabrik GmbH & Co. KG, 57555 Mudersbach | Electric cutting machine |
US6721060B1 (en) * | 1996-05-01 | 2004-04-13 | Canon Finetech Inc. | Recording medium cutter image forming device using same |
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2000
- 2000-03-15 KR KR2020000007414U patent/KR200211096Y1/en not_active IP Right Cessation
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DE10104051B4 (en) | 2006-02-02 |
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