KR101323383B1 - Non-contacting meterial length measurement device - Google Patents

Abstract

The present invention relates to a non-contact material length measuring device, the configuration is a transfer unit for placing the material in one direction to settle; and the first measurement for measuring the horizontal length of the material to be transferred by the transfer unit, and transmits the measured value And a second measuring unit measuring the height of the material conveyed by the conveying unit and transmitting the measured value; and measuring the longitudinal length of the material conveyed by the conveying unit and transmitting the measured value. A third measuring unit; and a control unit which controls the transfer unit and the first, second and third measuring units, and receives the measured values measured by the first, second and third measuring units, and the measured values received by the control unit. A monitor for outputting and providing an image;
The horizontal, vertical, and height of the material conveyed through the conveying unit are measured and provided through the sensor in the first, second, and third measuring units, respectively. As the work is performed, the work speed is fast and the work efficiency is excellent.
In addition, by providing a label paper with a measurement value measured by measuring the size of the material through the label printer, and by attaching the label to the finished material is stored, there is an effect that can provide the user with ease of use.

Description

Non-contacting meterial length measurement device

The present invention relates to a non-contact material length measuring device, and more particularly, by measuring the horizontal, vertical, and height of the material to be conveyed through the transfer unit through the sensor in the first, second and third measuring units, respectively, for the measured value It is a non-contact material length measuring instrument that has a low error range, which is excellent for measured values, and at the same time, a measuring operation is performed through a mechanical device, so that the work speed is fast and the work efficiency is excellent.

In general, in order to measure the size (horizontal, vertical, height) of the cut material, the operator directly measured the size of the material through the measuring device.

However, when the operator directly measures, there is a disadvantage in that precise measurement is difficult due to the nature of the artificial work. That is, there is a problem that the reliability of the measured value is lowered as a problem that the error of the measured value occurs.

In addition, since the operator directly performs the measurement work, there is a problem that the work efficiency is low because the work speed is somewhat low.

The present invention has been proposed to solve the above-mentioned problems, the object of which is to provide the horizontal, vertical, height of the material conveyed through the conveying unit by measuring through the sensor in the first, second, third measuring unit, respectively In addition, it provides a non-contact material length measuring instrument that is excellent in measurement value because of the low error range for measured value and at the same time, the measurement work is performed by mechanical device.

In addition, a non-contact material length measuring device that can provide user convenience by providing a label paper printed with the measured value measuring the size of the material through the label printer, and by attaching the label to the finished material. In providing.

Non-contact material length measuring device according to the present invention for achieving the above object is a transfer unit for placing the material in one direction to place the material; and measuring the horizontal length of the material to be transferred by the transfer unit, and transmitting the measured value A first measuring unit; and a second measuring unit measuring a height of the material conveyed by the conveying unit and transmitting the measured value; and measuring a longitudinal length of the material conveyed by the conveying unit, and measuring the measured value A third measuring unit for transmitting the control unit; and a control unit which controls the transfer unit and the first, second and third measuring units, and receives the measured values measured by the first, second and third measuring units. It is configured to include; monitor for outputting and providing the measured value as an image
The transfer unit may include a first motor providing a rotational force, a first gear formed on a shaft of the first motor and being rotated by a rotational force of the first motor, and a second gear spaced apart from the first gear. And a first connecting belt which connects the first gear and the second gear to transfer the rotational force of the first gear to the second gear, and is rotated by the rotational force of the second gear. A first guide rod having a first guide groove formed thereon, a first transfer member positioned on the first guide rod and transported through the first guide groove when the first guide rod rotates, and an upper surface of the first transfer member; It is coupled to the position, the upper is characterized in that it comprises a fixing plate for fixing the position of the base plate is placed, the first motor and the first guide rod.

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In addition, the first sensor for detecting the presence of the settled on the base plate, and transmits the detection information to the control unit, and is located apart from the first sensor, the presence or absence of the settled on the base plate, It further comprises a second sensor for transmitting the detection information to the control unit,

When the controller detects that the material is placed on the mounting plate through the sensing information of the first sensor, the control unit drives the first motor to transfer the mounting plate coupled to the first transport member in one direction and is transferred. When the material placed on the base plate is detected by the second sensor, the control unit which transmits the detection information stops the operation of the first motor, and the material placed on the base plate through the detection information of the second sensor. When it detects that is recovered is characterized in that for driving the first motor to return the mounting plate to the original position.

In addition, the first measuring unit is located on one side of the fixed frame to measure the horizontal length of the material conveyed through the conveying unit, and is fixed to the fixed frame and the third sensor for transmitting the measurement information, Characterized in that it comprises a fixed body in which the third sensor is built.

The second measuring unit may include a second motor providing a rotational force, a third gear formed on an axis of the second motor and being rotated by the rotational force of the second motor, and spaced apart from the third gear. A fourth gear, a second connecting belt which connects the third gear and the fourth gear to transmit the rotational force of the third gear, and is rotated by the rotational force of the fourth gear; On the outer circumference, a second guide groove is formed in a spiral shape, the second guide rod which is erected perpendicularly to the longitudinal direction of the fixed frame, and the second guide groove which is located on the second guide rod and rotates the second guide groove. And a second sensor to be transported in the up and down directions, and a fourth sensor positioned at an upper coupling position of the second carrier and measuring a height of the material to be conveyed through the transport unit, and transmitting the measurement information. It is characterized in that the configuration.

The third measuring unit may include a third motor providing a rotational force, a fifth gear formed on an axis of the third motor and being rotated by the rotational force of the third motor, and spaced apart from the fifth gear. A sixth gear, a third connecting belt which transmits the rotational force of the fifth gear by connecting the fifth gear and the sixth gear, and is rotated by the rotational force of the sixth gear, A third guide rod having a helical third guide groove formed on the outer circumferential surface thereof, and a third transfer member positioned on the third guide rod and being rotated in the left and right directions when the third guide rod rotates; And a fifth sensor coupled to the end of the third conveying member, measuring a longitudinal length of the material conveyed through the conveying unit, and transmitting a measurement information thereof.

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As described above, according to the non-contact material length measuring device according to the present invention, by measuring the horizontal, vertical, and height of the material conveyed through the conveying unit through the sensor in the first, second, third measuring unit, respectively, for the measured value Low error range is excellent for the measured value and at the same time, the measurement work is performed by the mechanical device, so the work speed is fast and the work efficiency is excellent.

In addition, by providing a label paper with a measurement value measured by measuring the size of the material through the label printer, and by attaching the label to the finished material is stored, there is an effect that can provide the user with ease of use.

1 is a perspective view of a non-contact length measuring device according to an embodiment of the present invention
2 is a front view of the non-contact length measuring device shown in FIG.
3 is a plan view of the non-contact material length meter shown in FIG.
Figure 4 is an exploded perspective view of the transfer portion of the non-contact material length meter shown in FIG.
5 is an exploded perspective view of a second measuring unit of the non-contact material length measuring device shown in FIG.
6 is an exploded perspective view of a third measuring unit of the non-contact material length measuring device shown in FIG.
7 is a state diagram used in the non-contact length measuring device shown in FIG.

Non-contact material length measuring device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 illustrate a non-contact material length measuring device according to an embodiment of the present invention, Figure 1 is a perspective view of a non-contact material length measuring device according to an embodiment of the present invention, Figure 2 is a non-contact material shown in Figure 1 Front view of the length measuring instrument, Figure 3 is a plan view of the non-contact material length meter shown in Figure 1, Figure 4 is an exploded perspective view of the transfer portion of the non-contact material length meter shown in Figure 1, Figure 5 is a non-contact type shown in Figure 1 6 is an exploded perspective view of the second measuring unit of the material length measuring instrument, FIG. 6 is an exploded perspective view of the third measuring unit of the non-contact material length measuring instrument shown in FIG. 1, and FIG. 7 is a diagram illustrating a state of use of the non-contact material length measuring instrument shown in FIG. 1, respectively. It is shown.

As shown in the drawings, the non-contact material length measuring device 100 according to an embodiment of the present invention is the transfer unit 10, the first measuring unit 20, the second measuring unit 30, the third measurement The unit 40, the control unit 50, and the monitor 60 are included.

As shown in Figures 1 to 4, the transfer unit 10 is to transfer the material in one direction by placing the material (1),

A first motor 11 providing rotational force, a first gear 12 formed on the shaft 11a of the first motor 11 and being rotated by the rotational force of the first motor 11; The rotational force of the first gear 12 is connected to the second gear 13, which is spaced apart from the first gear 12, and the first gear 12 and the second gear 13 are connected to each other. The first guide belt 14 to be transmitted to the gear 13 and the first guide rod that is rotated by the rotational force of the second gear 13, the first guide groove (15a) is formed in a spiral on the outer peripheral surface 15 and the first conveying member (16) positioned on the first guide rod (15) and transported through the first guide groove (15a) when the first guide rod (15) rotates; Coupling position is located on the upper surface of the first transfer member 16, the upper support plate 17 for placing the material (1), the first motor 11 and the first guide rod 15 to support the position It comprises a fixed frame 18 for fixing.

That is, when the first motor 11 is driven and the first gear 12 is rotated through the control of the control unit 50 to be recessed, the first gear 12 through the first connecting belt 14. The second gear 13 receives the rotational force of) and is rotated on the first guide rod 15 while the first guide rod 15 is rotated by the rotation of the second gear 13. The first conveying member 16 is transported in one direction on the first guide rod 15, and the mounting plate 17 coupled with the first conveying member 16 is also conveyed. The raw material 1 placed in 17 is transferred in one direction.

Here, the mounting plate 17 is formed with a fixing jaw (17a) for setting the exact position where the material (1) is placed so that the precise position of the material (1) is performed to accurately set the position of the material (1) Induction is preferred.

In addition, as shown in Figures 1 to 3, the first sensor 71 for detecting the presence or absence of the material 1 on the mounting plate 17, and transmits the detection information to the control unit 50, The second sensor 72 is spaced apart from the first sensor 71 and detects the presence or absence of the material 1 on the mounting plate 17, and transmits the detection information to the controller 50. It will be configured to include more.

Here, the first and second sensors 71 and 72 preferably use a conventional proximity sensor.

That is, as shown in FIGS. 7B and 7C, when the control unit 50 detects that the material 1 is placed on the mounting plate 17 through the detection information of the first sensor 71, the first motor. (11) to drive the mounting plate 17 coupled to the first transfer member 16 in one direction, and the material placed on the mounting plate 17 to be transferred as shown in Figure 7f ( When 1) is detected by the second sensor 72, the control unit 50 which has transmitted the detection information stops the operation of the first motor 11, as shown in FIGS. 7g and 7h. When sensing the material 1 placed on the mounting plate 17 is recovered through the sensing information of the second sensor 72, the first motor 11 is driven to return the mounting plate 17 to its original position. To control.

As shown in Figures 1 to 3, the first measuring unit 20 measures the transverse length of the material (1) conveyed by the transfer unit 10, and transmits the measured value,

Located on one side of the fixed frame 18, the third sensor 21 for measuring the horizontal length of the material (1) conveyed through the transfer unit 10, and transmits the measurement information, and the fixed frame ( It is fixed to the 18, it comprises a fixed body 22 is built in the third sensor 21 therein.

That is, as shown in FIGS. 7D and 7E, the third sensor 21 measures the horizontal length of one end point and the other end point of the raw material 1 conveyed through the transfer part 10, and measures the measurement. Information is sent to the controller 50.

As shown in FIGS. 1 to 3 and 5, the second measuring unit 30 measures the height of the raw material 1 conveyed by the conveying unit 10 and transmits the measured value.

A second motor 31 providing rotational force, a third gear 32 formed on the shaft 31a of the second motor 31 and being rotated by the rotational force of the second motor 31; The fourth gear 33 spaced apart from the third gear 32 and the third gear 32 and the fourth gear 33 are connected to each other so that the rotational force of the third gear 32 is increased by the fourth gear 33. The second connecting belt 34 to be transmitted to the gear 33, and is rotated by the rotational force of the fourth gear 33, the outer circumferential surface is formed with a second guide groove (35a) in a spiral, the fixed frame A second guide rod 35 erected perpendicular to the longitudinal direction of 18 and positioned on the second guide rod 35 and the second guide rod 35a rotates when the second guide rod 35 rotates; The upper conveyance position of the second conveying body 36 and the second conveying body 36, the upper conveyance of the second conveying body 36, the height of the material 1 conveyed through the conveying unit 10 is measured Fourth to transmit the measurement information It is configured to include a stand (37).

That is, when the second motor 31 is driven to rotate the third gear 32 under the control of the controller 50, the second gear 32 of the third gear 32 is rotated through the second connecting belt 34. The fourth gear 33 receives the rotational force is rotated, the second guide rod 35 is rotated by the rotation of the fourth gear 33 is located on the second guide rod 35 The second transfer member 36 is raised and lowered by the second guide rod 35, and at this time, the fourth sensor coupled to the second transfer member 36 as shown in Figs. 7d and 7e. While the 37 moves up and down, the height of the material 1 conveyed through the transfer unit 10 is measured, and the measurement information is transmitted to the control unit 50.

As shown in FIGS. 1 to 3 and 6, the third measuring unit 40 measures the longitudinal length of the material 1 conveyed by the conveying unit 10 and transmits the measured value. ,

A third motor 41 providing rotational force, a fifth gear 42 formed on the shaft 41a of the third motor 41 and being rotated by the rotational force of the third motor 41; The sixth gear 43 positioned to be spaced apart from the fifth gear 42 and the fifth gear 42 and the sixth gear 43 are connected to each other so that the rotational force of the fifth gear 42 is adjusted to the sixth gear 43. The third guide belt 44 to be transmitted to the gear 43 and the third guide rod to be rotated by the rotational force of the sixth gear 43, the third guide rod 45a is formed in a spiral on the outer peripheral surface 45 and a third conveying body which is positioned on the third guide rod 45 and is conveyed in the left and right directions by the third guide groove 45a when the third guide rod 45 rotates. 46 and a fifth sensor 47 coupled to the end of the third conveying member 46 for measuring the longitudinal length of the material 1 conveyed through the conveying unit 10 and transmitting the measurement information. It is configured to include.

That is, when the third motor 41 is driven by the control of the controller 50 to rotate the fifth gear 42, the fifth gear 42 of the fifth gear 42 is rotated through the third connecting belt 44. The sixth gear 43 that receives the rotational force is rotated, and the third guide rod 45 is rotated by the rotation of the sixth gear 43, and thus the sixth gear 43 is positioned on the third guide rod 45. The third conveying member 46 is transported in the left and right directions by the third guide rod 45, and is coupled to the end of the third conveying body 46 as shown in FIGS. 7D and 7E. The fifth sensor 47 is moved in the left and right directions to approach the material 1 to be conveyed through the transfer unit 10 to measure the longitudinal length of the material 1, and the measurement information It transmits to the control part 50.

The sensors 21, 37, and 47 of the measuring units 20, 30, and 40 of the non-contact material length measuring apparatus 100 according to the embodiment of the present invention may use proximity sensors, but are not limited thereto.

As shown in FIG. 1, the controller 50 controls the transfer unit 10 and the first, second and third measuring units 20, 30 and 40, and the first, second and third measuring units 20. Receive the measured value measured at (30, 40).

That is, the sensing information transmitted from each of the sensors 21, 37, 47, 71, and 72 is received to control the driving of the plurality of motors 11, 31, and 41, respectively, to manage the organic operation of the device. do.

As shown in FIG. 1, the monitor 60 outputs the measured value received from the controller 50 as an image so that the user can easily identify the same.

Non-contact material length measuring device 100 of the present invention made of the above components is the first, second, third measuring unit 20, the horizontal, vertical, height of the material (1) to be transferred through the conveying unit 10 30 and 40 are measured and provided through the sensors 21, 37 and 47, respectively, and the error range of the measured value is low, so the reliability of the measured value is excellent and the measurement work is performed by a mechanical device, thereby increasing the working speed. The work efficiency is excellent.

In addition, as shown in Figure 1 is electrically connected to the control unit 50 for receiving the measurement value of the horizontal, vertical, height of the material (1) transmitted from the measuring unit (20, 30, 40) By further comprising a label printer (80) for outputting and providing a label paper 81 printed with the measured value of (1),

As shown in FIG. 7E, the user attaches the label paper 81 to the finished material 1 to store the measurement, thereby providing the user with the convenience of storing and using the material.

In addition, the label 81 can be printed and stored, as well as the measured value of the width, length, height of the material can be stored and managed more conveniently.

Non-contact material length measuring device 100 according to an embodiment of the present invention having the configuration as described above measures the length of the material as follows.

First, as shown in FIG. 7A, the material 1 to be measured for length is placed on the mounting plate 17 of the transfer unit 10.

Then, as illustrated in FIG. 7B, the first sensor 71 detects the presence of the material, transmits the sensing information, and transmits the sensing information as illustrated in FIG. 7C. The first motor 11 of 10) is driven so that the material 1 placed on the mounting plate 17 is transferred forward.

At the same time, as shown in FIG. 7C, the controller 50 drives the second motor 31 of the second measuring unit 30 and the third motor 41 of the third measuring unit 40, respectively. The sensor 37 is vertically moved upwards, and the fifth sensor 47 is moved close to the left in which the material 1 is located.

Then, as illustrated in FIG. 7D, the third sensor 21 of the first measuring unit 20 measures the horizontal length of the material 1 conveyed through the conveying unit 10, and the second measuring unit ( The fourth sensor 37 of 30 measures the height of the raw material 1, and the fifth sensor 47 of the third measuring unit 40 measures the longitudinal length of the raw material 1. The measured value is transmitted to the controller 50.

Then, as illustrated in FIG. 7E, the controller 50 receiving the measured value measuring the length of the material 1 outputs the measured value as an image to the monitor 60 to provide the user with an easy identification.

In this case, the label printer 80 electrically connected to the controller 50 outputs the measured value of the raw material 1 to the label paper 81 and provides it to the user.

As shown in FIG. 7F, when the material 1 having completed the length measurement as described above is transferred to and sensed at the position of the second sensor 72, the second sensor 72 transmits detection information, and the detection is performed. The controller 50 receiving the information stops the driving of the first motor 11 of the transfer unit 10.

Then, as shown in FIG. 7g, the user collects the material 1 placed on the mounting plate 17 of the transfer unit 10, and the label printer 80 for easy management of the recovered material 1. Attach the label sheet 81 output from

At this time, the control unit 50 for receiving the detection information of the second sensor 72 for detecting that the material 1 is recovered from the mounting plate 17, the transfer unit 10 as shown in Figure 7h The first motor 11, the second motor 31 of the second measuring unit 30, and the third motor 41 of the third measuring unit 40 to operate the mounting plate 17 and the first motor. The fourth sensor 37 and the fifth sensor 47 are controlled to return to their original positions.

Then, while repeating the above operation, the length of many raw materials 1 may be measured continuously.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Material
10. Transfer section 11. First motor
11a, 31a, 41a. Axis 12. First Gear
13. 2nd gear 14. 1st connection belt
15. First Guide Rod 15a. First Guide Home
16. First Transport 17. Settlement Plate
17a. Fixed Jaw 18. Fixed Frame
20. First measuring unit 21. Third sensor
22. Fixture 30. Second measuring unit
31. 2nd motor 32. 3rd gear
33. Second gear 34. Second connecting belt
35. Second guide rod 35a. 2nd Home
36. Second carrier 37. Fourth sensor
40. Third measuring unit 41. Third motor
42. 5th Gear 43. 6th Gear
44. Third connecting belt 45. Third guide rod
45a. Third guide home 46. Third carrier
47. Fifth Sensor 50. Control Unit
60. Monitor 71. First sensor
72. Second Sensor 80. Label Printer
81. Labels
100. Non-contact material length measuring instrument

Claims (7)

In the measuring device for measuring the length of the cut material,
A transfer part 10 for placing the material 1 in one direction;
A first measuring unit 20 measuring a horizontal length of the raw material 1 conveyed by the transfer unit 10 and transmitting the measured value;
A second measuring unit 30 measuring the height of the material 1 conveyed by the transfer unit 10 and transmitting the measured value;
A third measuring unit (40) for measuring the longitudinal length of the material (1) conveyed by the conveying unit (10) and transmitting the measured value;
Control unit for controlling the transfer unit 10 and the first, second, third measuring unit (20, 30, 40), and receives the measured value measured by the first, second, third measuring unit (20, 30, 40) 50; And
And a monitor 60 for outputting and providing the measured value received from the controller 50 as an image.
The transfer unit 10,
The first motor 11 to provide a rotational force,
A first gear 12 formed on the shaft 11a of the first motor 11 and rotated by the rotational force of the first motor 11;
A second gear 13 spaced apart from the first gear 12;
A first connecting belt 14 connecting the first gear 12 and the second gear 13 to transfer the rotational force of the first gear 12 to the second gear 13;
The first guide rod 15 is rotated by receiving the rotational force of the second gear 13, the first guide groove 15a is formed in a spiral on the outer peripheral surface,
A first transfer member 16 positioned on the first guide rod 15 and transported by the first guide groove 15a when the first guide rod 15 rotates;
Is placed on the upper surface of the first transfer member 16, the upper plate 17 to allow the material 1 is settled, and
Non-contact material length measuring instrument, characterized in that it comprises a fixed frame (18) for supporting and fixing the position by supporting the first motor (11) and the first guide rod (15).
delete The method of claim 1,
A first sensor 71 which detects whether the material 1 is settled on the mounting plate 17 and transmits the detected information to the control unit 50;
The second sensor 72 is spaced apart from the first sensor 71 and detects the presence or absence of the material 1 on the mounting plate 17, and transmits the detection information to the controller 50. It is comprised of more including
When the control unit 50 detects that the material 1 is placed on the mounting plate 17 through the detection information of the first sensor 71, the control unit 50 drives the first motor 11 to provide the first transfer body ( The base plate 17 coupled with the transfer unit 16 moves in one direction, and when the material 1 placed on the base plate 17 to be transferred is detected by the second sensor 72, the sensing information is transmitted. When the control unit 50 stops the operation of the first motor 11 and detects that the material 1 placed on the mounting plate 17 is recovered through the detection information of the second sensor 72. Non-contact material length measuring device, characterized in that for driving the first motor (11) to return the mounting plate (17) to its original position.
The method of claim 1,
The first measuring unit 20,
A third sensor 21 positioned at one side of the fixed frame 18 to measure the horizontal length of the material 1 conveyed through the transfer unit 10 and transmitting the measurement information;
The non-contact material length measurer, which is fixed to the fixed frame (18), comprises a fixed body (22) in which the third sensor (21) is built.
The method of claim 1,
The second measuring unit 30,
A second motor 31 which provides rotational force,
A third gear 32 formed on the shaft 31a of the second motor 31 and rotated by the rotational force of the second motor 31;
A fourth gear 33 spaced apart from the third gear 32;
A second connecting belt 34 connecting the third gear 32 and the fourth gear 33 to transfer the rotational force of the third gear 32 to the fourth gear 33;
The second guide rod (35a) is formed on the outer circumferential surface of the outer circumferential surface in a helical manner, the second guide rod (35) perpendicular to the longitudinal direction of the fixed frame (18) 35) and,
A second transfer member 36 positioned on the second guide rod 35 and transported in the up and down directions by the second guide groove 35a when the second guide rod 35 is rotated;
Is coupled to the upper portion of the second transfer member 36, and comprises a fourth sensor 37 for measuring the height of the material (1) conveyed through the transfer unit 10, and transmits the measurement information Non-contact material length measuring device, characterized in that.
The method of claim 1,
The third measuring unit 40,
A third motor 41 which provides rotational force,
A fifth gear 42 formed on the shaft 41a of the third motor 41 and rotated by the rotational force of the third motor 41;
A sixth gear 43 spaced apart from the fifth gear 42;
A third connecting belt 44 connecting the fifth gear 42 and the sixth gear 43 to transfer the rotational force of the fifth gear 42 to the sixth gear 43;
The third guide rod 45 is rotated by the rotational force of the sixth gear 43, the third guide groove (45a) is formed in a spiral on the outer peripheral surface,
A third transfer member 46 positioned on the third guide rod 45 and transferred to the left and right directions through the third guide groove 45a when the third guide rod 45 rotates;
It is coupled to the end of the third conveying member 46, and comprises a fifth sensor 47 for measuring the longitudinal length of the material (1) conveyed through the conveying unit 10, and transmits the measurement information Non-contact material length measuring instrument, characterized in that.
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