KR101639127B1 - Thickness or width measuring apparatus of moving thin plate - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a precision continuous measurement apparatus capable of continuously measuring the thickness and width of a thin plate material, comprising a pair of guide rollers for guiding the movement of the plate material; A mounting block including a spring and a link arranged to be vertically or vertically horizontally and to be elastically moved up and down or left and right; A slide housing which is fitted in a mounting hole formed in the mounting block and is fixed or unfixed by an adjusting bolt for adjusting a gap of the mounting hole, An adapter having one end coupled to one side thread of the slide housing and having an inner diameter surface formed with a guide groove parallel to the axial direction; A sensor holder having one end coupled to the other end of the adapter; A sensor cover coupled to the other end of the sensor holder; A position adjusting nut for adjusting the position of the slide housing; A probe unit having a first measuring roller coupled to the other end exposed to the outside of the slide housing, the probe unit having a guide protrusion inserted into the guide groove formed on an outer surface of the slide housing and inserted into the slide housing, A second measuring roller coupled to the mounting block at a distance apart from the first measuring roller; And the plunger constituting one end is in contact with one end of the probe unit, thereby continuously measuring the thickness and the width of the plate-like body entering between the first measurement roller and the second measurement roller.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a thickness measuring apparatus,

The present invention relates to a precision continuous measuring apparatus capable of continuously measuring the thickness and width of a thin plate-like body.

Plates manufactured through rolling are supplied in various thicknesses and widths, but there is also a demand for a strip-shaped rolled body having a relatively narrow width.

Therefore, it is necessary to manage the thickness and the width of the plate in a certain range when manufacturing such a plate. Significant losses are incurred, such as additional costs incurred after the manufacturing process fails to meet the specified specifications.

Accordingly, it is necessary to measure the thickness and width of the plate body in real time at the time of manufacturing the plate body.

There is a "Moving Plate Thickness Measuring Apparatus" of Korean Patent Registration No. 10-0901310, which is related to the present invention.

FIG. 1 is a cross-sectional view of the main part of the prior art. The thickness measuring principle of the prior art is provided with a movable lever which is pivoted with respect to the housing, a housing provided with a master, And a movement of the movable lever which is constituted by an expression sensor and is rotated according to the thickness of the plate.

However, since the movable lever is moved by changing the angle, it is difficult to ensure that the contact point between the contact sensor and the master is always the same, and thus, it has a limitation as a precision measuring device for measuring several microns. There is also a problem in that it is structurally complicated, incapable of making, and bulky.

Korea Patent No. 10-0901310

Accordingly, the present invention provides a method of measuring a thickness or a width of a plate material which is somewhat versatile and capable of selectively measuring the thickness and width of a plate material, And to provide a continuous measuring device.

According to an aspect of the present invention, there is provided an apparatus for accurately measuring the thickness or width of a plate, comprising: a pair of guide rollers provided on one side of a plate-like bed to guide movement of the plate- A mounting block connected directly or indirectly to the bed, the mounting block including a spring and a link arranged to be vertically or horizontally and horizontally to move up and down or left and right; A slide housing which is fitted in a mounting hole formed in the mounting block and is fixed or unfixed by an adjusting bolt for adjusting a gap of the mounting hole, An adapter having one end coupled to one side thread of the slide housing and having an inner diameter surface formed with a guide groove parallel to the axial direction; A sensor holder having one end coupled to the other end of the adapter; A sensor cover coupled to the other end of the sensor holder; A position adjusting nut coupled to the other side thread of the slide housing to adjust the position of the slide housing; A probe unit having a first measuring roller coupled to the other end exposed to the outside of the slide housing, the probe unit having a guide protrusion inserted into the guide groove formed on an outer surface of the slide housing and inserted into the slide housing, A second measuring roller coupled to the mounting block at a distance apart from the first measuring roller; And a sensor which is inserted through the sensor cover and is connected to one end of the probe unit and is fixed by a tightening bolt provided on the sensor holder, And the thickness and the width of the plate-like body that is entering are continuously measured.

Preferably, one end of the probe unit is formed into a convex curved surface, and the plunger end of the sensor, which is in contact with one end of the probe unit, is formed in a plane.

Preferably, one end of the first spring is supported by the mounting block, the other end is supported by the sensor cover, and the sensor cover and the sensor cover are sequentially And the other elements to be connected receive the supporting force of the first spring.

Preferably, the probe unit includes a probe rod having one end inserted through the inside of the slide housing and the other end protruding from the slide housing, a guide fitted in the inner diameter surface of the slide housing, A retaining ring coupled to the probe rod and restricting a downward travel distance of the probe rod; a first support body inserted and fixed at the other end of the slide housing; A first spring disposed between the first support and the second support, a bracket coupled to the other end of the probe rod, and a second bracket coupled to the bracket, And a first measuring roller connected to the first measuring roller.

The apparatus for measuring continuous thickness or width of a plate according to the present invention is effective for continuously measuring the thickness and width of a relatively narrow plate.

Further, the present invention has an advantage that it is easy to install and operate, and the measurement accuracy can be enhanced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a perspective view of a first embodiment of the present invention;
3 is a cross-sectional view of the main part in the first embodiment;
Figure 4 is a photograph of a sliver of the slide housing and the probe rod.
5 is a perspective view of the adapter;
6 is a perspective view of the slide housing with the positioning nut engaged;
7 is a perspective view of a second embodiment of the present invention;
8 is a plan side sectional view of Fig.

In order to facilitate understanding of the technical idea of the present invention, a more detailed description will be given by way of concrete examples. It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

Fig. 4 is a perspective view of the slide housing and the probe rod, Fig. 5 is a perspective view of the adapter and Fig. 5 is a perspective view of the adapter of Fig. FIG. 6 is a perspective view showing a state in which a position adjusting nut is coupled to the slide housing, FIG. 7 is a perspective view of a second embodiment of the present invention, and FIG. 8 is a plan side sectional view of FIG. 7 .

As shown in the figure, the first embodiment shows a case where the thickness of a plate-like object to be measured can be measured.

The present invention makes it possible to continuously measure the thickness of a platelet in real time in the production of a relatively narrow and thin platelet.

A pair of guide rollers 20 are provided on one side of the bed 10 to guide the movement of the plate-shaped body. It is preferable that the guide roller 20 is provided with an entrance guide roller and an exit guide roller, and the position of each guide roller 20 can be adjusted, so that the guide roller 20 can be adjusted corresponding to the width of the plate .

A mounting block 100 connected directly or indirectly to the bed 10 and arranged vertically and vertically and moving up and down by a resilient force of the spring is provided.

The mounting block 100 includes a post 110 fixed to the bed 10 vertically and vertically and a holder 120 and a link 130 connected to the post 110. The post 110 is fixed to the bed 10 vertically.

The mounting block 100 is connected to the holder 120 through a plurality of links 130 and is vertically moved due to a spring (not shown) connecting the mounting block 100 and the holder 120.

A mounting hole 140 is formed at the tip of the mounting block 100. The mounting hole 140 is formed in a circular shape as a whole but one side is cut so that tightening force can be generated by tightening the adjusting bolt 141. [

A thread is formed on the upper and lower ends of the slide housing 200 and fixed with the adjustment bolt 141 for adjusting the gap of the mounting hole 140. [ Or unlocked.

One end of the adapter 300 is threadedly connected to one side thread (upper side thread in the present embodiment) of the slide housing 200. A guide groove 310, which is recessed at a predetermined depth, is formed on the inner diameter surface of the adapter 300 in parallel with the axial direction. The guide groove 310 functions to stably guide the linear motion of the probe rod to be described later.

One end of the sensor holder 400 is coupled to the other end of the adapter 300. When the sensor 500 is inserted into the sensor holder 400 on the outer surface of the sensor holder 400, A fixing bolt hole 410 for fixing the fixing bolt is provided.

On the other hand, the sensor cover 600 is coupled to the other end of the sensor holder 400, and the sensor cover 600 protects the upper portion of the sensor 500.

A position adjusting nut 700 is coupled to the other side thread of the slide housing 200 in the present embodiment. The position adjusting nut 700 is used to adjust the initial position of the slide housing 200 fitted in the mounting hole 140 And is used when it is desired to adjust the thickness of the plate to be measured so that the plate can be inserted between the first measuring roller R1 and the second measuring roller R2 which will be described later.

The slide housing 200 inserted into the mounting hole 140 is fixed in position by the adjusting bolt 141. The adjusting bolt 141 is loosened if necessary and the position of the slide housing 200 The position of the slide housing 200 is fixed by tightening the bolt 141 again.

A probe unit 800 is installed inside the slide housing 200. A guide protrusion 811 is formed on the outer surface of one end of the probe unit 800 to be inserted into the guide groove 310 to move along the axial direction, The first measuring roller R1 is coupled to the other end exposed to the outside.

More specifically, the detailed configuration of the probe unit 800 will be described.

The probe unit 800 includes a probe rod 810, a guide 820, a ball slide 830, a snap ring 840, a first support body 850, a second support body 860, a first spring 870, A first measuring roller 880 and a first measuring roller R1.

The probe rod 810 is an elongated rod-shaped member, one end of which is inserted through the inside of the slide housing 200, and the other end of which protrudes outside the slide housing 200. A guide protrusion 811 is coupled to an outer surface of one end of the probe rod 810 and the guide protrusion 811 is inserted into the guide groove 310 of the adapter 300 and is formed to be linearly movable.

A guide 820 is inserted into the inner surface of the slide housing 200 and a ball slide 830 is inserted into the guide 820. The ball slide 830 is coupled to enclose the upper side of the probe rod 810. The ball slide 830 moves up and down along the guide 820 and the probe rod 810 also moves linearly.

A snap ring 840 is coupled near one end of the probe rod 810, and the snap ring 840 functions to limit the downward travel distance of the probe rod 810.

The first support body 850 is inserted and fixed to the other end of the slide housing 200 and the first support body 850 is detached from the guide 820 and the ball slide 830 inserted into the slide housing 200 It also has the function of preventing.

The bracket 880 is coupled to the other end of the probe rod 810 and the other end of the probe rod 810 is inserted through a hole formed in the bracket 880 and fixed with a bolt.

A second support body 860 is coupled to one surface of a bracket 880 in which the other end of the probe rod 810 is fitted and a first spring 870 is disposed between the first support body 850 and the second support body 860 do. The first spring 870 is fitted to cover the other end of the probe rod 810 and is supported by the first and second supports 850 and 860 so that the probe rod 810 is raised and then returned to its original position It gives the resilience that can be.

A first measuring roller R1 is rotatably coupled to an end of a bracket 880. The first measuring roller R1 is paired with a second measuring roller R2 to be described later, And the second measuring roller R2.

More preferably, one end of the probe rod 810 is formed as a convex curved surface. One end of the probe rod 810 has a curved shape, which will be described later in relation to the corresponding sensor 500.

The first measuring roller R1 and the corresponding second measuring roller R2 are coupled to the mounting block 100 so as to be spaced a predetermined distance from the first measuring roller R1. Since the first measuring roller R1 is connected to the bracket 880 so that the probe rod 810 moves together when the probe rod 810 moves up and down, .

The platelets pass between the first measuring roller R1 and the second measuring roller R2. The first measuring roller R1 is moved up and down in accordance with the thickness of the plate, And transmits the amount of change to the sensor 500 to be described later.

The sensor 500 is inserted through the sensor cover 600 so that the plunger 510 forming one end of the sensor 500 is in contact with one end of the probe rod 810. The sensor 500 is fixed in position by a fixing bolt provided in the sensor holder 400.

Preferably, the end of the plunger 510 constituting the sensor 500 is formed in a plane, and one end of the probe rod 810 constituting the probe unit 800 is formed into a convex curved surface. One end of the probe rod 810 having a convex curved surface comes into contact with the end of the plane plunger 510 so that the amount of change due to the movement of the probe rod 810 can be accurately transmitted to the plunger 510 .

That is, even if the center lines of the probe rod 810 and the plunger 510 are slightly misaligned, convex curved surfaces make a contact with a flat surface, so accurate measurement becomes possible.

A second spring 900 is provided to surround the outer surface of the adapter 300 and the sensor holder 400. One end of the second spring 900 is supported by the mounting block 100, 600). The sensor cover 600, the sensor holder 400, the adapter 300 and the slide housing 200 receive the force of the second spring 900 by the second spring 900 and are received in the slide housing Even if the main body 200 is not fixed, it does not flow downward.

That is, the second spring 900 prevents the slide housing 200 and the elements connected to the slide housing 200 from suddenly moving downward when adjusting the position of the slide housing 200, so that the second spring 900 can finely adjust the position.

Next, a second embodiment of the present invention will be described.

As shown in FIG. 7 or 8, in the second embodiment, the widths of the plate bodies can be measured continuously by arranging the main components in different directions.

A plurality of guide rollers (20) are provided on one side of the plate-shaped bed (10) to guide the movement of the plate-like body continuously moved.

In the second embodiment, the mounting block 100 is horizontally disposed, and the mounting block 100 is elastically movable left and right by a spring (not shown) and a link 130.

The slide housing 200 is inserted into the mounting hole 140 formed in the mounting block 100 and the slide housing 200 is disposed in the horizontal direction.

The adapter 300 is coupled to one side of the slide housing 200 and the sensor holder 400 is connected to the other end of the adapter 300 and the sensor cover 600 is connected to the sensor holder 400. And the position adjusting nut 700 is coupled to the other side thread of the slide housing 200.

That is, in the second embodiment, the arrangement of the first embodiment and the structure itself are the same, but the arrangement direction of the major components is made horizontal so that the width of the plate can be measured.

In the second embodiment, detailed description of each constituent element is omitted, and the first embodiment is referred to.

The probe unit 800 is installed inside the slide housing 200 and the second measuring roller R2 is fixed to the mounting block 100 by being spaced apart from the first measuring roller R1 constituting the probe unit 800 do.

The sensor 500 is inserted through the sensor cover 600 and the plunger 510 of the sensor 500 is brought into contact with the probe rod 810 constituting the probe unit 800, So that the change in the width of the platelet can be measured through the amount of movement of the probe rod 810 moving along.

Of course, these measurements can be sent to a PC or other device connected to the sensor, allowing them to be displayed either analogue or digital.

As described above, according to the present invention, it is possible to selectively measure the thickness or width of a plate by simply changing the direction while sharing key elements, and it is possible to measure the thickness or width of the plate- So that the measurement precision can be increased by making the structure of the force simple to respond directly to the change.

INDUSTRIAL APPLICABILITY The present invention is suitable for use in continuous measurement of thickness and width of a plate produced by rolling.

10: bed 20: guide roller
100: mounting block 110: post
120: holder 130: link
140: mounting hole 141: adjusting bolt
200: slide housing 300: adapter
310: guide groove 400: sensor holder
410: Fixed bolt hole 500: Sensor
510: plunger 600: sensor cover
700: Positioning nut 800: Probe unit
810: probe rod 811: guide projection
820: guide 830: ball slide
840: snap ring 850: first support
860: second support body 870: first spring
880: Bracket 900: Second spring
R1: first roller R2: first roller

Claims (4)

In an apparatus for continuously measuring the thickness and width of a plate,
A pair of guide rollers provided at one side of the plate-shaped bed to guide the movement of the plate-shaped body;
A mounting block connected directly or indirectly to the bed, the mounting block including a spring and a link arranged to be vertically or horizontally and horizontally to move up and down or left and right;
A slide housing which is fitted in a mounting hole formed in the mounting block and is fixed or unfixed by an adjusting bolt for adjusting a gap of the mounting hole,
An adapter having one end coupled to one side thread of the slide housing and having an inner diameter surface formed with a guide groove parallel to the axial direction;
A sensor holder having one end coupled to the other end of the adapter;
A sensor cover coupled to the other end of the sensor holder;
A position adjusting nut coupled to the other side thread of the slide housing to adjust the position of the slide housing;
A probe unit having a first measuring roller coupled to the other end exposed to the outside of the slide housing, the probe unit having a guide protrusion inserted into the guide groove formed on an outer surface of the slide housing and inserted into the slide housing,
A second measuring roller coupled to the mounting block at a distance apart from the first measuring roller;
And a sensor which is inserted through the sensor cover and is connected to one end of the probe unit and is fixed by a tightening bolt provided on the sensor holder, The thickness and the width of the plate-like body entering are successively measured,
Wherein one end of the probe unit is formed of a convex curved surface and the plunger end of the sensor which is in contact with one end of the probe unit is formed in a flat surface. delete The method according to claim 1,
Wherein one end of the first spring is supported by the mounting block and the other end is supported by the sensor cover and sequentially connected to the sensor cover and the sensor cover So that other elements can receive the supporting force of the first spring. The method according to claim 1 or 3,
The probe unit includes:
A probe rod inserted into the slide housing at one end and projecting outside the other end of the slide housing; a guide inserted into the inner diameter surface of the slide housing; A snap ring coupled to the probe rod to limit the downward travel distance of the probe rod, a first support body inserted and fixed at the other end of the slide housing, a bracket coupled to the other end of the probe rod, A second support body coupled to one surface of the bracket into which the probe rod is inserted, a first spring disposed between the first support body and the second support body, and a first measurement roller rotatably connected to the bracket Characterized in that the thickness or width of the plate body is measured continuously.

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