KR20100133686A - Device for measuring tool height - Google Patents

Abstract

PURPOSE: A device for measuring height of a tool is provided to prevent safety accident from bringing the face toward a machine tool without bending the body to confirm the coordinate value. CONSTITUTION: A measurement gauge includes a body(216), a spindle(202) and a flange(210). A display part(214) is formed on the front side of the body obliquely. The spindle is moved in the straight line and installed in the body. The flange is formed in one side of the body. The spindle is arranged along the distance direction of the housing.

Description

Tool height measuring device {DEVICE FOR MEASURING TOOL HEIGHT}

The present invention relates to a tool height measuring apparatus for measuring a vertical axis of a machine tool. More specifically, the zero point setting may be performed to check a coordinate value of a vertical axis of a machine tool or to correct a coordinate value of a vertical axis according to a tool change. In this case, a display part having a predetermined inclination angle is installed on one side of the measuring gauge body so that the operator can check the tool value or set the zero point without bending the face or approaching the face part of the machine tool. Relates to a device.

In general, a computer numerical control (CNC) machine tool is a device that controls the position of a tool relative to a workpiece and controls or automatically operates the machine by numerical commands necessary for cutting. That is, when machining the workpiece, the dimensions and processing conditions are input to the CNC, and the workpiece is machined under the conditions such as the input numerical values.

First, when machining a workpiece on a machine tool (CNC), a coordinate value must be set. The machine tool is set with three types of coordinate systems: machine coordinate system, absolute coordinate system, and relative coordinate system.

First, the machine coordinate system is a coordinate value that indicates the position of the tool at the machine's origin. It is a standard for setting the machine parameter value or setting value as the machine coordinate value.

Second, the absolute coordinate system is used so that an operator can easily write a program and is set and changed by a predetermined program.

Third, it is used to improve the user's convenience and is mainly used for coordinate set-up of machine tools.

Here, the coordinate setting of the machine tool sets the coordinate values of the X-axis and the Y-axis by touching the cross sections of the X-axis and the Y-axis using the tool on which the workpiece is processed, and the Z-axis ( Vertical coordinate).

However, the vertical axis measuring tool of a conventional machine tool has an analog gauge, and the gauge is provided vertically on one side of the measuring tool, so that the machining tool of the cutting tool due to the workpiece is worn out, roughing, finishing and other machining processes. Set the zero point to correct the coordinate value of the vertical axis according to the tool change or the change of the machining condition according to the progress of the image, or the worker should bend the waist to check the vertical coordinate value of the tool, It was hard to check the scale easily when it wasn't good.

In addition, there is a risk of a safety accident by bringing the face portion close to the machine tool to confirm the coordinate value.

The present invention relates to a tool height measuring apparatus, and in more detail, a display unit having a predetermined inclination angle is installed at one side of the measuring gauge body so that an operator can set or check a coordinate value without bending the waist. An object of the present invention is to provide a tool height measuring device for enabling a worker with poor vision to easily check a coordinate value without having to bend his / her back to check the coordinate value or to face the machine tool.

In order to achieve the above and other objects of the present invention, according to an embodiment of the present invention, one side is open and the upper surface is an open cylindrical housing, the body is formed to be inclined in the display portion inclined on the front surface to the body A measuring gauge having an installed spindle and a flange formed at one side of the body, the measuring gauge being disposed in the housing so that the spindle is disposed along the longitudinal direction of the housing and the display is exposed to the outside; A coil spring installed to surround the coil spring, and a slider installed at an upper surface opening of the housing to linearly move the spindle while moving along the longitudinal direction of the housing when the bottom surface is supported by the coil spring and a pressure is applied downwardly from the outside. Tool height measuring apparatus comprising a To provide.

Inside the body, a displacement measuring unit for measuring the amount of movement of the spindle and the movement of the spindle received from the displacement measuring unit for converting into an electrical signal and the amount of movement of the spindle by receiving the movement of the spindle as an electrical signal from the controller The display unit is indicated by one side of the body.

It is provided on one side of the housing further comprises a magnetic force selectively applied / blocked by a switch.

According to the present invention having the above-described configuration, the display unit having a predetermined inclination angle is installed on one side of the body of the measuring gauge installed on one side of the housing, so that the operator can check without setting his or her back when bending or setting the coordinate value. In addition, even a worker with poor eyesight does not have to bend waist or face part close to the machine tool to check the coordinate value, thereby preventing a safety accident.

Hereinafter, a tool height measuring apparatus according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 is a perspective view of a tool height measuring apparatus according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view of the tool height measuring device shown in Figure 1, Figure 3 is a longitudinal section of the tool height measuring device shown in Figure 1 It is also.

1 to 3, the tool height measuring apparatus according to the present invention has a cylindrical housing 100 having one side open and an upper surface opened, and a body 216 in which the display portion 214 is inclined in a straight line with a straight line. It has a spindle 202 installed on the body 216 and a flange 210 formed on one side of the body 216 to be movable, the spindle 202 is disposed along the longitudinal direction of the housing 100 A measurement gauge 200 installed inside the housing 100 to expose the display unit 214 to the outside, a coil spring 302 installed to surround the spindle 202 inside the housing 100, and An upper surface opening of the housing 100 to move the spindle 202 linearly while moving along the longitudinal direction of the housing 100 when the bottom surface is supported by the coil spring 302 and a pressure is applied from the outside downward. Slave installed on Ether 300 and the magnetic force unit 400 is installed on one side of the housing 100.

The housing 100 has a cylindrical shape in which one side is open and an upper surface is opened. A slider 300 is inserted into the upper opening of the housing 100 so as to be movable along the longitudinal direction of the housing 100, and at one side of the housing 100. An opening for installing the gauge 200 is formed.

In addition, a fixing pillar 102 is formed on the bottom surface of the housing 100. The fixing column 102 is fastened to the flange 210 provided on one side of the measuring gauge 200 to be described later using the fixing bolt 308 to prevent the measuring gauge 200 from being separated from the housing 100. Can be.

A locking jaw 104 is formed along an inner circumferential surface of the housing 100 at a predetermined position inside the housing 100. The locking jaw 104 prevents the slider 300 from descending any more when the spindle 202, which will be described later, reaches the lowest position.

Here, when the slider 300 reaches the lowest falling position of the spindle 202 and the slider 300 is no longer lowered, the upper ends of the slider 300 and the housing 100 are positioned next to each other. do.

The measurement gauge 200 is provided in an opening formed at one side of the housing 100, and a reset button 206 for setting a zero point is provided at a predetermined position. One side of the measuring gauge 200 is formed with a flange 210 for fastening to the fixing column 102 formed on the bottom surface of the housing 100 to fix the measuring gauge 200 to the housing 100. .

In addition, the measurement gauge 200 includes a display unit 214 to enable the operator to check the measurement value. The display unit 214 preferably has a predetermined inclination angle.

One end of the spindle 202 is provided on the upper surface of the measurement gauge 200, and the other end is installed to contact the bottom surface of the slider 300 described later.

The slider 300 has a fixing groove 316 for fixing the coil spring 302 to the bottom thereof, and the upper end of the above-described spindle 202 abuts on the bottom of the slider 300. The coil spring 302 restores the slider 300 to an initial position when no external pressure is applied to the slider 300.

Therefore, when pressure is applied downward from the outside to the upper surface of the slider 300, the slider 300 moves along the longitudinal direction of the housing 100, and the spindle (abutting the bottom surface of the slider 300) 202 is linear movement. At this time, the movement amount of the spindle 202 is measured by the displacement measuring unit 204 provided inside the measurement gauge and transmitted to the control unit 208, the movement amount of the spindle 202 in the control unit 208 as an electrical signal After the conversion, it is transmitted to the display unit 214 to display the movement amount of the spindle 202.

In addition, a spring support groove 318 is formed in the central region of the bottom surface of the slider 300, and a screw groove 320 is formed in the center of the bottom surface of the spring support groove 318.

The slider 300 having such a configuration is installed to protrude beyond the top of the housing 100. Here, the protrusion length of the slider 300 is determined to be a constant value.

And, the slider 300 is installed so that the bottom surface of the spring support groove 318 is supported on the top of the spring 302 and the top of the spindle 202. As such, the slider 300 linearly moves the spindle 202 while moving in the longitudinal direction of the housing 100 when downward pressure is applied from the outside.

The support sleeve 306 is erected between the support plate 304 and the flange 210.

Fixing bolt 308 is preferably a hexagon wrench bolt. The fixing bolt 308 serves to fix the slider 300 to the support plate 304 to prevent the slider 300 from being separated from the housing 100.

In addition, one end of the fixing bolt 308 is coupled to the pair of anti-loosening bolt 314, it is preferable that the pressing ring 310 is coupled to the head of the fixing bolt 308.

The magnetic force unit 400 is installed at one side of the housing 100 and serves to fix the tool height measuring device to the machine tool.

In addition, it is preferable to further include a switch 402 for applying / blocking the magnetic force to the magnetic force unit 400.

The operation of the tool height measuring apparatus of the present invention configured as described above will be described.

When a cutting tool such as a drill and a bite installed in the machine tool is positioned on the upper surface of the slider 300 and the cutting tool is lowered to press the slider 300, the slider 300 is along the longitudinal direction of the housing 100. It will be a linear motion.

At this time, the movement amount of the slider 300 is measured by the displacement measuring unit 204 provided inside the body 216 of the measurement gauge 200, and the controller 208 converts the movement amount of the slider 300 into an electrical signal. The display unit 214 receives and displays the movement amount of the slider 300 as an electrical signal from the control unit 208.

In addition, the magnetic force unit 400 is a switch that can be applied to the magnetic force / block so as to secure the tool height measuring device to the machine tool firmly so as not to move by the external force when measuring the vertical axis coordinate value ( 402 is provided.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention It can be understood that it is possible.

1 is a perspective view of a tool height measuring apparatus according to a preferred embodiment of the present invention.

2 is an exploded perspective view of the tool height measuring device shown in FIG.

3 is a longitudinal cross-sectional view of the tool height measuring apparatus shown in FIG.

<Description of reference numerals for the main parts of the drawings>

100; housing

200; Measuring gauge

202; Spindle

204; Displacement measuring unit

206; Reset part

208; Control

210; flange

214; Display

300; Slider

302; Coil spring

304; Support plate

306; Support sleeve

400; Magnetic force

402; switch

Claims (3)

One side is open and the upper surface has a cylindrical housing with an opening, a spindle formed on the body and a flange formed on one side of the body so as to be linearly movable with the body formed inclined display portion on the front surface, the spindle is the length of the housing A measurement gauge disposed along the direction and installed inside the housing such that the display portion is exposed to the outside; a coil spring installed to surround the spindle inside the housing; and a bottom surface supported by the coil spring and downward from the outside. And a slider installed in the upper opening of the housing to linearly move the spindle while moving in the longitudinal direction of the housing when pressure is applied thereto. The method according to claim 1, Inside the body, a displacement measuring unit for measuring the amount of movement of the spindle, a control unit for converting the amount of movement of the spindle is received from the displacement measuring unit and converted into an electrical signal, and the amount of movement of the spindle by receiving the movement of the spindle as an electrical signal from the control unit Tool height measuring apparatus characterized in that it comprises a display unit to be displayed on one side of the body. The method according to claim 1, Tool height measuring apparatus provided on one side of the housing further comprises a magnetic force selectively applied / blocked by a switch.

Images