RU196095U1 - Linear Dimension Monitor - Google Patents

Abstract

The utility model relates to measuring technique, namely to means of indicator type and is intended for precision measurements of length and linear displacements in real time, for example, it can be used in the construction of holographic length meters with interface display units. The objective of the claimed utility model is to increase the accuracy of measurement. This problem is solved in that the device for controlling linear dimensions contains a base on which a guide rack with a bracket with an installed measuring head is rigidly attached, an electronic unit with access to a personal computer. A lifting nut is installed on the guide post. In addition, the measuring head is made in the form of a movement mechanism from a special light alloy with a movable measuring rod, at the end of which a replaceable tip is installed. The guide rack is installed on the base without touching the table with the base surface. On the base there is a table with a base surface by means of three adjustment elements, moreover, one adjustment element is rigidly connected to the base, and two adjustment elements are configured. The adjusting elements are located at 120 ° horizontally and are made in the form of screws with a conical working part. Using the proposed design of the utility model improves the accuracy of the measurement. 2 s.p. f-ly, 2 ill.

Description

The utility model relates to measuring technique, namely to means of indicator type and is intended for precision measurements of length and linear displacements in real time, for example, can be used in the design of holographic length meters with interface display units.

A device for measuring linear dimensions containing a base, a cylindrical column, a bracket and a rectangular ribbed table is known. The bracket moves along the column with a nut connected to the bracket. The bracket is mounted on the column with a screw. A mechanism for fine-tuning the device to a size that is attached to the bracket with a screw is integrated in the bracket, and the micro-feed is carried out by another screw (see GOST 10197-70).

The closest in technical essence to the claimed utility model is a device for controlling linear dimensions, in which holographic length meters with interface display units are installed. The device consists of a base on which a table with a base surface is rigidly mounted, an electronic unit with access to a personal computer. A guide rack with a bracket with a measuring head mounted on it is rigidly attached to the table; a lifting nut is installed on the guide rack. The measuring head is made in the form of a movement mechanism from a special light alloy with a movable measuring rod, at the end of which a tip is installed. The required mounting height of the bracket on the guide rack with the lifting nut. The surface of the table is the base surface for the installation of the tip, therefore the table is made of wear-resistant material, for example, diabase, glass or ceramic (see Holographic length gauges DG-30, DG-100, DG-200. State registry of the Russian Federation, No. 21869-01, Test procedure MP 2511 / 0002-18).

The disadvantage of this device is the combination of the base surface of the installation of the guide rack and the installation of the tip, which affects the accuracy of the measurement.

The objective of the claimed utility model is to increase the accuracy of measurement.

This problem is solved in that the device for controlling linear dimensions contains a base on which a guide rack with a bracket with an installed measuring head is rigidly attached, an electronic unit with access to a personal computer. A lifting nut is installed on the guide post. In addition, the measuring head is made in the form of a movement mechanism from a special light alloy with a movable measuring rod, at the end of which a replaceable tip is installed. The guide rack is installed on the base without touching the table with the base surface. On the base there is a table with a base surface by means of three adjustment elements, moreover, one adjustment element is rigidly connected to the base, and two adjustment elements are configured.

The adjusting elements are located at 120 ° horizontally. The adjusting elements are made in the form of screws with a conical working part.

The technical result consists in increasing the accuracy of measuring linear dimensions by dividing the base surface of the installation of the guide rack and the installation of the tip. The installation of a table with a base surface in the base by means of three adjusting elements allows to increase the measurement accuracy due to the exact installation of the table before the start of measurement. For accurate measurements to install the tip, the base surface must be made of wear-resistant material, such as diabase, glass or ceramic. When installing a guide rack on the base directly on a table made of wear-resistant material, technological difficulties arise in the accuracy of its installation. In addition, when installing the guide rack on the base, without touching the table with the base surface, the dimensions of the table made of expensive material are reduced, and, therefore, the cost of the device is reduced.

In FIG. 1 shows a device for controlling linear dimensions, FIG. 2 - arrangement of adjusting elements.

A device for monitoring linear dimensions contains a base 1 on which a guide post 2 with a bracket 3 with a mounted measuring head 4, provided with a rod 5 with a replaceable tip 6, is rigidly attached to the electronic unit 7, which has an output to a personal computer. A lifting nut 8 is installed on the guide rack 2. The electronic unit 7 is connected by a cable 9 to the measuring head 4. Based on 1, a table 10 is installed with a base surface made of wear-resistant material. Guide rack 2 is installed on the base 1, without touching the table 10 with the base surface. A table 10 with a base surface is installed in the base 1 by means of three adjustment elements, one adjustment element 11 being rigidly connected to the base 1, and two adjustment elements 12 and 13 are configured.

Adjusting elements can be located at 120 ° horizontally and are made in the form of screws with a conical working part.

The table 10 with a base surface for the tip can be made, for example, of diabase, glass or ceramic.

The device operates as follows.

On the table 10 with the base surface, the measured product is installed. Using the lifting nut 8, the bracket 3 with the measuring head 4 fixed to it is lowered until the replaceable tip 6 touches the surface of the measured product. On the scoreboard of the electronic unit 7 shows the linear size of the measured product. In order to ensure the required measurement accuracy, the surface of the table 10 is preliminarily adjusted with the base surface perpendicular to the axis of the rod 5 of the measuring head 4. The table 10 is fixed by the adjusting element 11, and then using the adjusting elements 12 and 13, the inclination of the table 10 is adjusted according to the standard.

Using the proposed design of the utility model improves the accuracy of the measurement. In addition, the proposed device is more technologically advanced and with a lower manufacturing cost.

Claims (3)

1. A device for controlling linear dimensions, comprising a base on which a guide rack with a bracket with a mounted measuring head is rigidly attached, an electronic unit with access to a personal computer, a lifting nut is installed on the guide rack, in addition, the measuring head is made in the form of a movement mechanism made of light alloy with a movable measuring rod, on the end of which a replaceable tip is installed, on the base there is a table with a base surface made of wear-resistant material Characterized in that the guiding rack is installed on the ground, without touching the base surface of the table, and the table with the base surface set at the base by means of three adjustment members, one adjustment member fixedly connected with the base, and the two adjusting element adapted to the setting. 2. A device for monitoring linear dimensions according to claim 1, characterized in that the adjusting elements are located at 120 ° on a horizontal plane. 3. A device for controlling linear dimensions according to claim 1, characterized in that the adjusting elements are made in the form of screws with a conical working part.

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