RU180013U1 - DEVICE FOR DETERMINING SIZES OF WEDGE FITTING LINING BETWEEN FLAT RECTANGULAR SURFACES - Google Patents

Abstract

The utility model relates to measuring devices for measuring the distance or gap between spaced objects and can be used to determine the size of wedge fit pads between flat rectangular surfaces in various industries where it is necessary to use wedge pads as locking links of the dimensional chain. The device contains inductive displacement transducers mounted in such a way that their measurement axes are parallel. Three inductive displacement transducers are mounted on a frame, at least two edges of which form a right angle between themselves, so that they make up the vertices of a right triangle, the legs of which are parallel to the edges of the frame closest to them, forming a right angle between them. The frame has two shelves designed to mesh with the base part, the shelves are located on the edges of the frame closest to the legs of an imaginary right triangle, the vertices of which are inductive transducers of movement, the frame is also equipped with a handle. Technical result: the ability to significantly simplify the process of measuring the size of the wedge fit lining between the flat rectangular surfaces of the base and the investigated parts and thereby reduce its complexity. 4 ill.

Description

The inventive utility model relates to measuring devices for measuring the distance or gap between spaced objects and can be used to determine the size of the wedge fit pads installed between flat rectangular surfaces in various industries where the use of wedge pads as locking links of the dimensional chain is required.

A device is known for measuring the bias of a test piece using inductive displacement transducers (Scientific-Production Company TEKO. Product Catalog. [Text] 2016. - 191 s, p. 1.0.4), which includes four inductive displacement transducers mounted so that form the vertices of the rectangle, and their measurement axes are parallel.

This design is closest to the claimed technical solution, therefore, adopted as a prototype.

When determining the required dimensions of the wedge fitting lining between the flat rectangular surfaces of the base and the investigated parts, for example, between the supporting surfaces of the foundation and the mechanism that is based on it, the disadvantage of the prototype is the great complexity of the measurements because of the need to measure the distance to the surface of the investigated part at four points .

The essence of the claimed utility model is that in the known device for measuring the bias of the test piece using inductive displacement transducers, including inductive displacement transducers mounted so that their measurement axes are parallel, three inductive displacement transducers are mounted on the frame, at least two the edges of which form a right angle between themselves, so that they form the vertices of a right-angled triangle whose legs are parallel to the edges of the frame closest to them, forming a right angle between themselves, the frame has two shelves designed for engagement with the base part, the shelves are located at the edges of the frame closest to the legs of an imaginary rectangular triangle, the vertices of which are inductive transducers of movement, the frame is also equipped with a handle.

Thus, the claimed technical solution differs from the prototype in that three inductive displacement transducers are mounted on a frame, at least two edges of which form a right angle between themselves, so that they make up the vertices of a right triangle, the legs of which are parallel to the edges of the frame closest to them, forming a right angle between each other, the frame has two shelves designed to engage with the base part, the shelves are located at the edges of the frame closest to the legs of an imaginary right triangle, the top which are inductive displacement transducers, the frame is also equipped with a handle.

A comparative analysis of the claimed utility model with other technical solutions showed that the use of the device frame, at least two edges of which form a right angle between themselves, and equipped with a handle, is widely known in the art. The shelves along the edges of the device frame are also widely used, and inductive displacement transducers are also widely used. However, only the combined use of three inductive displacement transducers mounted on a frame, at least two edges of which form a right angle between them, so that they make the vertices of a right triangle, the legs of which are parallel to the edges of the frame closest to them, forming a right angle between them, the frame has two shelves designed for engagement with the base part, shelves are located on the edges of the frame closest to the legs of an imaginary right triangle whose vertices are inductive movement educators, and the frame is also equipped with a handle, which reduces the complexity of measurements when determining the required dimensions of the wedge fitting lining between the flat rectangular surfaces of the base and test parts.

Inductive displacement transducers have an accuracy of measuring the distance to the object, sufficient to determine the required dimensions of the wedges of the fit-in lining used in industry. Three inductive displacement transducers, the measurement axes of which are parallel, allow you to measure the distance to the surface of the investigated part at three points in one measurement. The distance to the test part, measured at three points not located on one straight line, is the smallest set of data sufficient to determine the position in space of the flat surface of the test part relative to the device. Placing inductive displacement transducers on one frame allows them to be positioned relative to each other at a distance known to the operator. The frame of the device, at least two edges of which form a right angle with each other, having two shelves located on the indicated edges of the frame, and designed to mesh with the base part, allow you to place the device on the flat surface of the base part and accurately position it relative to one of the corners of the base the details. The location of the inductive displacement transducers on the frame so that they form the vertices of a right-angled triangle, the legs of which are parallel to the edges of the frame closest to them, forming a right angle between them, allows us to make a simple calculation of the required dimensions of the wedge-fit lining between the flat rectangular surfaces of the base using the measurement data and the investigated parts, based on the proportionality of the legs of an imaginary right-angled triangle whose vertices are tive displacement transducers, the parties studied the details. The handle allows you to conveniently move the device during operation.

In FIG. 1 shows a general view of a device for determining the size of a wedge fitting lining between flat rectangular surfaces.

In FIG. 2 shows a front view of the inventive device.

In FIG. 3 shows a view of the inventive device on the left with a section AA.

In FIG. 4 shows a top view of the claimed device.

A device for determining the size of a wedge-fitting lining between flat rectangular surfaces includes a frame 1, on which three inductive displacement transducers are mounted 2. The frame is equipped with a handle 3, and can also be equipped with a clamping spring 4. The frame has two shelves 5 designed to engage with base part.

The device operates as follows. If it is necessary to measure the size of the wedge fitting lining between the flat rectangular surfaces of the base and the investigated parts (not shown), for example, between the supporting surfaces of the foundation and the mechanism that is based on it, the operator, holding the device by the handle 3, introduces it into the gap between the surfaces of the base and the investigated part, tightly presses the shelves 5 of the frame 1 of the device to the edges of the base part. It is possible to additionally press the device to the surface of the base part with a hold-down spring 4. After that, it measures the distance to the surface of the test part using three inductive displacement transducers 2 and removes the device from the gap between the surfaces of the base and the test part. Based on the data obtained using inductive transducers, having performed the necessary calculations over them, a wedge fitting lining is made with dimensions corresponding to the gap between the base and the investigated part.

The inventive device is simple to manufacture, can significantly simplify the process of measuring the size of the wedge fit the lining between the flat rectangular surfaces of the base and the investigated parts and thereby reduce its complexity.

Claims (1)

A device for determining the dimensions of a wedge-fitting lining between flat rectangular surfaces, including inductive displacement transducers mounted in such a way that their measurement axes are parallel, characterized in that it includes three inductive displacement transducers that are mounted on the frame, at least two the edges of which form a right angle between themselves, so that they form the vertices of a right-angled triangle whose legs are parallel to the edges of the frame closest to them, forming between a straight angle, the frame has two shelves, designed to engage with the base part, shelves located at the edges of the frame closest to an imaginary cathetus angled triangle whose vertices are inductive displacement transducers, the frame is also provided with a handle.

Images