PL69564Y1 - Device for measuring distance of a nozzle from the base - Google Patents

Description

Pattern description

The subject of the utility model is an instrument for measuring the distance of the nozzle from the substrate, which is used especially during gas-dynamic spraying.

There is known from the Polish patent application P 337355 a laser rangefinder for large measuring areas with transmitting and receiving channels placed parallel to each other, the receiving lens being a modified single lens, consisting of a primary lens area with a primary optical receiving axis, which is directed parallel to each other. an optical transmit axis as well as from a secondary lens area with a secondary optical receiving axis which is inclined at an angle to the primary optical receiving axis such that a primary focus and a secondary focus are formed.

A spraying apparatus equipped with an ultrasonic distance measuring device is known from the Japanese patent description JPS63116766. This device allows for accurate distance measurement by eliminating disturbances in signal transmission as a result of automatic amplification of the ultrasonic reflected wave. The Ukrainian patent application UA75542 describes a method for determining the optimal distance of sprayed layers. The flame spray solution is to measure the distance between the nozzle and the point that is on the axis of the spray of metal. The position of said point is determined by the maximum intensity of the radiation that is emitted by the metal particles in the narrow wavelength range of the radiation.

A device for laser distance detection during plasma spraying is known from the Chinese application CN201867185. The plasma spray laser distance measuring device is characterized by having a housing, a switch, a display, a sensor socket, a laser sensor, a quick clamp and a fixed ring, a power switch, a display and a sensor socket mounted on the surface of the housing. The solution has the advantage that the device for detecting the plasma spray distance can correctly measure the distance and control the spraying process, thus increasing the control accuracy, improving the quality of the sprayed layer as well as the production efficiency.

It is known from the prior art that the basic parameter in gas-dynamic spraying ensuring durability of the spray coating is the appropriate distance from the end of the spraying nozzle to the object to which the coating is applied. Due to the interchangeability of nozzles with different shape-dimensional relationships, it is irrational to install a contactless distance sensor on the nozzle itself, or to correct the read distance for the sensor mounted above the nozzle. This makes it necessary to regularly measure the length of the nozzles and take into account their appropriate position in relation to the z axis.

The essence of the solution according to the utility model is a device for measuring the distance of the nozzle from the ground, characterized by the fact that it is equipped with an ultrasonic non-contact sensor, which is attached to the tee by means of screws, which provides the distance between the contactless sensor and the flat bar positioning the gas dynamic nozzle, the flat bar enabling positioning the gas-dynamic nozzle with the head in the vertical plane, and at the end of the gas-dynamic nozzle, an overlay is installed, which is tightened with a screw for stabilization.

Preferably, the cap is mounted on a bearing ring, which enables its rotation in the range of 360 ° during measurements.

Preferably, the T-bar is connected to the flat bar by a synthetic adhesive.

Preferably, the head is equipped with an ultrasonic generator with a measuring range of 0-200 mm, with a measuring accuracy of not less than 0.1 mm.

The solution according to the utility model is presented in more detail in the examples of its implementation and in the drawing.

Example 1

The device for measuring the distance of the nozzle from the ground consists of an ultrasonic non-contact sensor 1, which is attached to the T-bar by screws 3. T-bar 2 is the distance between the contactless sensor 1 and the flat bar 4 positioning the gas-dynamic nozzle 5, to which it is attached with an adhesive synthetic. The flat bar 4 enables the positioning of the gas-dynamic nozzle 5 with the head 6 equipped with a sound generator in a vertical plane. At the end of the gas-dynamic nozzle 6, a cap 7 is mounted, which, for stabilization purposes, is pressed with a screw 8, allowing at the same time a quick disassembly of the cap 7.

Example 2 A nozzle distance measuring device as in example 1, where the cap 7 is mounted on a bearing ring 9, which allows it to be rotated through 360 ° during measurements. Measurement of the distance from the end of the nozzle 4 to the spray object is performed by the differential method. The measurement of the distance h is obtained with the overlay 7 mounted in the field of operation of the non-contact sensor 1, while the measurement of the distance H is carried out with the overlay not being in the axis of the sensor operation - the overlay can also be dismantled in this case. The searched distance D from the end of the nozzle 4 to the object 9 is obtained from the relation H-h.

Claims (4)

Protective reservations 1. An instrument for measuring the distance between the nozzle and the substrate, characterized by the fact that it is equipped with an ultrasonic non-contact sensor (1) which is attached to the T-bar (2) with screws (3), which provides a distance between the contactless sensor (1) and the flat bar (4) positioning the gas dynamic nozzle (5), the flat bar (4) enables the positioning of the gas dynamic nozzle (5) with the head (6) in the vertical plane, and at the end of the gas dynamic nozzle (5) a cap (7) is installed, which stabilization is tightened with the screw (8). 2. Device according to claim 3. The method according to claim 1, characterized in that the cap (7) is mounted on a bearing ring (9), which enables its rotation in the range of 360 ° during measurements. 3. The device according to claim A method according to claim 1, characterized in that the tee (2) is connected to the flat bar (4) by means of a synthetic adhesive. 4. Apparatus according to claim The method of claim 1, characterized in that the head (6) is equipped with an ultrasonic generator with a measuring range of 0-200 mm and a measuring accuracy of not less than 0.1 mm.