RU82035U1 - DEVICE FOR MEASURING THICKNESS OF MOVING FILM (OPTIONS) - Google Patents

Abstract

1. A device for measuring the thickness of a moving film, comprising a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor mounted on it, an electronic data processing unit and a power supply unit, characterized in that the frame and the laser sensor are rigidly mounted on it form a measuring unit with a constant distance from the sensor to the sliding surface. ! 2. A device for measuring the thickness of a moving film according to claim 1, characterized in that the power supply is a network. ! 3. A device for measuring the thickness of a moving film, comprising a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor mounted on it, an electronic data processing unit and a power supply unit, characterized in that the frame and the laser sensor are rigidly mounted on it form a measuring unit with a constant distance from the sensor to the sliding surface, while the frame with the sliding surface and the laser sensor mounted on it, the electronic unit and the power supply are combined into one th body. ! 4. The device according to claim 3, characterized in that the power supply is battery.

Description

The utility model relates to measuring technique, namely to devices for measuring the thickness of the web of a moving polymer film in the production process.

Known systems for in-line monitoring of film thickness by two laser sensors of the ZX series from OMRON in combination with a computing device [Release "New Products" of 2004 from OMRON "Laser Sensors from the ZX Series”].

The disadvantage is the presence of two laser sensors, which complicates the system for measuring film thickness and makes it more expensive.

Known combination system company Micro-Epsilon for measuring the thickness of a moving multilayer film [Product catalog company Micro-Epsilon, 2007]. The system includes one laser and one eddy current sensor, which is used due to the unstable distance to the base surface.

The disadvantage is the presence of an additional sensor, which complicates the system for measuring the thickness of a moving film.

The closest analogue of the claimed group of utility models is a device for the thickness of a moving film (measuring system of the company "LAP-Laser" - CALIX), containing a supporting structure made in the form of a frame with a sliding surface, two laser triangulation sensors, rigidly mounted on the frame, an electronic unit and power supply [LAP-laser company brochure from the Metallurgy-Litmash exhibition. Moscow, 2008]. The film thickness is calculated based on the values of the distances from the film to each of the sensors. Measurement data can be displayed and processed using an electronic unit - a programmable controller or a personal computer.

The disadvantage of the device (CALIX system) is the presence of two laser sensors, which complicates the system for measuring the thickness of a moving film and reduces the accuracy of measuring the film thickness.

The problem solved by the embodiment of the utility model according to claim 1 of the formula is to simplify the design of the device for measuring the thickness of a moving film.

The task according to the first embodiment of the device is solved in that the device for measuring the thickness of a moving film contains a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor, an electronic data processing unit, and a power unit are mounted on it. The frame and the laser sensor rigidly fixed on it form a measuring unit with a constant distance from the sensor to the sliding surface.

The above set of essential features makes it possible to measure the thickness of a closely adjacent film by a single laser sensor, which improves the accuracy of measuring the thickness of a moving film

In the particular case of the embodiment of the device according to claim 1 of the formula, to ensure uninterrupted operation of the device during the entire operating cycle, the power supply can be made network.

The problem solved by the embodiment of the utility model according to claim 3 of the formula is to simplify the design, as well as to create a device design that provides an autonomous mode of operation of the device for measuring the thickness of a moving film.

The problem is solved in that the device for measuring the thickness of a moving film contains a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor, an electronic data processing unit and a power supply unit mounted on it. The frame and the laser sensor rigidly mounted on it form a measuring unit with a constant distance from the sensor to the sliding surface, while the frame with the sliding surface and the laser sensor mounted on it, the electronic unit and the power supply are combined in one housing.

The above set of essential features makes it possible to measure the thickness of a closely adjacent film with a single laser sensor, which improves the accuracy of measuring the thickness of a moving film. The placement in the common housing of the measuring unit with a laser triangulation sensor, an electronic unit and a power supply in the form of a battery provides an autonomous mode of operation of the claimed device.

In the particular case of the embodiment of the device according to claim 3 of the formula, to ensure the autonomous mode of operation of the device, the power supply can be made battery-powered.

A group of utility models is illustrated by drawings.

Figure 1 shows a schematic representation of the claimed group of devices

Figure 2 shows a diagram of the principle of operation of the group of the claimed devices.

A device for measuring the thickness of a moving film consists of a frame 1 having a sliding surface 2, a laser triangulation sensor 3, rigidly mounted on the frame 1, an electronic unit 4 that performs calculations and indications, a power supply 5.

The inventive device operates as follows (figure 2).

The film thickness T is calculated as the difference between the distance A from the laser sensor 3 to the sliding surface 2 of the frame 1 and the distance B from the laser sensor 3 to the film surface 6.

In measurement mode, initially without a film, the value of the distance A from the sensor to the sliding surface 2 of the film 6 is measured and stored in the electronic unit 4. When the film 6 is introduced into the measurement zone, the film is tightly glided over the sliding surface 2, and the film thickness 6 is fixed on the indicator electronic unit 4.

The film thickness T is calculated automatically by the electronic unit 4, as the difference between the stored value of the distance A from the sensor 3 to the sliding surface 2 and the distance B from the sensor 3 to the surface of the film 6 introduced into the measurement zone. The measurement error depends on the parameters of the used laser triangulation sensor.

The laser sensor 3 is rigidly mounted on the frame 1, so the distance from the sensor 3 to the sliding surface 2 is a constant value.

The stationary placement of the device for measuring the thickness of the moving film from the edge of the film blown on an extruder with a rotating head or tower allows you to obtain online information about the thickness of the wall of the sleeve of the film and to quickly control the extrusion process. An electronic unit located in close proximity to the measuring unit provides an operational indication of the film thickness. The used power supply is network.

Placing the elements of the device (a frame with a laser sensor, an electronic unit and a power supply) in a convenient, ergonomic case allows you to quickly measure the thickness of the film at any point in the path of movement of the film, technological equipment for the production of film with the required accuracy. An electronic unit located on the housing of the measuring device provides an operational indication of the film thickness. The used power supply is battery.

Thus, the claimed group of utility models while simplifying the design of the device for measuring the thickness of a moving film provides the convenience of the measurement process and increased accuracy of measuring the thickness of the moving film.

Claims (4)

1. A device for measuring the thickness of a moving film, comprising a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor mounted on it, an electronic data processing unit and a power supply unit, characterized in that the frame and the laser sensor are rigidly mounted on it form a measuring unit with a constant distance from the sensor to the sliding surface. 2. A device for measuring the thickness of a moving film according to claim 1, characterized in that the power supply is a network. 3. A device for measuring the thickness of a moving film, comprising a supporting structure made in the form of a frame with a sliding surface, and one laser triangulation sensor mounted on it, an electronic data processing unit and a power supply unit, characterized in that the frame and the laser sensor are rigidly mounted on it form a measuring unit with a constant distance from the sensor to the sliding surface, while the frame with the sliding surface and the laser sensor mounted on it, the electronic unit and the power supply are combined into one th body. 4. The device according to claim 3, characterized in that the power supply is battery.