NO318967B1 - Paint device for painting slope, flow or speed with a joystick as paint grinder - Google Patents

Abstract

A measuring device for measuring flow direction and velocity in a liquid medium such as water is described, the measuring device being arranged inside a waterproof container or capsule (8) which is immersed in the water, the measuring device being provided by a joystick known per se ( 1) or joystick body arranged at a first end region of the housing (8), which joystick (1) comprises potentiometers (2, 3) and is modified so that the usual joystick control lever is replaced with an elongate body (4) mounted in the joystick body (1) and communicates with the potentiometers (2, 3), the elongate body (4) at the end portion opposite the bearing in the joystick body (1) being provided with a weight (6), so that the elongate body (4) during use of the measuring device hangs down from the joystick body (1) and under the influence of gravity can assume a vertical orientation. A measuring device for measuring the position / angle of an object is also described.

Description

The invention relates to measuring devices of various kinds and as an example of such a measuring device, reference is made to a device for measuring flow direction and speed in water. In a second example, reference is made to a position and angle measuring device for an object.

More specifically, the invention therefore relates to a measuring device for measuring flow direction and speed in a liquid medium such as water, the measuring device being arranged inside a waterproof container or enclosure that is immersed in the water, or a measuring device for measuring the position or angle of an object such as, for example, a car or boat, which measuring device is arranged on the object in such a way that when the object changes plan orientation, this will be indicated by the measuring device,

A number of measuring devices of the above-mentioned kind have previously been known, but these are, if they are to have reasonably good quality with regard to measurement results, operational reliability and lifetime, relatively complicated and expensive.

The invention therefore aims to provide a measuring device which is significantly simpler and less expensive than the known devices, and this is achieved with measuring devices of the kind mentioned at the outset, which are characterized by the features indicated in the independent patent claims 1 and 2.

Advantageous embodiments of the invention are indicated in the independent patent claims.

The core of the invention thus consists in using a known joystick which senses the value or size to be measured. Joysticks are common off-the-shelf items and themselves

if there are many designs, they are based on the same basic principles, the use of potentiometers for controlling the voltage applied to a regulation system, depending on the sensed position and/or orientation of an operated operating lever or the like. They are therefore relatively simple, inexpensive and usually very reliable. With minor modifications and incorporation into other equipment, such a common joystick has proven suitable for various measuring purposes.

Such a measurement purpose can, for example, be the measurement of flow direction and speed in water. Such measurements are very relevant in connection with aquaculture facilities, as the current speed i.a. will affect the conditions for optimal feeding, as well as the adjustment of any collection devices for "surplus feed". Furthermore, the direction of the current and the speed and/or strength of the current will have an impact on the mooring of, for example, an offshore buoy or the like.

Another measurement purpose can, for example, be the measurement of the position and angle of an object such as a car or boat, which is relevant and important during, for example, loading and unloading operations to monitor and ensure correct or optimal distribution of the load.

The invention will now be described with reference to the drawing, where; Fig. 1 schematically shows a measuring device for measuring flow direction and speed in, for example, water, and

Fig. 2 schematically shows a measuring device for measuring the angle and position of an object.

In the drawings, reference numeral 1 denotes a joystick. This is schematically shown as a joystick body comprising two potentiometers 2 and 3. The usual operating lever on the joystick has been replaced with an elongated body or similar 4 of suitable length. In the drawing, the elongated body 4 is indicated as a threaded rod. In the end part of the threaded rod 4 which faces away from the joystick body 1 itself, a weight 6 is arranged. This can be an integral part of the rod 4, but can also be fixed by means of nuts 5 and 7 screwed onto the threaded rod 4, one on each side of the weight 6, as the weight 6 is designed with a continuous opening through which the rod 4 can be passed. The weight/size of the weight 6 and the length of the rod body 4 as well as any springy elements in the storage of the rod 4 to the joystick 1, are adapted in such a way that gravity alone will be sufficient to position/set the rod angle in relation to the joystick 4 when the joystick 1 is brought out of its normal orientation, i.e. its horizontal orientation, as indicated in the drawings.

Fig. 1 schematically shows an elevation of a measuring device which is specifically intended for measuring flow direction/velocity in water. The modified joystick 1 is arranged in a first or upper end area, inside a watertight casing or container 8, which for illustration purposes is shown in section. In a second or lower end area or part, the enclosure 8 is equipped on the outside with control fins 9 so that the enclosure 8 with the joystick 1 takes an orientation determined by any current direction and speed when it is

immersed in water, for example connected to a breeding slurry. Due to the force of gravity, the rod 4 with the weight 6, if there are no physical obstacles, will always assume the vertical direction, and voltage applied from the joystick's potentiometers 2 and 3 will be able

give a clear indication or measure of the flow direction and velocity of the surrounding water.

Fig. 2 schematically shows an elevation of a measuring device for measuring the position or angle of an object. As mentioned, the object can be, for example, a boat or a car. The modified joystick 1 is arranged in a mounting unit comprising support legs 10. The mounting unit 9 with the support legs 10 is provided in such a way that the joystick 1 is mounted in a horizontal plane, with the rod body 4 and the weight 6 suspended in the vertical plane from the joystick body 1. Between the support legs 10 are provided sufficient space so that the rod body 4 with the weight 6 can make a maximum swing in all directions, depending on the orientation of the assembly unit 10 or the object in relation to the horizontal plane. In use, the assembly unit is thus arranged on the object, and every deviation of the joystick body 1 from the horizontal plane will be registered by means of the potentiometers 2 and 3 which are affected by the rod body 4 which, due to the force of gravity, at all times seeks to adopt a vertical orientation.

The assembly unit above can of course be replaced by a suitable enclosure, but a completely waterproof enclosure or container is not necessary as is the case with the flow measuring device.

Finally, it can be mentioned that the measuring device according to the invention is practically unaffected by magnetism, in contrast to today's inclinometers, which, in addition to representing a far more expensive solution, are also very susceptible to magnetic influence.

Claims (7)

1. Measuring device for measuring flow direction and speed in a liquid medium such as water, the measuring device being arranged inside a waterproof container or enclosure (8) which is immersed in the water, characterized in that the measuring device is provided by a known joystick (1) or joystick body arranged at a first end area of the housing (8), which joystick (1) comprises potentiometers (2, 3) and is modified so that the usual joystick maneuver lever is replaced with an elongated body (4) stored in the joystick body (1) and is in connection with the potentiometers (2, 3), which elongate body (4) at the end portion opposite the storage in the joystick body (1) is provided with a weight (6), so that the elongate body (4) hangs during use of the measuring device down fira the joystick body (1) and under the influence of gravity can assume a vertical orientation. 2. Measuring device for measuring the position or angle of an object such as a car or boat, which measuring device is arranged on the object in such a way that when the object changes plan orientation, this will be indicated by the measuring device, characterized in that the measuring device is provided by a and known joystick (1) or joystick body arranged at a first or upper end area of an assembly unit, which joystick (1) comprises potentiometers (2,3) and is modified so that the usual joystick maneuver lever is replaced with an elongated body (4) stored in the joystick body (1) and is in connection with the potentiometers (2, 3), which elongate body (4) at the end portion opposite to the storage in the joystick body (1) is provided with a weight (6), so that the elongate body (4) during use the measuring device hangs down from the joystick body (1) and under the influence of gravity can assume a vertical orientation. 3. Measuring device according to claim 1 or 2, characterized in that the elongated body (4) is a threaded rod or a threaded tubular body and the weight (6) is provided with a through hole through which the elongated body (4) can be passed while the weight (6) can attached to the body (4) using nuts (5, 7) screwed onto the rod (4). 4. Measuring device according to claim 1 or 3, characterized in that the housing (8) in a second or lower end area or part on the outside is equipped with control fins (9), so that the housing (8) with the joystick (1) assumes an orientation determined by any current direction and velocity when immersed in a liquid medium. 5. Measuring device according to claim 2 or 3, characterized in that the assembly unit is provided with support legs (10) and the joystick (1) is arranged so that the joystick body is mounted in a horizontal plane, with the elongated body (4) with the weight (6) hanging downwards from the joystick body and if there are no physical obstacles, under the influence of gravity, will seek to adopt a vertical orientation. 6. Measuring device according to claim 5, characterized in that sufficient space is provided between the support legs (10) so that the elongated body (4) and the weight (6) can make maximum swings in all directions. 7. Measuring device according to claim 5, characterized in that the assembly unit is provided as a container or enclosure.