SE524652C2 - Measuring well for water table level and ground water quality, has electronic unit, battery unit and transmitter located inside well pipe - Google Patents

Abstract

At least part and preferably all of the electronic unit (5) connected to the sensor and transmitter (16), the battery unit (3) and the transmitter itself are located inside the well pipe (9), but above the water table. The well pipe comprises a section (9B) extending below ground and containing a given amount of water and a sensor, as well as a section (9A) extending above ground and provided with a cover (2). The transmitter communicates with a remote measuring station for recording well data.

Description

BRIEF DESCRIPTION OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, or at least minimize it, which is achieved by means of a measuring well according to the invention which is characterized in that at least one of, preferably the majority of , most preferably all of, the electronics unit and the transmitter device as well as the battery unit for their power supply, are arranged inside the tube to the measuring well.

Thanks to the achievement, you gain many benefits. Installation can be made simple, thanks to the existing structure of the measuring well being used for installation. Furthermore, the installation cost is greatly reduced (compared to conventional assembly), since no external devices such as posts, cabinets, ring wells, etc. are needed. Because the equipment is hidden in the well, you also get good mechanical protection and a reduced risk of vandalism. In addition, the important advantage is obtained that self-heating from the groundwater can be used in a way that is very advantageous for the installation. The well's temperature is always above 0 ° C, all year round, which means that equipment placed inside the pipe never has to be exposed to minus degrees, which gives a number of important advantages: - Less requirements for temperature resistance of the electronics.

- Reduced environmental impact. The self-heating makes it possible to eliminate extremely supplied heat energy.

- Reduced operating costs. Through self-heating, battery capacity increases and thus reduces the need for supervision / battery replacement and thus reduced materials, transport, and labor costs.

According to further aspects of the invention, the following applies: - the electronics unit and the transmitter device are arranged inside a housing inside the tube.

Thanks to the housing, a kind of modular unit is obtained for the measuring equipment, which can significantly facilitate assembly and replacement. In addition, the enclosure provides additional protection, e.g. against cold. Said enclosure is provided with fastening means, preferably at least partly in collar shape, which cooperate with the upper end of the tube. This enables further simplified assembly, since the housing can then simply be hung / hooked inside the pipe without the need for intervention or the need for mechanical processing. said tube at the top is provided with an insulation, which is preferably arranged at said enclosure. This gives you the benefit of additional protection against cold. said battery, at least to some extent, is arranged inside the housing. This enables further simplified assembly. said battery is alkaline, and preferably comprises a plurality of standard, commonly occurring, alkaline batteries. Thanks to self-heating, alkaline batteries can be used instead of, for example, lead-acid batteries, which reduces the environmental impact, simplifies procurement and makes it cheaper. said battery comprises an elongate housing extending through a hole in the bottom of the housing, preferably said housing being provided with projecting means cooperating with the bottom of the housing for positioning the battery.

This enables further simplified assembly / replacement / maintenance, as the housing can be easily detached from the housing, which facilitates replacement of individual batteries and / or replacement of the housing unit, without the need to remove the entire housing. said transmitter is connected to an antenna arranged, at least in part, outside the tube, in order to be able to obtain optimal communication conditions. the antenna is arranged at the lid, preferably extending downwards, and that said lid preferably consists of a standard lid present on the market, which has the advantage that the antenna can be pre-mounted at a lid, which during assembly of the equipment is replaced with existing manhole cover, which further simplifies assembly /change. The transmitter 16 is included in a communication unit which uses existing technology for wireless transmission on the market, preferably GSM technology.

BRIEF DESCRIPTION OF THE DRAWINGS In the following, the invention will be described in more detail with reference to the accompanying figures, in which: Fig. 1 shows a detailed view of the upper part of a measuring well according to the invention, and Fig. 2 shows a measuring well seen from the side in its whole.

DETAILED DESCRIPTION Fig. 1 shows a detailed view of a preferred embodiment, of the upper part, of a measuring well according to the invention. The measuring well comprises a well pipe 9 with a pipe part 9B arranged below the ground surface and a pipe part 9A arranged above the ground surface. A measuring well is normally made (see Fig. 2) by drilling a hole in the ground / bedrock with a diameter of about 25 to 125 mm. The depth normally varies between 10 and 150 m, in order to have a certain amount of groundwater in the lower part of the pipe (which is axed in the drilled hole), in which a sensor 14 is arranged. A sensor cable 10, extends upwards from the sensor 14, via a cable bushing 4 through an enclosure 1, to a junction box 11.

From the junction box 11 goes an ibel exible connection cable 12, which leads to an electronics unit 5. In this electronics unit 5 there is the necessary hardware / software for data loggers, sensor adaptation with device for feeding sensors and communication unit 16, (eg in the form of a GSM modem) . According to a preferred embodiment, the electronics unit is arranged with universal inputs for different measuring sensors.

An antenna cable 16A extends from the communication unit 16 for connection to an antenna 8. A lid 2 is arranged on top of the upper end of the tube 9, which is preferably lockable (not shown). The antenna 8 is attached to the cover 2 in such a way that it extends downwards.

The communication unit 16 is pre-programmed to communicate with a remote recording station / server 15. According to a preferred embodiment of the invention, a special server software is used where the information from measuring stations is stored as time series. Furthermore, the server should preferably ensure that information can be processed and presented locally in a network or on the Internet.

For power supply of all electronic units included in the unit 5, a battery 3 is arranged inside the tube 9. The battery 3 consists in the preferred case of an elongate housing 3 inside which a number of standard alkaline batteries have been arranged lying in a row, so that the diameter of the housing hardly exceeds the diameter for a single battery. This allows a large number of batteries to be easily accommodated, as the depth of the hole is seldom limited unlike its diameter. The housing 3 is longer than the housing 1 and therefore projects with its lower part through a hole 18 in the bottom of the housing, to be accommodated below the upper end of the tube 9. The housing 3 is provided with a shaft 3A, which is larger than the hole 18, and which thereby cooperates with the bottom of the housing for positioning the battery housing 3.

The housing 3 is connected to the electronics unit 5 via cables 3D, 3E intended for this purpose, one cable 3D being arranged at the housing 3 itself and the other cable 3E being arranged at the cover 3C of the housing 3.

As can be seen from the figures, the housing 1 is cylindrical and arranged at the top with fastening means 16A in the form of lugs which cooperate with the upper end of the pipe, so that the housing can simply be hung / hooked inside the pipe without further measures. To close the upper end of the housing 1, there is an insulation, in the form of a circular disc.

It is understood that the invention is not limited by the above-described embodiment but can be varied within the scope of the appended claims. It is realized i.a. that the invention also functions without the use of a housing 1, whereby, however, each of the units included in the measuring equipment must be arranged with its own means in order to be able to attach / hang them inside the tube. Furthermore, it is understood that fixation with, for example, a screw is also within the scope of the inventive idea. It is further understood that the shape of the measuring tube can vary without actually affecting the principles of the inventive concept. As can be seen from the description, the enclosure preferably has a shape which corresponds to the internal configuration of the tube, but it will be appreciated that this is not a necessity. Furthermore, it is understood that in certain situations the arrangement of at least one of the units included in the equipment can take place in the lid itself, especially if the measuring well is located in a place where severe cold does not occur and / or the pipe is of smaller diameter. Even when placed inside the lid, however, a significant part of the heat from the well pipe can be utilized. Furthermore, it is realized that you can of course use any kind of batteries. In addition, those skilled in the art will recognize that any communication technology can actually be used to transmit measurement data to a measurement server. However, it is preferred to use some form of standard application, such as GSM, GPRS, 3GR, etc. to simplify and minimize costs. Finally, it is understood that the measuring equipment and peripheral equipment in accordance with the invention can also be used in other applications than for measuring wells, ie. that the module unit consisting of an enclosure with a communication unit, electronics unit and battery unit can advantageously also be applied at / inside another device / location in order to be able to transmit any kind of measurement data wirelessly in a corresponding manner.

Claims (1)

10 15 20 25 30 Pl7l6 7 "PATENT REQUIREMENTS Measuring well, comprising a well pipe (9) with a pipe part (9B) arranged below the ground surface (13) containing a certain amount of water in which a sensor (14) is arranged and a pipe part (9A) arranged above the ground surface, a lid (2) at the upper end of the tube (9), a sensor cable (10) extending upwards, out of the water, from the sensor (14), an electronics unit (5) connected to the sensor cable (10) and a transmitter device arranged in communication with the electronics unit (5) (16), which is intended to communicate with a remote sensing measuring station (15), characterized in that at least any of, preferably the majority of, most preferably all of, said electronics unit (5) and said transmitter device (16) and battery unit (3) for their power supply, is arranged inside said pipe (9), but above the water. Measuring well according to claim 1, characterized in that the electronics unit (5) and the transmitter device (16) are arranged inside a housing (1) inside the tube (9). . Measuring well according to claim 3, characterized in that said enclosure (1) is arranged with fastening means (17), preferably at least partly in collar shape, which cooperates with the upper end of the pipe. Measuring well according to claim 2, characterized in that said pipe (9) is arranged at the top with an insulation (7), which is preferably arranged at said enclosure (1). Measuring well according to claim 2, characterized in that said battery, at least to some extent, is arranged inside the housing (1). Measuring well according to claim 5, characterized in that said battery is alkaline, and preferably comprises a number of standard, commonly occurring, alkaline batteries. 10 15 P1716 10. u n - - .n (n Fx) 4D> C? Measuring well according to claim 6, characterized in that said battery (3) comprises an elongate housing extending through a hole (18) in the bottom of the housing, preferably said housing being arranged with projecting means (3A) cooperating with the bottom of the housing (1) for positioning the battery (3). Measuring well according to claim 1, characterized in that said transmitter (16) is connected to an antenna (8) arranged, at least in part, outside the tube. Measuring well according to claim 8, characterized in that the antenna (8) is arranged at the lid (2), preferably extending downwards, and that said lid (2) preferably consists of a standard lid which is stable on the market. Measuring well according to claim 1, characterized in that said transmitter (16) is part of a communication unit which uses on the market considerable technology for wireless transmission, preferably GSM technology.