DE1698101B - Wind direction measuring device - Google Patents

Description

This object is achieved in that the dirt

40 parts in an atmospheric wind current that blows over that source, continuously at collection points

The invention relates to a method and a pre-trapped on opposite sides

direction to carry out this method are arranged to the source and on an accessible

Measurement of air pollution caused by a single blowing wind from a predetermined wind

Source is generated. 45 kel to a reference line lying direction, which the

The monitoring of air pollution will address collection points and the source happened,

Paying increasing attention. Because of and that the difference in the amounts of impurities

are of great importance for combating the air movements measured at the stations within

many solutions are proposed and one of a prescribed time interval can be

Number of possibilities have been realized. 50 den.

When looking for the sources of pollution, the following applies: in a line in front of and behind the in

the attention in particular of the industry, question standing source arranged each a measuring device

especially large factories. In every branch of industry that is only turned on when the wind is blowing

different devices have been created, parallel or within a certain angular

which are also continuously improved, with the help of which 55 area blows to this line, can be seen from the difference

the frequency of the measurement results that occurs with the usual production processes is very precisely that of the

Waste materials prevented from escaping into the atmosphere, monitored source identify the pollution

will. Many such devices that make a difference.

enable a certain degree of control, work right.

satisfactory. 60 at least one pollution measuring device and trains

There are already a number of devices belonging to the control device with a rotatable wind

to measure the extent of air pollution direction sensor with a switching device zui

known. However, there is a fundamental problem when activating the measuring device is associated with it

therein, the level of atmospheric pollution of the sensor within a predetermined sector

which is generated by a pollution source, 65 is aligned with its rotation, is particularly suitable;

to measure accurately. If this problem is solved, then a device in which at least one pair of the Ver

not only can the pollution source itself quickly pollutants and their control systems

Be found, but the success of one on the star is so arranged that the limbs de

Couple on opposite sides of the pollution source are located, and in the case of 4 the oppositely arranged control systems their associated Activate gauges in response to wind blowing from a predetermined angle blowing a reference line and passing the controls and the source.

The control systems associated with the measuring devices ensure that the measuring devices are only switched on if, as a result of a corresponding Wind direction the one measuring device the degree of pollution of the air vcr monitored Pollution source and the other this same pollution level and additionally that of the Source evoked registered. This is always the case when the wind is parallel or within of a certain angular range to the line formed by the pair of measuring devices.

In the following the invention is based on an exemplary embodiment described. It shows

F i g. 1 is a perspective view of a control device used in the system according to the invention,

F i g. FIG. 2 is an enlarged view of part of the FIG F i g. 1 shown device,

F i g. 3 shows a schematic representation of an electrical circuit which is suitable for the in FIG. 1 shown Device is suitable, and

F i g. 4 is a schematic representation of the operation of the device according to the invention.

F i g. 1 shows a control device 10 with a wind vane 12, a carrier in the form of a rod 14, which is fixedly connected to the wind vane 12, and a housing 16. The rod 14 is rotatable with the housing 16 dun * h bearings 13, 15 connected to those in F i g. 2 are shown in more detail. On top of one Plate 17, which is arranged within the housing 16, a disk 18 is attached, further is a switching arm 20, which is in direct connection with a contact ring 21, fixedly on the rod 14, however electrically isolated from it, attached. On the plate 17 a level 19 is arranged, which the setting the plate is used in the horizontal position, so that a better measurement accuracy is achieved. The switch arm moves parallel to the wind vane 12 and always points in the same direction as its tip 22. In certain A plurality of contacts 24 are arranged around the circumference of the disk 18. cables 26, 28 are electrically connected to relays 30, 32 mounted on housing 16. With dd; Relay 30,32 are further lines 34,36 connected, which through an opening 38 in the housing 16 to head pieces 40, 42 which sit on the contamination measuring instruments 44,46. Serves as a carrier for the control unit 10 a platform 48.

During operation, the wind acting on the control device 10 rotates the wind vane 12 in this way. that their tip is 22 in shows the direction from which the wind is coming. Simultaneously with the movement of the wind vane 12 moves the switching arm 20 along the circumference of the disc 18 until the wind vane points in the wind direction: The Switching arm 20 then rests on one of the contacts 24. From one in FIG. 3 is the power source shown then transmit a signal via the switching arm 20 to the contact 24. Is the relevant contact on which the Switching arm rests in a direction on the disc which corresponds to the desired wind direction, so if the electrical signal is passed through the corresponding lines 34, 36 to one of the relays 30, 32, see above that one of the measuring instruments 44, 46 is switched on. If the wind direction changes after that, so represents the wind vane 12 is new and moves the switch arm 20 to another contact 24 via which, if it is not in the correct position, no signal is led to one of the relays so that the measuring instruments turned off.

The electrical circuit of the device according to FIG. 1 will be explained with reference to the circuit diagram of FIG. The switch arm 20 is aligned with one of the contacts 24; the various contacts 24 are electrically connected to a switchboard 50. Some contacts are short-circuited at various points 52, 54. Lines 26, 28 connect the short-circuited contact pieces to relay connections 31, 33 of the relays 30 and 32, respectively. A line 56 connects the Schaltann 20 electrically to the positive pole a current source 58, while a line 60 connects the other pole of the current source 58 to the connections

ao 62,64 of relay 30,32 connects. The negative pole of Power source 58 is connected to the instruments via lines 34, 36 44, 46 and connected to the relay connections 66, 68 via a line 70. The relay connections 72, 74 are connected to the Inas strumtnicn 44, 46 via lines 34, 36. The relay coils 76, 78 the relays 30, 32 are between the terminals 31 and 66 and 33 and 68, respectively. Each relay has a contact arm 80, 82.

In the position shown, the switching arm 20 performs this

electrical signal from the positive pole of the power source 58 via the contact 24 to the short-circuited connections 54 on the switchboard 50 and from this via the line 28 to the terminal 33 of the relay 32. Since the Terminal 68 is always connected to the negative pole of the power source 58, the coil 78 is energized and the contact arm 82 is operated to contact the terminal 74 as shown. In this situation it connects the contact arm connects the terminals 64 and 74 and thus closes the positive pole of the power source to the

dirt measuring instrument 44, so that now both battery connections are on the instrument and this is on.

If the switching arm 20 moves into a different position, for example to the contact 24 ', then

none of the measuring instruments 44, 46 switched on, since none are connected to the positive pole of the current source 58 is. If the switching arm 20 moves in turn into a position in which it has one of the cortices 24 of the short-circuited Touches segment 52, then the measuring instrument 26 is switched on via the relay 32 by the contact arm 80 moves to the contact 72 and thus the positive pole of the power source in FIG Way to the instrument 46.

It is easy to see that a contamination measuring instrument is extraordinary in its measuring effect can be made selective when it cooperates with the control device according to the invention, How ilie F i g. 1 and 2 can illustrate there; Control unit two or more measuring instruments

serve early. This is particularly advantageous then

if air pollution is to be measured that comes from different directions. F i g. ^L illustrates this principle.

Tn F i g. 4 are pollution gauges 84 86 on one side of an industrial pollution · source 88, while measuring instruments 90, 92 are arranged on the other side of this source Each pair of instruments is controlled by a control device

(Γ

device 94, 96 operated. The control devices are designed to have an input resistance in connection with the control that they then turn on the instruments 84 and 90, so the switches can be omitted.
switch when the wind is out of wind direction A. Furthermore, any pollution measuring device can go to waste, as indicated by the arrows and by the angle "A", indicated by broken lines, measuring the air pollution within a predetermined time and by the curtain light is. The difference between the signal that can be turned on or off by the presence or absence of an electrical instrument 90 and the signal generated by the instrument 84,
measured amount of air pollution gives a test of the effectiveness of the invention

Accurate measurement of the air pollution, which comes from the several of the aforementioned pollution measurement sources 88, since the instrument 90 initially picks up the same air pollution as the one switched on for 24 hours in the vicinity of a factory in New York. At the same time instrument 84, in addition, however, from the source 88 in some other of these instruments, the contaminants escaped together with the air. Were operated in the same way as the control device according to the invention, the instruments 92 and 86 together measure the air pollution, which originates from the source 88, in addition to the first-mentioned instruments, FIG. 4 set up manner shown. The use when the wind direction is opposite, as this th control units had a wind vane as shown in FIG. 1 show the arrows for wind direction B , which shows the, which consisted of white pine wood and is approximately assigned to angle "B" . 45 cm long with the tail part about 10 cm

The angle "A" or "j5" for the wind direction, high and the maximum diameter about 3.5 cm within which a control device carried the measuring instruments 20. The rod was about 55 cm. Long and was made of turn-on, Jcann in accordance with many stainless steel. The housing consisted primarily of flow sizes, which must be taken into account, across line of fiberglass, its dimensions being varied over a wide range. If at about: width 12.5 cm, depth 20 cm, height 28 cm. For example, a large factory was provided with 12 brass contacts for soiling, about 28 sources each and covering the measuring instruments fairly close to the circumference of the disc. A voltage source placed on both sides of the pollution source from HOV, which will be one of each measuring instrument, then a small switch-on angle is required- current of about 8 amps. Supplied was within the borrowed. In the opposite situation, the angle housing must be arranged. Can be selected larger within each control unit. were electromechanical relays for 60 Hz, HO bis

The switch-on angle can be mounted on the 30 115 V and 25 Amp. The control devices were to be changed very easily, in such a way that they only switched on the measuring instruments with more or fewer contacts in the device when the wind was blowing from the north-northeast, FIG. 3 are short-circuited in the manner shown. The ranges of deviation are listed in the table below. Each measuring instrument had to be increased by increasing the number of contacts on the circumference of the disc for a range of 24 hours in a timer. Equipped distributed. The non-controlled measuring instruments have 12 contacts evenly on the circumference, so they were constantly in operation during the 24 hours and each contact speaks about a change in the wind - were read once a day. Since the through the direction of 30 °. The distance between the measuring instruments 24 controlled by the device according to the invention is shown in FIGS. 1 and 2 of the clearer drawing are shown exaggerated for the sake of being switched on only in a certain wind direction; if sufficient, the same effective operating line was distributed. Precise control can be achieved with 12 contacts. of 24 hours for about 1 month,
when each contact is so wide that the distance each measuring instrument was with a standard

between the contacts is only very small. Of course, fiberglass filters from 10 to 15 cm and an air flow letting Instead of the contacts, other alignment knives are also equipped. The foot knives were inside Use voltages, for example switches, which are read periodically before the 24-hour measuring time and the € Interrupt establish a contact closure. mean flow rate through the filter was

The invention can be calculated in modified form in many ways. At the end of each measurement period the insane be, for example, the wind vane 12 does not need filters, the amount of dirt stuck to be measured and unc to have the form shown in Fig. 1, but 50 mathematically through the middle, through the filter consist of any material that divides enough by the amount of air flowing, so that the rela is light, so that it is easily twisted by the wind, and tive amount of pollution in micrograms per cubic can have any suitable shape that it has been calculated for the meter of air. The deviation of this one makes it suitable for the intended purpose. For example, measurement under the various measuring instruments may have several sails or flags that are from the rod 55 within a period of several 24 hours protrude outwards and at the circumference of the rod. Measurement intervals give a good indication of the changes are arranged, be provided. the amount of air pollution above the

The design of the disc, the switching arm and the operating range of the measuring instrument,
the contacts can be modified and, for example, the following table compares the changes

wise by commercially available rotary switches with several 60 of this measurement for measuring instruments, which he Positions are replaced. Also, improper devices do not need to have been controlled, and füi Relays of the type described are used for non-controlled instruments. The deviation factor the; every controllable switch, such as transistor switch, is from the highest measured value (microgram prt or other solid-state switches can be used (cubic meters) divided by the lowest measured value working in a corresponding manner. The 65 formed in each meter during dei Switches are expediently chosen so that, if possible, measurement periods were obtained during the measurement angle no contact sparks occur. If you use a <ien range of wind directions, inside reverberation ■ electrical equipment with a sufficiently high level that the measuring instrument has worked.

.-VS "2799 *

table

Measuring angle Deviation factor Measuring instrument not controlled 24-hour measurement 1 not controlled 18.8 2 60 ° 12.0 3 90 ° 1.3 4th 180 ° 1.9 5 210 ° 4.4 6th 7th

The table clearly shows that the smaller measuring angle results in a smaller deviation factor. In this way, the amount of pollution from a single pollution source can be reduced can easily be measured when the control device according to the invention is used, since impurities are formed not be measured in other directions. As long as the pollution source itself is not a strong one Shows deviations, fluctuations are also the

ίο Measurement not expected. A reliable measurement of the actual impurities, which come from a single source, is achieved when one Measured values subtracted which of two into suitable! Arranged instruments are supplied.

1 sheet of drawings

209552/2

2799

Claims (2)

Dirt source installed cleaning device claims: can be easily and accurately monitored. Known devices for measuring the contamination 1. Methods for measuring air pollution levels over-measure this air pollution output generated by a single source spans 5 long periods of time regardless of direction characterized in that the origin of the impurities. So becomes a Dirt parts placed in an atmospheric wind measuring device next to a factory, so a current that blows over that source, continuous display of the veran generated by the factory Collection stations are caught that only receive dirt when the wind is in the opposite sides of the source in the correct direction, i.e. H. directly from the and is facing an oncoming wind from the factory and towards the meter. The one at a predetermined angle to a same gauge continues to work when the wind reference line is up lying direction, which changes the collecting direction, and which are replaced at the end of the measuring period and the source happens to be appealing, and values are held equally to others, not to the that the difference in the amounts owed to the polluting factory is attributable to its sources, It is not possible to determine why, for example a prescribed time interval, the measured amount of contamination from a will catch. Factory, which is several kilometers in the 2. Device for carrying out the process is opposite direction and how much of the uneven Claim 1 by means of at least one factory located next to the measuring device dirt measuring device and associated control stems. A device with a rotatable wind direction device is already known (USA.- sensor. the one with a switching device for Akti- Patent 2 699 679), in which the wind direction four of the measuring device is connected when grasps and is taken into account. To this end, the the sensor is provided with wind vanes within a predetermined sector as the rotatable device, which its rotation is aligned, thereby marked for a corresponding wind direction draws that at least one pair provide the device's fouling orientation. In this way Tongue measuring devices (44; 84/90; 86/92) and although direction-dependent measurements can be carried out their control systems (20; 94/96) are so arranged, lead, however, the entire pollution that the members of the couple are measured at 3 ° from the air, so that no information is given about it sides of the pollution source (88) is possible from which source or sources this find, and that the oppositely arranged impurities originate, also none can be found Control systems (94/96) their associated measuring equipment, monitoring of the measured by a single source carry out air pollution measurements (84/90; 86/92) in response to a wind, activate from a predetermined angle to 35. The invention is therefore based on the object a reference line blows and the control device to create a process that allows a targeted gen (94/96) and the source (88) happened. Monitoring a single source of air pollution perform.