KR101061294B1 - Snow-depth gauge which is able to measure snow weight - Google Patents

Abstract

PURPOSE: A snow-depth gauge for measuring the weight of snow is provided to increase the reliability of the snow-depth gauge by immediately verifying the malfunction of a catch funnel heater based on the temperature of the catch funnel heater. CONSTITUTION: A catch funnel(20) collects snow. A heater(21) is attached to the catch funnel. A catch funnel temperature sensor(22) monitors the operational state of the heater. A flux buffer(11) is located at the lower side of the catch funnel and reduces the flux of snow water drained from the catch funnel. A moisture sensor(30) is installed in the catch funnel. A moisture sensor heater(31) evaporates the moisture of the moisture sensor. A measuring cup(12) is overturned by the snow water from the flux buffer. Permanent magnet(13) moves according to the overturn of the measuring cup. A lead switch(14) generates a pulse signal by the permanent magnet.

Description

Red design that can measure eye weight {SNOW-DEPTH GAUGE WHICH IS ABLE TO MEASURE SNOW WEIGHT}

The present invention relates to a red design and a snowfall meter, and more particularly, to a red design and rainfall snowfall that can be accurately measured by reflecting changes in temperature.

The present invention relates to a rainfall snow meter for measuring the amount of rain or snow and a red design for measuring the height (snow) of snow.

Conventional rainfall snow gauge collects snow in the sump (water tank), collected snow is melted by the sump heater, melted snow (snowy water) is the flow rate is reduced at the flow rate buffer, the flow rate is reduced snow metering cup Drains to the drain. When the measuring cup is inverted, the permanent magnet in the center of the measuring cup vibrates from side to side, and the reed switch below the permanent magnet generates pulses and measures the amount of snow by the number of pulses generated.

Such a conventional rainfall snow meter, the heater for melting the snow collected in the catch is simply ON / OFF operation, which does not properly control the amount of heater according to the outside temperature has a problem that the snow of the catch does not melt effectively. . For example, snow melts well at 0-20 C, but snow melts well at -20-20 C. In addition, when there is a small amount of snow in the catchment, there is a problem in controlling such as a small amount of snow is not detected or the heater continues to operate even though there is no snow in the catchment.

Patent Publication No. 10-0947450 discloses a rainfall snow gauge for operating the heater unit by a weight sensor and a temperature sensor to detect whether snow is accumulated in the water tank (corresponding to the collection device in the present invention).

Since a separate weight sensing unit is installed, the size of the rainfall snow gauge increases, and a malfunction may occur due to a mechanical device that detects the weight, which causes a problem in maintenance, and does not solve the problems of the conventional rainfall snow gauge mentioned above. I couldn't.

In addition, Patent Publication No. 10-875824 includes a heat generating means for artificially heating or cooling the temperature sensor, so that it is possible to determine whether the heater is operating properly according to the variable temperature signal detected by the temperature sensor. However, this also did not solve the problem of the conventional rainfall snow gauge.

In addition, the conventional ultrasonic design that works in conjunction with the rainfall snow gauge measures the propagation speed reflected by the ultrasonic waves on the ground or the surface of the eye, and then uses the ultrasonic speed to accumulate snow and snow height (snow value). Although the ultrasonic velocity is a function of temperature, it was difficult to accurately measure the snow value (eye height) because it did not reflect the amount of temperature that changes slightly every measurement.

Accordingly, the present invention is to solve the problem of the ultrasonic design to operate in conjunction with the rainfall snow gauge and rainfall snow meter.

The rainfall snow meter of the present invention was to detect whether the snow collector heater is operating normally by the snow collector temperature sensor.

In addition, the rainfall snow meter of the present invention is to install a moisture sensor in the flow rate buffer to effectively control the collector heater.

In addition, the present invention is to be able to attach and detach the moisture sensor in the flow rate buffer inside the rainfall snow gauge and heated by the moisture monitoring sensor heater to operate stably even in cold weather.

In addition, the present invention by measuring the temperature outside the case of the rainfall snow gauge, and adjusted the heating amount of the heater heater, thereby enabling to effectively melt the snow in the collector.

In addition, the present invention by measuring the temperature inside the rainfall snow gauge case, the heating amount of the moisture detection sensor heater was adjusted, thereby enabling to effectively evaporate the moisture of the moisture detection sensor.

In addition, the ultrasonic design operating in conjunction with the rainfall snow meter of the present invention is to install the two ultrasonic sensors at a certain distance to measure the ultrasonic propagation time for a certain distance, to calculate the ultrasonic speed.

The ultrasonic velocity calculated as described above is an ultrasonic velocity reflecting a temperature value that changes instantaneously, thus making it possible to more accurately measure the snow value.

That is, in the conventional ultrasonic design, the ultrasonic velocity (V = 331 + 0.6 T) was obtained from the temperature value measured by the temperature sensor, but it was difficult to calculate the accurate ultrasonic velocity value due to the slow reaction speed of the temperature sensor.

However, the present invention was able to obtain a more accurate value by allowing the ultrasonic speed to be measured by placing two ultrasonic sensors at a constant distance. That is, it is possible to accurately measure the ultrasonic velocity value reflecting the instantaneous temperature change.

In addition, by using the value measured by the rainfall snow gauge and the ultrasonic design of the present invention it was possible to effectively broadcast disaster prevention.

The rainfall snow meter of the present invention is a snow collecting device 20 for collecting snow, a snow collecting heater 21 attached to the snow collecting device, and a snow collecting temperature sensor 22 for monitoring the operating state of the snow collecting heater, snow collecting device. 20 is a flow rate buffer port 11 for reducing the flow rate of the snow water drained from the collecting mouth 20, the water detection sensor 30 and the water installed in the flow rate buffer 11 inside the rainfall snow gauge Water detection sensor heater 31 for evaporating the water of the detection sensor, located in the lower portion of the flow rate buffer port 11, the measuring cup (12), which is conducted by the snow water discharged from the flow rate buffer port, drainage water from the measuring cup (12) Drain 15 in the lower portion of the measuring cup 12, the permanent magnet 13 reciprocating in accordance with the conduction of the measuring cup hanging on the central axis of the measuring cup 12, and a reed switch for generating a pulse signal by the permanent magnet ( 14).

The collection point temperature sensor 22 measures the temperature of the collection port so that it is possible to detect whether the collection heater is operating normally.

In addition, the water flow buffer 11 is provided with a moisture sensor 30 to stop the operation of the collector heater when water is not detected to prevent unnecessary operation of the collector heater.

In addition, when the external temperature is less than the reference value (4 ° C) to operate the collector heater 21 intermittently, the molten snow (snow water) of the collector to be detected by the moisture sensor 30.

When the moisture sensor 30 detects moisture, it recognizes that the snow is collected in the collecting mouth, thereby enabling the accurate measurement of even a small amount of snow, and enabling the collecting heater to immediately operate. This increased the reliability of the rainfall snow gauge.

In addition, the rainfall snow meter of the present invention is proportional to the difference between the heater amount of the snow collecting heater 21 and the reference temperature (eg, 4 ° C.) of the external temperature of the rainfall snow meter case and the reference temperature at which the snow collecting heater 21 starts to operate. It can be controlled so that the snow in the house can be effectively melted.

In addition, the heater amount of the moisture detection sensor heater 31 is adjusted in proportion to the difference between the internal temperature 23 of the rainfall snow meter case and the reference temperature at which the moisture detection sensor heater 31 starts operation, The moisture of the monitoring sensor 30 can be effectively evaporated.

In addition, the ultrasonic design operating in conjunction with the rainfall snow meter of the present invention, the two ultrasonic sensors 54, 55 so that each of the ultrasonic sensors 54 to have a snow sensor guide 53 that can accurately maintain a constant distance , 55) and the distance between the surface of the eye (L1, L2) were made constant (L3 = L2-L1). For this reason, after measuring the propagation speeds T1 and T2 of the ultrasonic waves from the respective ultrasonic sensors 54 and 55, the ultrasonic speed, snow cover value, and temperature at the time of measurement were measured.

In this way, the snow sensor guide 53 and the two ultrasonic sensors can measure the ultrasonic speed reflecting the atmospheric temperature value that changes at the instant of the snow value measurement, thereby measuring the amount of snow, thereby improving the accuracy of the measured snow value. Increased.

In addition, it is possible to calculate the density of the eye using the amount of snow (weight) measured by the snowfall snow gauge of the present invention and the amount of snow (eye height) measured by the red design of the present invention.

In addition, by devising a disaster prevention system that can automatically perform SMS, text broadcasting, village broadcasting, announcement broadcasting or alarm broadcasting by comparing the weight, density, and snow quantity of snow measured in the present invention with a preset reference value, the disaster prevention system is reliable To provide information.

The present invention is to measure the temperature of the collection door by the temperature sensor (22) to immediately grasp the malfunction of the heater heater.

In addition, the present invention prevents unnecessary operation of the heater heater by stopping the operation of the heater when the moisture is not detected by the water sensor (30) of the flow rate buffer port 11, a small amount of snow in the collector Even when this was collected, the catchment heater was activated immediately to increase the reliability of the rainfall snow gauge.

In addition, the moisture detection sensor 30 and the moisture detection sensor heater 31 is installed in the flow rate buffer 11 inside the rainfall snow gauge, so that it can operate normally in cold weather.

In addition, by adjusting the amount of heaters of the collector heater 21 to be changed according to the temperature outside the case, it is possible to effectively melt the snow in the collector.

In addition, the amount of heater of the moisture detection sensor heater 31 is adjusted to change according to the internal temperature of the case to effectively evaporate the moisture of the moisture monitoring sensor.

In addition, the ultrasonic red design of the present invention by measuring the ultrasonic speed reflected temperature change by the two ultrasonic sensors installed in the snow sensor guide 53, it is possible to measure the accurate snow value.

In addition, the present invention has devised a disaster prevention system that provides more reliable information using more accurate eye weight, density and snow value.

1 is a perspective view of a rainfall snow meter combined with the proper design of the present invention.
Figure 2 is an illustration of the relationship between the amount of heaters and the outside temperature of the present invention.
Figure 3 is an illustration of the relationship between the moisture monitoring sensor heater amount and the internal temperature of the present invention.

Referring to FIG. 1, the rainfall snow meter 1 of the present invention, when snow or rain, snow or rain is collected in the collecting groove (20). Around the collector 20, a collector heater 21 is installed in close contact to melt snow collected in the collector 20, and a collector temperature sensor 22 is attached to the collector 20 so as to be detachable. .

The collection point temperature sensor 22 may measure the temperature of the collection port 20 to detect whether the collection block heater 21 is operated.

The collector heater 21 provides calories for melting snow collected in the collector. The heater amount provided is a temperature outside the rainfall snow gauge case measured by the external temperature sensor 24 and a reference temperature at which the heater starts to operate. An amount proportional to the difference in (4 ° C) was provided.

This can be seen from the collector heater operating curve shown in FIG. 2, when the external temperature is 4 ° C., the collector heater 21 starts to operate, and at -6 ° C. (a difference between the reference temperature and 10 ° C.) of 200 If the heater amount is provided, the heater amount of 400 is provided when the temperature is -16 ° C (20 ° C difference from the reference temperature).

As such, the amount of heaters is provided in proportion to the difference between the external temperature and the reference temperature.

This is different from the conventional simply heater heater 21 ON / OFF, so that the heater amount is supplied differently according to the measured external temperature, it was possible to effectively and quickly melt the snow collected in the collector.

For example, the snow melts well at 0 ~ -20 ℃ but not easily melt at -20 ~ -40 ℃, by adjusting the amount of heater according to the temperature as described above was able to appropriately control the speed of melting snow.

The snow collected in the collecting outlet 20 is melted by the collecting heater 21 as described above, and the snow water (melted snow) flows to the lower flow rate buffer 11 and the flow rate is reduced.

A moisture sensor 30 is installed inside the flow rate buffer 11 to detect snow water flowing through the flow rate buffer 11, and the moisture of the moisture sensor 30 is evaporated by the moisture monitoring sensor heater 31. To help.

Thus, by installing the moisture sensor 30 in the flow rate buffer port 11, if the moisture is not detected to stop the operation of the heater heater 21 immediately.

In addition, even if moisture is not detected by the moisture detection sensor 30, by operating the intermittent heater 21 intermittently, when the collected snow melts in the ditches 20 and the moisture is detected by the moisture detection sensor 30. , The outlet heater 21 was operated again.

As described above, the moisture detection sensor 30 is detachably attached to the flow rate buffer opening 11 to detect the water in the flow rate buffer opening 11 so that the focusing port heater 21 is properly operated. Even when there is a small amount of snow in the tongue 20, a small amount of snow is melted by the operation of the tongue heater 21 to be detected by the moisture sensor, thereby increasing the accuracy and reliability of the rainfall snow gauge.

In addition, the present invention has to evaporate the water for the proper operation of the moisture sensor 30, the moisture sensor heater 31 is installed in the flow rate buffer (11).

The heater amount of the moisture detection sensor heater 31 is supplied in proportion to the difference between the internal temperature and the reference temperature of the case of the rainfall snow meter as shown in the graph shown in FIG.

Referring to FIG. 3, if the heater amount of 25 is provided at 0 ° C., it can be seen that the heater amount of 40 is provided at −30 ° C. In this way, the heater amount is differently provided according to the temperature difference from the reference temperature. Accordingly, the time to evaporate the moisture of the moisture detection sensor 30 is made constant.

This is not simply to operate the moisture detection sensor heater 31, but to control the amount of heater in consideration of the temperature inside the case measured by the internal temperature sensor 23, thereby controlling the moisture of the moisture detection sensor 30. Evaporation effectively.

In addition, the present invention by allowing the moisture sensor and the water sensor sensor heater to be detachable to the flow rate buffer inside the rainfall snow gauge, it is possible to operate the moisture sensor in a cold.

Snow or rain water of the flow rate buffer port 11 conducts the measuring cup 12 positioned at the lower portion thereof, and is discharged to the drain port 15. When a certain weight is reached, the measuring cup 12 is inverted. In this case, since the permanent magnet 13 suspended from the center axis of the measuring cup moves left and right, a pulse signal is generated and the amount of rainfall or snowfall is measured by the number of these pulse signals. .

In addition, the main feature of the present invention relates to the ultrasonic design which reflects the sensitively changing ambient temperature.

Conventional ultrasonic design has an error in the measured snow value by using an ultrasonic speed that does not reflect a sensitively changing atmospheric temperature even if the ultrasonic speed is changed when the atmospheric temperature is changed.

Thus, in the present invention, as shown in FIG. 1, two ultrasonic sensors 54 and 55 are installed at a fixed interval of 50 cm (L3).

More specifically, the snow sensor guide 53 is installed to maintain the fixed distance (L3 50cm) of the two sensors, the ultrasonic sensor 1 (54) at the bottom of the snow sensor guide, the ultrasonic sensor 2 (55) at the top of the snow sensor guide. ) Was installed.

In order to measure the ultrasonic velocity reflecting the sensitively changing ambient temperature, the propagation time T1 at which the ultrasonic wave emitted from the ultrasonic sensor 1 is reflected on the ground or the surface of the eye (if the eye is turned on) is calculated, and the ultrasonic sensor 2 After calculating the propagation time T2 at which the ultrasonic wave emitted from the light is reflected on the ground or the surface of the eye (if it is snowing), the difference value T3 of T2-T1 is obtained, and T3 is the fixed distance of 50 cm (L3) It is the propagation time over which the ultrasonic wave passes for a distance of 1m, which is twice of.

Therefore, the reciprocal of the T3 value obtained above becomes the speed of the ultrasonic wave, and the temperature at the time of measurement can be known by applying the speed equation V = 331 + 0.6T (331 m / s at 0 ° C) according to the temperature of the ultrasonic wave.

In this way, the appropriate design in which the two ultrasonic sensors are installed can measure the ultrasonic speed 1 / T3 and the atmospheric temperature reflecting the changing atmospheric temperature at the instant.

In addition, since the time T2 when the ultrasonic sensor 2 is reflected from the surface of the eye is the time when the ultrasonic waves progressed twice the distance between the ultrasonic sensor 2 and the surface of the eye, the distance between the ultrasonic sensor 2 and the surface of the eye (L2) = T2 ÷ (2 x T3).

Therefore, by subtracting the L2 value from the preset value L, it is possible to obtain the height D accumulated snow.

Thus, the present invention was able to calculate the amount of snowfall (eye height) by measuring the ultrasonic speed reflecting the sensitively changing temperature.

That is, the propagation times (T1, T2) of the distances L1, L2 from the two ultrasonic sensors 54, 55 to the ground or the surface of the eye are measured, and the ultrasonic velocity 1 / (T2-T2) is obtained, and the ultrasonic waves are obtained. The distance L2 between the sensor 2 and the surface of the eye [T2 ÷ (2 × T3)] is obtained so that the snowfall D value [L (fixed value)-L2] can be obtained.

As described above, the snow level meter 2 of the present invention is provided with two ultrasonic sensors at a predetermined distance interval, thereby improving the accuracy of the snow value by measuring the ultrasonic speed reflecting the atmospheric temperature which changes instantaneously.

The snow control unit 50 of the snow snow meter 2 communicates with the snow snowfall control unit 40 and the digital recorder 60 of the snow snow meter 1, and the snow snow measured by the snow snow meter and the snow snow measured by the snow snow meter. In consideration of the above, it is possible to calculate the density of eyes and the like.

In addition, the present invention may be provided with a digital recorder 60 in communication with the precision rainfall snow meter and the precision snow snow meter to store the data and communicate with the outside, calculate the measured weight, density, snow amount of the disaster prevention system It could be applied to. In addition, the disaster prevention system was able to automatically SMS or text broadcast to the person or person in charge according to the preset amount, and the village broadcast, announcement broadcast, alarm broadcast, etc. to the majority.

The method of measuring the snow amount of the present invention is as follows.

Initially, the temperature for temperature compensation is read, and the positions of the two ultrasonic sensors and the height L from the ground are set and stored.

The values of propagation times T1 and T2 from the ultrasonic sensors 1 and 2 to the ground or the surface of the eye (if the eye is on) are calculated, and then the value of the propagation time difference (T3 = T2-T1) is obtained.

Using T3 obtained above, the distance L2 = T2 / (2xT3) from the ultrasonic sensor 2 to the surface of the eye is obtained, and the snow cover value D = L-L2 is obtained.

In addition, the snow value (eye height) obtained by the ultrasound design can be obtained by using the snow weight measured by the rainfall snow gauge.

In other words, the snow volume can be obtained by multiplying the cross-sectional area of the snowfall of the rainfall snow gauge by the snowfall value obtained from the ultrasound design, and dividing the weight (mass) of the snow measured by the snowfall snow gauge by the volume gives the density of snow. will be.

Specifically, the method of measuring the snow weight in the rainfall snow gauge, when the diameter of the snow catcher is 200mm, if the snow value obtained by the ultrasonic design is 10mm, the volume of snow collected in the snow catcher is 3.14 x 10cm x 10cm x 1cm = It will be 314ml.

In addition, if the conducting measuring cup is inverted when the capacity becomes 3.14 ml (3.14 g because the specific gravity of water is 1), 10 pulses (eye weight) generated in the electric field will be 31.4 g.

In this way, by measuring the volume of snow wrapped in the rainfall snow gauge and the weight of snow melted in the snow snow gauge with the snow value obtained from the red design, the density of the snow can be obtained.

Alternatively, if the rainfall metering cup has a pulse of 3.14 (cm ³ = cc = ml) and outputs 1 pulse, and the catch port is 20 cm in diameter, the cross-section area of the catch port is 314 cm by 10 cm * 10 cm * 3.14. and ^2, when the first pulse occurs, the height of the stand 3.14cm ^3/314 cm ² = 0.01 cm = 0.1 mm.

In other words, if the measuring cup of the rainfall snow gauge is output to 3.14cc 1 pulse, and the diameter of the catch port is 20cm, the height corresponding to the melted snow (snow water) is 0.1mm per pulse.

If 155 pulses occur in the rainfall snow gauge, the height of the snow will be 15.5mm (0.0155m) and the weight of the melted snow will be 1m x 1m x 0.0155m x1000kg / m ³ (density of water) = 15.5kg per 1m ² . Will be.

In this case, if the height of the eye is 15.5cm (0.155m), the volume of the eye is 1m x 1m x 0.155m to 0.155m ³ and the density will be 15.5kg ÷ 0.155m ³ = 100kg / m ³ .

Alternatively, the method of measuring snow weight with a snowfall gauge measures the height of melting snow, and if the height is measured, multiply the cross-sectional area by the height, and the weight of the snow is cubic meters. Therefore, 1m x 1m x height (measured with a snowfall meter) is measured.

If it is applied to the rainfall snow gauge, when the diameter of the cylindrical collecting hole is 200mm, it is 3.14 x 100 x 100 = 31.4cc and 31.4g (because the water specific gravity is 1) when the diameter of 1mm is 1mm. At this time, if the measuring cup makes a rainfall snow meter so that one pulse is output at 3.14cc, the height of the snow can be measured in 0.1mm units. If 155 pulses occur with this snowfall meter (0.1 unit), the height of the snow is 15.5mm, and the weight of snow is 1m x 1m x 15.5mm = 15.5kg.m², and if the snowfall is 15.5Cm, the volume of 1m² Finding and dividing the weight gives the density. (Density = weight / volume)

In this way, 1) the weight of snow is measured by snowfall (the height of snow), 2) the volume of snow is measured by snow (the height of snow), and 3) the density of snow can be obtained.

In addition, the snow cover value by the ultrasonic design (2) and the operation of the collector heater and the moisture sensor sensor heater of the rainfall meter (1) is as follows.

Initially, after the tongue outlet heater 21 and the moisture detection sensor heater 31 are turned off, the amount of snowfall is counted by measuring the pulse generated from the reed switch.

According to the difference between the internal temperature and the reference value (inclination between the internal temperature and the heater amount, see FIG. 3), the moisture detection sensor is heated, and when moisture is detected, according to the difference between the external temperature and the reference value (the temperature and heater amount Tilt FIG. 2) The collecting outlet is heated, and when the collecting outlet temperature is higher than the set value, the collecting heater is turned off, and if the set value is less than the set value, the controller returns to the beginning and checks whether the pulse is counted, and then operates in the above flowchart.

In this way, by the function of sensing the moisture in the water sensor in the flow rate buffer port, by heating the collecting sphere, the reliability and accuracy of the rainfall snow meter increased.

In addition, although the moisture was not detected by the moisture sensor in the above flow chart, when the snow value was measured in the ultrasonic design, it was made to proceed to the heating apparatus as shown in the flow chart.

As such, even when no moisture is detected, the snow collecting device is heated using the snow value measured in the ultrasonic design, thereby further improving the reliability and accuracy of the rainfall snow gauge.

In addition, moisture is not detected by the moisture detection sensor, and the snow value is not measured in the red design, but when the external temperature is 4 ° C. or less, the flow proceeds to the collecting furnace heating operation in the flowchart.

As such, when the outside temperature is 4 ° C. or lower (in an environment where snow may occur), even if moisture is not detected by the moisture sensor and the snow value is not measured, the snow collecting device is heated to further increase the reliability and accuracy of the rainfall snow gauge. Improved.

Although the present invention has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit of the present invention. It is natural that such variations and modifications fall within the scope of the appended claims.

11: flow buffer 12: measuring cup
13: permanent magnet 14: reed switch
15: drain hole 20: house opening
21: house heater 22: house temperature sensor
23: Internal temperature sensor 24: External temperature sensor
25: insulation cover 30: moisture detection sensor
31: moisture sensor heater 40: rainfall snow control
50: snow control unit 51: temperature sensor for snow compensation
52: Mounting Table 53: Snow Sensor Guide
54: Ultrasonic Sensor 1 54: Ultrasonic Sensor 2
60: digital recorder

Claims (5)

Snow catcher 20 for collecting snow;
A catcher temperature sensor 22 for monitoring an operating state of the catcher heater 21 and the catcher heater attached to the catcher;
A flow rate buffer port 11 positioned below the collection port 20 to reduce the flow rate of the snow water drained from the collection port 20;
A moisture detection sensor heater 31 which evaporates water of the water detection sensor 30 and the water detection sensor installed in the flow rate buffer port 11 inside the rainfall snow meter;
A measuring cup 12 inverted by the snow water discharged from the flow rate buffer at the lower portion of the flow rate buffer 11;
A drain hole 15 below the measuring cup 12 through which the snow water in the measuring cup 12 is drained;
A permanent magnet (13) hanging on a central axis of the measuring cup (12) and reciprocating according to the inversion of the measuring cup; And
Rainfall meter capable of measuring the weight of the eye comprising a reed switch 14 for generating a pulse signal by the permanent magnet. The method of claim 1,
The heater amount of the collector heater 21 is adjusted in proportion to the difference between the external temperature sensor of the rainfall snow gauge case measured by the external temperature sensor 24 and the reference temperature at which the collector heater 21 starts to operate. The heater amount of the moisture detection sensor heater 31 is adjusted in proportion to the difference between the internal temperature of the rainfall snow gauge case measured by the internal temperature sensor 23 and the reference temperature at which the moisture detection sensor heater 31 starts to operate. Rainfall snow meter that can measure the weight of the snow comprising a snowfall control unit (40). delete Snow sensor guide 53 for allowing two ultrasonic sensors to be accurately maintained at a constant distance;
Two ultrasonic sensors 54 and 55 installed at the top and bottom of the snow guide 53; and
Snowfall control unit 50,
The difference between the distances L1 and L2 from the respective ultrasonic sensors 54 and 55 from the ground or the surface of the eye is constant L3, and the snow control unit 50 calculates the ultrasonic velocity reflecting the changing temperature value. The amount of snow (eye height) measured by the ultrasonic red design which measures the propagation speed of the ultrasonic wave from each ultrasonic sensor 54 and 55 with the surface of the ground or the eye, and measures the amount of snow by the propagation speed;
10. A system comprising a rainfall snow gauge and an ultrasound design, wherein the snow density is measurable using the amount of snow measured by the rainfall snow meter of claim 1 or 2. Disaster prevention system that can automatically perform SMS, text broadcasting, village broadcasting, announcement broadcasting or alarm broadcasting by comparing the weight, density, and snow amount of the snow with a preset reference value.

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