KR102020490B1 - System for measurement of rainfall - Google Patents

Abstract

The present invention relates to a rainfall measurement apparatus and, more specifically, to a rainfall measurement apparatus capable of outputting more accurate rainfall information by accurately distinguishing a foggy situation and a rainfall situation and extracting only a rainfall phenomenon. The rainfall measurement apparatus includes: a sensor part having a cone shape, and including a circuit pattern placed on the surface to identify the occurrence of rainfall as a change of a resistance value if water is deposited in the circuit pattern; a control part converting the resistance value, which is changed when water drops are formed on the sensor part, into a digital signal by converting the value into a voltage, and then, comparing the converted signal to set value of a sensitivity setting part to determine whether there is fog or rainfall; and a wireless transmission part displaying information about the occurrence of fog or rainfall, which is determined by the control part, by inputting the information into a computer.

Description

Precipitation Presence Measurement System {SYSTEM FOR MEASUREMENT OF RAINFALL}

The present invention relates to a precipitation presence measurement device, and more particularly, to a precipitation presence measurement device, characterized in that configured to output a more accurate precipitation information by accurately distinguishing the precipitation and precipitation conditions and only precipitation phenomenon.

In general, precipitation meters are the most common means of monitoring rainfall for weather forecasts, weather statistics, water statistics, flood forecasts and alerts, and reservoir operations.

The precipitation meter measures the depth by receiving rainwater in a container of a constant diameter, and measures the weight or volume to convert the depth to the catchment area and display it in mm.

The above-mentioned precipitation meters are classified into various types, and a tipping bucket type is most frequently used domestically and globally.

Patent No. 10-0947450 describes the precipitation meter well, as shown in Figs. 1 to 3 combining the base 2 and the cylindrical cover 4 outside the base, and the inside of the cover A bucket 10 for collecting snow and rain up and down, the funnel 6 and the bucket 10 for operating the left and right seesaws by rotating left and right through the left and right measuring units alternately containing the snow and rain falling from the funnel, The left and right drain bottles 8 and 8 'for discharging snow, rain, etc. contained in the left and right metering portions to the bottom by the left and right rotation of the bucket, and the magnet body 16 and the reed switch 17 for the number of times the bucket is left and right seesaw operated. It is composed of a sensor unit (15) for detecting by rainfall and measuring the rainfall.

The water tank 5 has a heater unit (not shown).

And the left and right seesaw operation of the bucket 10 is supported to be rotationally limited by the left and right fixtures.

When rain, snow, or the like flows into the water tank 5, the rainfall meter falls to the lower funnel 6 in a state dissolved by the heater, and then drops and supplies the left and right portions of the bucket 10 again.

At this time, the left and right quantitative portion of the bucket 10 is to be drained to the drain container (8) (8 ') while rotating left and right when a certain amount of rain, snow, and the like falls.

In this process, the magnet body installed on the rotating shaft of the bucket 10 rotates left and right to detect the number of times by the reed switch 17 to measure the rainfall collected by the bucket metering unit.

On the other hand, when grasping precipitation and outputting information, the fog situation and precipitation situation are similar, so that it is difficult to identify accurate precipitation phenomenon.

In other words, when a heavy fog occurs, the sensor reads like a precipitation phenomenon, so it may be sensed as raining even when it is not raining.

Rain Gauge (RAIN GAUGE) (Patent Registration No. 10-0947450) Double conduction type rainfall measuring instrument (Patent Registration No. 10-1180312) Rainfall observation system and rainfall measuring instrument check method (Patent Registration No. 10-0973789) PRECIPITATION GAUGE CROSSING THE WEIGHTING ANDDRAINING (Patent Registration No. 10-0872502)

The present invention is to solve the above problems, the purpose of the system to output the information by extracting the precipitation situation by accurately determining the fog situation and precipitation situation.

In addition, the purpose is to output the information to accurately check whether the precipitation situation at various precipitation angles accurately.

As a means for achieving the above object,

The present invention is made of a conical shape, the circuit pattern is mounted on the surface of the sensor unit for determining the occurrence of precipitation as a change in the resistance value when the moisture is bonded between the circuit pattern; A control unit for converting a resistance value changed when water droplets form in the sensor unit into a voltage to convert the resistance value into a digital signal, and comparing the converted signal with a setting value of the sensitivity setting unit to determine whether fog or precipitation is present; A wireless transmission unit which receives the fog generation or the precipitation generation determined by the controller and inputs it to a computer for display; Located at the bottom of the sensor unit is characterized in that it comprises a heater for evaporating the moisture generated in the sensor unit by applying heat to the sensor unit.

In addition, the sensor unit includes three circuit pattern regions, each of which comprises a first quadrant circuit pattern, a second quadrant circuit pattern, and a third quadrant circuit pattern, wherein each of the circuit patterns has different resistance values. The first quadrant circuit pattern consists of a region where the separation distance of the circuit pattern is narrower than the reference, the second quadrant circuit pattern consists of a normal region where the separation distance of the circuit pattern is the reference, and the third quadrant circuit pattern consists of the circuit pattern. The separation distance is characterized by consisting of a wider area than the standard.

In addition, the control unit, when the water reaction occurs in the narrow circuit distance is identified as a light haze situation, and when the water reaction occurs in the circuit pattern with a large separation distance, it is determined that a heavy fog is appearing. When the fog and dark fog is detected, when the fog warning is output to the outside, the low alarm sound is output in the light fog and when the fog is detected, the strong alarm sound is output.

In addition, the dust measuring means (1000a) is installed at the outer end of the sensor unit to measure the dust, and outputs an alarm signal when the reference or more; A odor spreading device (1100) electrically connected to the dust measuring means and outputting odor to the outside according to a control signal of the dust measuring means; The odor spreading device 1100 includes a housing 1110; A battery 1120 installed inside the housing 1110 and receiving electricity from the outside to charge electricity and provide electricity to the device; A rotation motor 1130 electrically connected to the battery and receiving power from the battery and converting the same into mechanical rotational motion; A motor shaft 1131 which is installed on the central axis of the rotary motor and rotates in correspondence with the rotation of the rotary motor, the bottom surface of which is in the form of a waveform; A vertical drive cylinder 1140 positioned at a lower end of the rotary motor and flowing while moving up and down by converting rotation of the rotary motor into a reciprocating vertical motion; Located in the upper portion of the vertical drive cylinder 1140, but is located on the central axis, while being in mechanical contact with the motor shaft 1131 of the rotary motor 1130, coupled with the motor shaft 1131 of the rotary motor 1130 And a rotation shaft 1141 which moves up and down while repeating separation. It is installed on the outer periphery of the up and down drive cylinder 1140, one side is fixed to the locking jaw of the inner housing and the other side is fixed to the locking jaw of the up and down drive cylinder to support the up and down drive cylinders to maintain the up and down drive cylinder to move up and down Elevating support springs (1150) to be able to support; Inserted and coupled to the inside of the up and down drive cylinder 1140, the cylinder shape as a whole, and a plurality of drug passing holes (1161) is provided on the bottom, it is made to supply the drug while flowing up and down according to the movement of the up and down drive cylinder Malodor drug applicator 1160; One side is coupled to the odor drug applicator 1160 and the other side is coupled to one end of the housing 1110, and the odor drug applicator 1160 by temporarily fixing the upper and lower drive cylinders and odor drug applicator 1160 at the same time based on the housing ) Is characterized in that it comprises a odor drug applicator temporary fixing means 1180 to prevent the fall down by gravity action.

In addition, the odor drug applicator temporary fixing means 1180, the end is made of a sharp wedge shape is forced through the coupling holes of the up and down driving cylinder and the coupling hole of the drug applicator, so that the odor drug applicator of the vertical drive cylinder A catching hook 1181 for maintaining a state coupled to the inner circumference; A connecting piece 1182 which is integrally connected to the hooking hook 1181 in a diagonal direction and guides the hooking hook 1181 to move in a clockwise or counterclockwise direction by a rotational movement; A rotation support hinge 1183 installed between the connection piece 1182 and the hook hook 1181 to support the connection piece being rotated; It is installed between the connecting piece 1182 and the up and down drive cylinder 1140 and pushes the connecting piece outwards so that the hook hook 1181 flows in a counterclockwise direction to maintain the drug applicator coupled to the up and down drive cylinder. When the connection piece is pressed by the external force and compressed in the vertical drive cylinder direction, the hook 1118 is separated from the vertical drive cylinder 1140 and the drug applicator 1160 while the drug applicator 1160 is vertically driven cylinder. A support spring 1184 for inducing removal from the nozzle 1140; A sliding flow piece (1185) installed at the end of the connecting piece (1182) and simultaneously moving when the hook (1181) and the connecting piece (1182) move up and down in accordance with the vertical flow of the vertical drive cylinder (1140); Slidingly coupled with the sliding flow piece 1185 to support the vertical movement of the sliding flow piece 1185, push the odor drug applicator 1160 toward the vertical drive cylinder 1140 at the time of replacement, the connection piece 1118 By pressing, the connecting piece 1182 rotates about the hinge pin 1183 for rotational support so that the hook 1118 is separated from the upper and lower driving cylinders 1140 and the drug applicator 1160 while the odor drug applicator 1160 is applied. ) Is characterized in that it comprises a push button (1186) to guide the removal from the vertical drive cylinder (1140).

As described above, the present invention has the effect of accurately determining the fog situation and the precipitation situation to extract the precipitation situation to configure the system to output information.

In addition, there is an effect of outputting information so that it is possible to accurately check the precipitation status even at various precipitation angles.

1 is a block diagram of the present invention.
2 is a block diagram of an embodiment of the present invention.
3 is a configuration diagram of the precipitation sensor unit of the present invention.
4 is a conceptual diagram for outputting information from the sensor unit of the present invention.
Figure 5 is a normal precipitation check situation of the present invention.
Figure 6 is an error check situation of the present invention.
7 is a circuit pattern embodiment of the present invention.
8 is a detailed block diagram of a circuit pattern of the present invention.
Figure 9 is a conceptual diagram of the heater installation of the present invention.
10 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.
11 is an exploded perspective view of the odor chemical liquid applying device of the present invention.
12 is a cross-sectional view and main portion cross-sectional view of the odor chemical liquid applying device of the present invention.
13 is an enlarged cross-sectional view of a main portion of the malodorous chemical liquid applying device of the present invention.
Figure 14 is a configuration of the rotary motor and the vertical drive cylinder of the odor chemical liquid applying apparatus of the present invention.
15 is an enlarged view of a main portion of the rotary motor and the vertical drive cylinder of the malodor chemical liquid applying device of the present invention.
Figure 16 is a block diagram of a temporary fixing means of the malodor chemical solution coating apparatus of the present invention.
17 is another angle configuration diagram of the temporary fixing means of the malodor chemical solution coating device of the present invention.
18 is a block diagram of the chemical liquid passage hole of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

In addition, preferred embodiments of the present invention to be carried out below are already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components already used in the prior art among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to appropriately modify the terms so that those skilled in the art to clearly understand the technical features of the present invention to effectively understand, but the present invention It is by no means limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following embodiments are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It's just

1 is a block diagram of the present invention.

2 is a block diagram of an embodiment of the present invention.

3 is a configuration diagram of the precipitation sensor unit of the present invention.

4 is a conceptual diagram for outputting information from the sensor unit of the present invention.

Figure 5 is a normal precipitation check situation of the present invention.

Figure 6 is an error check situation of the present invention.

7 is a circuit pattern embodiment of the present invention.

8 is a detailed block diagram of a circuit pattern of the present invention.

Figure 9 is a conceptual diagram of the heater installation of the present invention.

10 is a block diagram of the dust measuring means and the alarm signal output unit of the present invention.

11 is an exploded perspective view of the odor chemical liquid applying device of the present invention.

12 is a cross-sectional view and main portion cross-sectional view of the odor chemical liquid applying device of the present invention.

13 is an enlarged cross-sectional view of a main portion of the malodorous chemical liquid applying device of the present invention.

Figure 14 is a configuration of the rotary motor and the vertical drive cylinder of the odor chemical liquid applying apparatus of the present invention.

15 is an enlarged view of a main portion of the rotary motor and the vertical drive cylinder of the malodor chemical liquid applying device of the present invention.

Figure 16 is a block diagram of a temporary fixing means of the malodor chemical solution coating apparatus of the present invention.

17 is another angle configuration diagram of the temporary fixing means of the malodor chemical solution coating device of the present invention.

18 is a configuration diagram of the hole for chemical liquid passage of the present invention,

First, as shown in FIG. 9, the precipitation detecting apparatus according to the present invention includes a sensor unit 10, a controller 20, a wireless transmitter 30, and a display unit 40.

The sensor unit 10 is formed in a conical shape, and is formed by dividing a circuit pattern into three virtual regions.

That is, the sensor unit 10 can determine whether moisture in the air is generated by using a change in resistance when moisture is mounted between the patterns.

At this time, in the present invention, the heater 11 is used to determine whether the moisture is due to precipitation or fog.

In other words, because both fog and precipitation are caused by the generation of moisture, it is necessary to identify the continuous generation of moisture. For example, when the fog is heated, moisture is not detected again when the water evaporates when heated by a heater. This water is detected only after a certain period of time without a characteristic, on the other hand, if the situation of precipitation, the moisture is detected immediately when heated by the heater 11 can be identified by distinguishing the situation of the fog and precipitation.

Heater 11 of the present invention is composed of a plurality of layers, the polyamide film heater and the transfer tape is produced in a state of being laminated alternately, accordingly, when heat is applied to the polyamide film heater, the heat generated here is a circuit pattern By reaching (12) and heating the circuit pattern, moisture existing on the circuit pattern is evaporated.

In addition, the present invention can be designed to appropriately adjust the separation distance of the circuit pattern to have a variety of resistance values, and thus it is possible to grasp the dark fog and the light fog when reading the fog.

That is, the separation distance of the circuit pattern 12 is different, and the separation area between the narrow distance of the circuit pattern and the area where the distance between the circuit pattern is normal and the distance between the distance of the circuit pattern is separated and installed. When the water reaction occurs in the area where the distance is narrower than the standard, it is determined that the light fog is appearing, and when the water reaction occurs in the normal area where the separation distance is the standard, it is determined that the fog of the normal concentration is appeared. In addition, when the water reaction occurs in a circuit pattern with a larger separation distance than the standard, it can be understood that a heavy fog is appearing.

In the present invention, three circuit pattern regions are provided, and the first quadrant circuit pattern, the second quadrant circuit pattern, and the third quadrant circuit pattern are configured, and the respective circuit patterns are configured with different resistance values. That is, the first quadrant circuit pattern is composed of a region where the spacing distance of the circuit pattern is narrower than the reference, the second quadrant circuit pattern is composed of a normal region where the spacing distance of the circuit pattern is the reference, and the third quadrant circuit pattern is a circuit pattern It is possible to more clearly grasp the fog situation by configuring the separation distance of is wider than the standard.

In addition, since the present invention heats the circuit pattern with a heater, if the resistance is not checked by checking the circuit pattern every predetermined time, this may be recognized as a fog situation, and if the resistance is continuously detected, the rain may fall.

At this time, if rain is detected only in the first quadrant circuit pattern, the rain is weak, and if rain is detected in the first quadrant and the second quadrant circuit pattern, the rain is medium, and rain is detected in both the first quadrant, the second quadrant, and the third quadrant. If it is determined that the amount of rain is large, it can be displayed.

That is, the first quadrant circuit pattern is easy to detect a weak rain because the interval of the circuit pattern is narrow, and the third quadrant circuit pattern is easy to detect a strong rain because of the wide interval of the circuit pattern.

When the light fog and the heavy fog is identified as described above, when the fog warning is output to the outside, the low alarm is output in the light fog, and when the fog is detected, the strong alarm can be output. In the above situation, the water is evaporated through the heater 11, and when the water is detected again after a certain time, the fog state is detected and a low alarm or a strong alarm is output. If it is detected, it is a situation of precipitation, so it outputs externally that precipitation phenomenon has occurred.

The control unit 20 determines whether there is fog together with the sensor unit 10, and converts a resistance value changed when water droplets form into a voltage to convert the converted signal into a digital signal, and converts the converted signal into a set value of the sensitivity setting unit. The presence or absence of fog is determined by comparing with.

The detailed structure of the controller 20 includes a digital converter for converting the resistance value sensed by the sensor unit 30 into a digital signal to determine the presence or absence of fog and rain based on the read resistance value.

The wireless transmitter 30 receives a fog occurrence determined by the controller 20, and inputs it on the display 40 to display the fog.

On the other hand, the present invention is further provided with a dust measuring means (1000a) on the outer end of the sensor unit 10, and if it is determined that there is dust above the reference as a result of the measurement of the dust measuring means (1000a) the alarm signal through the alarm signal output unit To remove dust from the device.

On the other hand, the present invention is provided with a malodor chemical application device 1100 as an alarm signal output means, if the fine dust is more than the reference to output the malodor from the malodor chemical application device 1100 to induce the operator to evacuate properly .

That is, the dust measuring means (1000a) is electrically connected to the odor chemical liquid applying device for applying the odor to the outside in accordance with the control signal of the dust measuring means is made further, if the fine dust is above the standard to induce the evacuation of the worker In order to output the odor.

The malodor chemical applying device 1100 includes a housing 1110, a battery 1120, a rotating motor 1130, a vertical drive cylinder 1140, a lifting and lowering support spring 1150, and a malodor drug applicator. 1160, a chemical liquid storage means 1170, and an applicator temporary fixing means 1180.

The housing 1110 has a space therein and includes various devices. That is, the housing is configured by bonding two cases each of which is open at one side, and the various devices are installed in the space portion generated in the process of bonding the case. Such a housing is generally similar in structure to means having space therein.

The battery 1120 is installed inside the housing 1110 and serves to provide electricity to the device after charging the electricity by receiving power from the outside. That is, the battery is installed on the upper portion of the housing and is electrically connected to an external power supply device to receive electricity, and temporarily store the supplied power to supply electricity to various devices requiring power.

The rotary motor 1130 is electrically connected to the battery and receives power from the battery to convert it into a mechanical rotational motion to freely rotate the motor shaft. At this time, the motor shaft 1131 has a shape in which the bottom surface is formed in a waveform form in the vertical direction and the curved waveform form continuously rotates. That is, the rotary motor is rotated by receiving power from the battery, the bottom surface of the motor shaft is made of a curved waveform form to rotate.

The up and down drive cylinder 1140 is mechanically connected to the rotary motor, and flows while moving up and down by switching the rotation of the rotary motor to reciprocating vertical movement. At this time, the rotating shaft 1141 of the up and down drive cylinder 1140 has a waveform shape in the vertical direction, and the lifting and lowering operation while repeating the coupling and separation with the waveform of the motor shaft of the rotating motor. That is, the up and down drive cylinder is made in the form of a curved waveform of the rotating shaft in the same way as the motor shaft of the rotary motor so that the lifting and lowering operation is performed according to the rotation of the rotary motor, so that the up and down driving cylinder moves up and down Will be

The elevating support for the spring spring 1150 is installed on the outer periphery of the up and down drive cylinder 1140, one side is fixed to the locking jaw of the housing 1110 and the other side is fixed to the locking jaw of the up and down driving cylinder 1140 The vertical drive cylinder 1140 is elastically supported so that the vertical drive cylinder 1140 maintains the lifting operation. That is, the elevating support spring shot 1150 has a shot action to continuously push up and down the driving cylinder 1140 in the upper direction, so that the rotary motor 130 and the waveform of the motor shaft 1131 of the rotating motor when rotating The up and down drive cylinder is lowered while the waveform of the rotary shaft 1141 of the up and down drive cylinder 1140 is staggered, and the up and down drive cylinder 1140 is raised by the elevating support spring 1150 after the staggering is completed, The waveform of 1141 and the waveform of the motor shaft 1131 of the rotating motor 1130 are in close contact with each other. Therefore, the vertical drive cylinder 1140 is repeated close to and spaced apart from the rotary motor 1130, so that the vertical drive cylinder 1140 is vertically moved around the rotary motor 1130.

The malodor drug applicator 1160 is formed in a body cylinder shape and a plurality of malodorous drug passage holes 1161 are installed at the bottom thereof, and are inserted into and coupled to the upper and lower drive cylinders 1140 to supply malodorous drugs. Play a role. That is, the odor drug applicator 1160 discharges the odor drug stored therein to the outside through the odor drug passage hole 1161, and the odor drug applicator 1160 is installed inside the vertical drive cylinder. Therefore, the odor drug applicator 1160 is blown during the vertical operation of the vertical drive cylinder 1140 to output the drug to the outside according to the law of inertia.

The malodor chemical storage means 1170 is a state in which the malodorous drug is stored therein, is inserted into the malodorous drug applicator 1160 is output through the malodorous drug passing hole 1161 of the malodorous drug applicator 1160. . That is, the malodor chemical storage means 1170 is in a state where the drug is stored, and the lower portion is coupled to the malodor drug applicator 1160 in an open form, and the odor of the malodor chemical storage means when the upper and lower drive cylinders 1140 are driven. The drug is output to the outside. In fact, because the malodorous drug passage hole 1161 is finely formed, it is not easily discharged to the outside when the vertical driving cylinder 1140 is not operated.

The odor drug applicator temporary fixing means 1180 is coupled to one end of the odor drug applicator 1160 and the other side is coupled to one end of the housing 1110, the upper and lower drive cylinder 1140 and the housing 1110 The odor drug applicator 1160 is temporarily fixed at the same time to prevent the odor drug applicator 1160 from falling down due to gravity action while the up-and-down driving cylinder 1140 and the odor drug applicator 1160 flow upwards and downwards. When the odor drug applicator 1160 is replaced, the odor drug applicator is released by pressing a button so that the odor drug applicator is detached from the up-down driving cylinder and removed downward. That is, the odor drug applicator temporary fixing means temporarily fixes the upper and lower drive cylinders and the odor drug applicator to prevent the odor drug applicator from being removed during operation, and after using all the drugs present in the odor drug applicator, the button is pressed. Press to release the malodor drug applicator and reinduce the malodor chemical storage means.

The temporary fixing means 1180 includes a hook 1118, a connection piece 1182, a rotation support hinge 1183, a support spring 1184, a sliding flow piece 1185, and a push button (1). 1186).

The hook hook 1181 is formed in the shape of a sharp wedge end is forced through the coupling hole (1140a) and the coupling hole (1160a) of the drug applicator (1160) up and down driving cylinder (1140) to apply odor drug The machine 1160 maintains the state coupled to the inner circumference of the vertical drive cylinder 1140.

The connecting piece 1182 is integrally connected to the hooking hook 1181 in an oblique direction and guides the hooking hook 1181 to move clockwise or counterclockwise by a rotational movement.

The rotatable support hinge 1183 is installed between the connecting piece 1182 and the locking hook 1181 and serves as a central axis to which the connecting piece is rotated.

The support spring 1184 is installed between the connecting piece 1182 and the vertical driving cylinder 1140 to push the connecting piece outward so that the locking hook 1181 flows counterclockwise so that the drug applicator is coupled to the vertical driving cylinder. When the connecting piece is pressed by the external force and pressed in the direction of the up-down driving cylinder, the hook 1118 is separated from the up-down driving cylinder 1140 and the odor drug applicator 1160 while keeping the function. The applicator 1160 is guided to be removed from the vertical drive cylinder 1140.

The sliding flow piece 1185 is installed at the end of the connecting piece 1182 and moves simultaneously when the hook 1118 and the connecting piece 1182 move up and down in accordance with the vertical flow of the vertical driving cylinder 1140.

The push button 1186 is slidingly coupled with the sliding flow piece 1185 to support the vertical movement of the sliding flow piece 1185, and when the odor drug applicator 1160 is replaced, in the direction of the vertical drive cylinder 1140. By pushing the connecting piece 1182, the connecting piece 1182 rotates about the hinge pin 1183 for rotational support, so that the hook 1118 is moved from the up-and-down cylinder 1140 and the odor drug applicator 1160. While being separated, the odor drug applicator 1160 functions to induce removal from the vertical drive cylinder 1140.

10: sensor unit 11: heater 12: circuit pattern
20: control unit 30: wireless transmission unit 40: display unit

Claims (5)

A sensor unit configured to have a conical shape, wherein a circuit pattern is mounted on a surface thereof to detect occurrence of precipitation as a change in resistance when moisture is adhered between the circuit patterns;
A control unit for converting a resistance value changed when water droplets form in the sensor unit into a voltage to convert the resistance value into a digital signal, and comparing the converted signal with a setting value of the sensitivity setting unit to determine whether fog or precipitation is present;
A wireless transmission unit which receives the fog generation or the precipitation generation determined by the controller and inputs it to a computer for display;
A heater positioned at a lower end of the sensor unit and applying heat to the sensor unit to evaporate moisture generated in the sensor unit;

Dust measuring means (1000a) is installed at the outer end of the sensor unit to measure the dust, and outputs an alarm signal when the reference is higher than the reference;
A odor spreading device (1100) electrically connected to the dust measuring means and outputting odor to the outside according to a control signal of the dust measuring means;
The odor spreading device 1100,
A housing 1110;
A battery 1120 installed inside the housing 1110 and receiving electricity from the outside to charge electricity and provide electricity to the device;
A rotation motor 1130 electrically connected to the battery and receiving power from the battery and converting the same into mechanical rotational motion;
A motor shaft 1131 which is installed on the central axis of the rotary motor and rotates in correspondence with the rotation of the rotary motor, the bottom surface of which is in the form of a waveform;
A vertical drive cylinder 1140 positioned at a lower end of the rotary motor and flowing while moving up and down by converting rotation of the rotary motor into a reciprocating vertical motion;
Located in the upper portion of the vertical drive cylinder 1140, but is located on the central axis, while being in mechanical contact with the motor shaft 1131 of the rotary motor 1130, coupled with the motor shaft 1131 of the rotary motor 1130 And a rotation shaft 1141 which moves up and down while repeating separation.
It is installed on the outer periphery of the up and down drive cylinder 1140, one side is fixed to the locking jaw of the inner housing and the other side is fixed to the locking jaw of the up and down drive cylinder to support the up and down drive cylinders to maintain the up and down drive cylinder to move up and down Elevating support springs (1150) to be able to support;
Inserted and coupled to the inside of the up and down drive cylinder 1140, the cylinder shape as a whole, and a plurality of drug passing holes (1161) is provided on the bottom, it is made to supply the drug while flowing up and down according to the movement of the up and down drive cylinder Malodor drug applicator 1160;
One side is coupled to the odor drug applicator 1160 and the other side is coupled to one end of the housing 1110, and the odor drug applicator 1160 by temporarily fixing the upper and lower drive cylinders and odor drug applicator 1160 at the same time based on the housing Precipitation measuring device, characterized in that comprises a) odor drug applicator temporary fixing means (1180) to prevent the fall down by gravity action. The method of claim 1,
The sensor unit,
Comprising three circuit pattern areas, comprising a first quadrant circuit pattern, a second quadrant circuit pattern and a third quadrant circuit pattern, each circuit pattern is configured with different resistance values, the first quadrant circuit The pattern consists of an area where the spacing distance of the circuit pattern is narrower than the reference, and the second quadrant circuit pattern consists of a normal area where the distance of the circuit pattern is the reference, and the third quadrant circuit pattern has a separation distance of the circuit pattern Precipitation presence measuring device, characterized in that consisting of a large area. The method of claim 2,
The control unit,
When the water reaction occurs in the narrow circuit pattern, it is regarded as a light haze, and when the water reaction occurs in the circuit pattern with a long distance, it is regarded as a light fog. When the fog is detected when the fog is output to the outside, the light alarm outputs a low alarm in the light fog, and if it detects the heavy fog, strong rainfall sound output device characterized in that the output. delete The method of claim 1,
The odor drug applicator temporary fixing means 1180,
The hook is formed in the shape of a sharp wedge and is forcibly fitted through the coupling hole of the up-and-down cylinder and the drug applicator so that the odor drug applicator is kept connected to the inner circumference of the up-down cylinder. Wow;
A connecting piece 1182 which is integrally connected to the hooking hook 1181 in a diagonal direction and guides the hooking hook 1181 to move in a clockwise or counterclockwise direction by a rotational movement;
A rotation support hinge 1183 installed between the connection piece 1182 and the hook hook 1181 to support the connection piece being rotated;
It is installed between the connecting piece 1182 and the up and down drive cylinder 1140 and pushes the connecting piece outwards so that the hook hook 1181 flows in a counterclockwise direction to maintain the drug applicator coupled to the up and down drive cylinder. When the connection piece is pressed by the external force and compressed in the vertical drive cylinder direction, the hook 1118 is separated from the vertical drive cylinder 1140 and the drug applicator 1160 while the drug applicator 1160 is vertically driven cylinder. A support spring 1184 for inducing removal from the nozzle 1140;
A sliding flow piece (1185) installed at the end of the connecting piece (1182) and simultaneously moving when the hook (1181) and the connecting piece (1182) move up and down in accordance with the vertical flow of the vertical drive cylinder (1140);
Slidingly coupled with the sliding flow piece 1185 to support the vertical movement of the sliding flow piece 1185, push the odor drug applicator 1160 toward the vertical drive cylinder 1140 at the time of replacement, the connection piece 1118 By pressing, the connecting piece 1182 rotates about the hinge pin 1183 for rotational support so that the hook 1118 is separated from the upper and lower driving cylinders 1140 and the drug applicator 1160 while the odor drug applicator 1160 is applied. ) Presence measuring device, characterized in that it comprises a push button (1186) to guide the removal from the vertical drive cylinder (1140).

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