KR101426782B1 - Rainfall detecrion apparatus and Drainage control system using the same - Google Patents

Abstract

The present invention relates to a rainfall detection apparatus in which a bowl is positioned in parallel with a ballast in order to detect the rainfall, such as rain or snow, and at the time of rainfall, the bowl is moved down by rainwater stored therein, while the ballast is moved up, so that a contact member positioned adjacent to the ballast comes into contact with a switch to output a rainfall start signal, and in which when the contact member is detached from the switch, a rainfall stop signal is outputted, and to a drainage control system capable of controlling the rainwater drainage using the rainfall detection apparatus. The rainfall detection apparatus includes a housing having a base at a lower portion at a given interval from the ground, with an upper end being formed with an inlet port and a lower end being formed with an outlet port; and a rainfall detection unit having a bowl provided in the housing and receiving the rainwater flowing from the inlet port, a connecting rod connecting one side of the bowl and having a rotation shaft, a ballast connected to the other side of the connecting rod, a contact member provided adjacent to the ballast and fixed to the connecting rod, and a switch provided above the contact member at a given interval and outputting a rainfall start signal and a rainfall stop signal when the switch comes into contact with the contact member or is detached from the contact member.

Description

[0001] The present invention relates to a rainfall detecrion apparatus and a drainage control system using the rainfall detection apparatus,

[0001] The present invention relates to a rainfall sensing apparatus, and more particularly, to a rainfall sensing apparatus, a rainfall sensing apparatus, and a rainfall sensing apparatus. A rainfall sensing device for raising the weight and for causing a contact member formed adjacent to the weight to contact the switch to signal a rainfall start signal and to signal a rainfall end signal when the contact member and the switch are separated; To a rainfall sensing apparatus for controlling rainwater drainage and a drainage control system using the same.

Generally, the nonpoint sources of pollutants occur in a wide range of discharge areas such as agricultural land, pasture land, forest site, construction site, waste disposal site, road, etc., and are usually deposited in each region. In case of rainy weather, , Various types of water treatment facilities (such as artificial wetlands, vegetation filtration basins, reservoirs, physical filtration facilities such as filtration and permeation tanks) are installed and used to reduce non-point pollution sources.

For example, in recent years, governments and municipalities have constructed water treatment systems by constructing artificial wetlands that are ecologically sound natural cleaners, while eliminating nonpoint pollutants.

However, in water treatment facilities such as artificial wetlands, non-point pollution sources are washed by rainwater, and they are purified from the inflowed water through natural environmental processes such as underground penetration and evaporation, and then drained indiscriminately. Therefore, various environmental effects such as weather conditions and lipids , Which causes flooding due to continuous drainage of water continuously in the rainy season, and the purification function is deteriorated because the water is drained without undergoing a sufficient purification process.

Therefore, in recent years, a drainage control system has been used to automatically control drainage when a certain period of time has elapsed after detecting the start and end of rainfall using a rainfall sensing apparatus. However, the conventional rainfall detection system is likely to cause malfunction due to dew, fog, and the like.

As a conventional technique for solving the above problems, Korean Patent Laid-Open Publication No. 10-2004-0096122 (November 16, 2004) discloses a pyramidal type rainfall sensing apparatus in which two electrode patterns having a predetermined slope are fixed A first rain sensing unit arranged densely in intervals to output a first rain detection signal as the two electrode patterns are short-circuited by rainfall; A second rainfall sensing unit for outputting a second rainfall sensing signal as the two electrode patterns having a predetermined gradient are densely arranged at regular intervals and the two electrode patterns are short-circuited by rainfall; And an output unit for outputting one of the first sensing signal and the second sensing signal as a rainfall signal according to the input of the first rain detection signal and the second rain detection signal.

However, in the pyramidal rainfall sensing apparatus, the rainfall sensing unit forms the first and second rainfall sensing units to improve the sensitivity of the rainfall start. However, the pyramidal rainfall sensing apparatus senses dew, mist, So that it is difficult to improve the sensitivity. In addition, a certain row is provided to the sensing unit in order to minimize the sensing error due to moisture, but electricity is used to generate heat, which causes a high maintenance cost and is not efficient.

As another conventional technique, Korean Patent Laid-Open Publication No. 10-2011-0044642 (Apr. 29, 2011) discloses a rainfall detection apparatus in which a case is coupled to an upper side of a base plate coupled to a support, A circuit board is mounted on a plate, and a sensing unit for detecting rainfall is disposed on the outer surface of the case by arranging a positive sensing line and a sensing line at regular intervals so that the two sensing lines are short-circuited. The sensing unit may include a plurality of sensing units arranged on a surface of a hemispherical case, and a sensing line and a sensing line may be formed on the sensing units. - The sensing line spacing is narrower and the gap is gradually widened toward the lower side. To a rain detection device according to claim it is known that the precipitation is able to be detected.

However, the above-described rain detection apparatus detects rainfall when water droplets are short-circuited with the + sensing line and the sensing line, and malfunction may occur due to dew or fog. In addition, although the heating temperature of the sensing plate is different according to the season, since the electricity is used to adjust the heating temperature, the maintenance cost becomes high and it is not efficient.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a rainbow- And a contact member formed adjacent to the weight is also raised to contact the switch to send a rain start signal.

At the end of rainfall, the rainwater contained in the receiving ball flows out to the outflow groove, so that the weight of the receiving ball is lightened, and the receiving ball rises and the weight rises and the receiving ball and the weight are horizontal, and the contact member is separated from the switch, The present invention provides a rainfall sensing apparatus for detecting rainfall.

In addition, the rainfall sensing apparatus may include a rainfall sensing device for sensing the rainfall start and end signals and automatically controlling the drainage only when a predetermined time has elapsed, so that the rainwater can be drained after the water quality is sufficiently purified from the water treatment facility And a drainage control system using the same.

The rainfall sensing apparatus and the drainage control system using the rainfall sensing apparatus proposed by the present invention include a housing having a pedestal at a lower portion thereof and formed at a predetermined distance from the ground, an inlet formed at an upper end thereof and an outlet formed at a lower end thereof, A receiving ball for receiving rainwater flowing from the inlet, a connecting rod connected to the receiving ball's side surface and having a rotating shaft, a weight connected to the other side of the connecting rod, And a rain detection unit formed at a predetermined distance from the top of the contact member and configured to transmit rainfall start and rainfall end signals when the contact member is contacted with or separated from the contact member, .

The housing has a ceiling member having a height at the upper end of the housing at the upper end and a slope at the lower end at the inlet.

The rainfall sensing unit includes a funnel for guiding rainwater between the inlet of the housing and the receiving ball so that the rainwater flowing into the inlet may be received in the receiving ball.

The receiving ball forms an outflow groove on one side to drain the rainwater contained in rainfall.

When the rainwater is received in the receiving ball, the receiving ball descends and the weight increases. The contact member contacts the switch to signal the rain start signal, When the rainwater stored in the receiving ball flows out at the end, the receiving ball rises and the weight falls, so that the contact member signals the rainfall end signal when it does not contact the switch.

The rainwater sensing apparatus according to claim 1, wherein the rainwater sensing unit comprises: a rainfall sensing unit for sensing a rainfall start and a rainfall end and sending a signal to the rainwater sensing unit; And a control unit for receiving the control signal from the control unit and connected to a drain pipe provided with a drain opening / closing valve so as to discharge purified water from one of the water quality purification units to discharge the water stored in the water purification unit, And a pump.

The control unit is configured to apply a control signal to the drain pump to change the stop mode when a detection signal indicating the start of the next rainfall is input from the rainfall detection device while the drain pump is operating.

According to the rainfall sensing apparatus of the present invention, the rainfall sensing apparatus receives rainwater on the receiving ball and senses the start of rainfall, thereby preventing malfunction due to dew, mist, and the like. In addition, when the rainfall ends, the rainwater flows out to the outflow groove of the receiving ball, and at the same time, the rainfall end is sensed and a rapid rainfall end signal can be sent.

In addition, according to the rainfall sensing apparatus and the drainage control system using the rainfall sensing apparatus, when the drainage pump is operated only when the set time for the rainfall start and the rainfall completion has elapsed using the rainfall sensing apparatus, It is possible to protect the environment by improving the water quality and to control the drain pump to operate at a constant cycle to prevent disasters due to floods in the rainy season .

1 is a sectional view showing an embodiment according to the present invention;
2 is a cross-sectional view illustrating a state of use in an embodiment according to the present invention.
3 is a schematic diagram illustrating an embodiment according to the present invention.
4 is a block diagram showing an embodiment according to the present invention.

The present invention relates to a rainfall sensing apparatus and a drainage control system using the rainfall sensing apparatus and a drainage control system using the rainfall sensing apparatus and a drainage control system using the rainfall sensing apparatus and a drainage control system using the rainfall sensing apparatus. A receiving ball for receiving rainwater flowing from the inlet, a connecting rod connected to the receiving ball's side surface and having a rotating shaft, a weight connected to the other side of the connecting rod, And a rain detection unit formed at a predetermined distance from the top of the contact member and configured to transmit a rain start signal and a rain end signal when the contact member is contacted with or separated from the contact member, .

Further, the housing is characterized in that a ceiling member having a height at the upper end of the upper end and a slope at a lower height is formed at the upper end of the housing.

The rainfall sensing unit may include a funnel for guiding rainwater between the inlet of the housing and the receiving ball so that the rainwater flowing into the inlet may be received in the receiving ball.

In addition, the receiving ball is characterized by forming an outflow groove on one side thereof to drain rainwater contained in rainfall.

When the rainwater is received in the receiving ball, the receiving ball is lowered and the weight is raised so that the contact member is brought into contact with the switch, And when the rainwater stored in the receiving ball flows out at the end of the rainfall, the receiving ball rises and the weight falls, and the contact member signals a rainfall end signal when it does not contact the switch.

The rainwater sensing unit includes a rainfall sensing unit sensing rainfall start and rainfall at the rainfall sensing unit and sending a signal to the rainfall sensing unit, And a drain pipe provided with a drain opening / closing valve to discharge purified water from one side of the water quality purification unit in response to a control signal from the control unit, so as to discharge the water stored in the water purification unit And a drain pump connected to the drain pump.

In addition, the control unit is configured to apply a control signal to the drain pump when the detection signal indicating the start of the next rainfall is inputted from the rainfall sensing apparatus while the drain pump is operating.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A rainfall sensing apparatus and a drainage control system using the same according to an embodiment of the present invention will now be described in detail with reference to the drawings.

1, a rainfall sensing apparatus 100 according to an embodiment of the present invention includes a housing 10 and a rainfall sensing unit 30 as shown in FIG.

The housing 10 has a box-like shape closed at all sides, and a pedestal 20 supporting the housing 10 at a lower portion of the housing 10 so as to be upright on the ground. It is preferable that the pedestal 20 supports the housing 10 so that the lower end of the pedestal 10 can be formed at a distance from the ground.

The housing 10 has an inlet 13 formed at an upper end thereof to allow rainwater to flow into the housing 10 during rainfall and an outlet 15 at a lower end thereof to allow the introduced rainwater to flow out of the housing 10, .

The upper end of the housing 10 constitutes a ceiling member 14 having a slope so that a large amount of rainwater can flow into the housing 10 through the rainwater flowing into the inlet 13. The top end of the ceiling member 14 has a high height at its upper end and a low height at its inlet. The ceiling member 14 is structured such that a large amount of rainwater is introduced by guiding the rainwater to the inlet 13 in case of rainfall.

The rainfall sensing unit 30 is formed inside the housing 10 to receive the rainwater flowing in the inlet 13 and to receive the rainfall start and rainfall end signals. The funnel 31, the receiving ball 32, A rotary shaft 35, a weight 36, a contact member 38, and a switch 40. [

The funnel 31 guides the rainwater so that the rainwater flowing in the inlet 13 of the housing 10 can be received in the receiving ball 32. The upper part of the funnel 31 is wide and the lower part of the funnel 31 has a narrow width so that the rainwater flowing in the inlet 13 can be supplied to the receiving ball 32 by using the funnel 31 It is possible. The upper portion of the funnel 31 is formed to have a diameter larger than that of the inlet 13 to guide all the rainwater flowing from the inlet 13 to the receiving ball 32.

The receiving ball 32 receives rainwater induced in the funnel 31 during the rainfall. The receiving ball 32 may be formed at the lower end of the inlet 13 of the housing 10 to directly receive the rainwater introduced from the inlet 13. The receiving ball 32 forms an outflow groove 32a on one side so that the received rainwater can flow out. When the rainwater leaks into the outflow groove 32a at the end of the rainfall, the weight returns to the original state, and the weight ball 36 rises, .

The connecting rod 34 is connected to one side of the receiving ball 32 and is connected to the weight 36 on the other side. A rotation shaft 35 is provided at the center of the linkage 34 so that the linkage 34 can rotate about the rotation axis 35.

The weight 36 is connected to the other side of the connecting rod 34 and is formed to have the same weight as the weight of the receiving ball 32 in which the rainwater is not received, As shown in FIG. The weight 36 is level with the receiving ball 32, and when rainwater is received in the receiving ball 32, the receiving ball 32 heavily heats up.

The contact member 38 is formed adjacent to the weight 36 and fixed to the connecting rod 34. When the rainwater is received in the receiving ball 32, the receiving ball 32 becomes heavy and rises like the weight 36. [ The contact member 38 ascends and contacts the switch 40. [

The switch 40 is formed at a predetermined distance from the contact member 38 at an upper portion of the contact member 38. When it comes into contact with the contact member 38, it signals a rain start signal, and when it comes into contact with the contact member 38, it signals a rain end signal. It is preferable that the switch 40 is formed using a rivet switch, but it is also possible to use another switch.

2, the receiving ball 32 and the weight 36 are horizontally aligned on both sides of the connecting rod 34. When the rainfall starts, the rainfall sensing apparatus according to the present invention uses the housing 10, The rainwater flows into the inflow port 12 of the building. The introduced rainwater is led to the receiving ball 32 through the upper end of the funnel 31. The receiving ball (32) receives rainwater induced in the funnel (31). The weight of the receiving ball 32 becomes heavy due to the received rainwater so that the receiving ball 32 is lowered and the weight 36 formed on the corresponding side rises. The contact member 38 formed adjacent to the weight 36 also ascends and contacts the switch 40. [ The switch 40 in contact with the contact member 38 signals a rain start signal. When the rain continues, the upper end of the receiving ball 32 receives the rainwater and the lower end flows out the rainwater into the outflow groove 32a so that the positions of the receiving ball 32, the weight 36 and the contact member 38 are fixed And the contact member 38 is in continuous contact with the switch 40.

When the rain of the receiving ball 32 is completed, rainwater is not received at the upper end and rainwater flows out to the lower end outflow groove 32a. When the rainwater contained in the receiving ball 32 flows out, the weight of the receiving ball 32 rises and becomes lighter and conversely the weight 36 descends and the receiving ball 32 and the weight 36 become horizontal. Thus, the contact member 38 is also lowered and disconnected at the switch 40, and the switch 40 signals the rainfall end signal. The rainwater flowing out to the outflow groove 32a flows out to the outside through the outlet 15 formed at the lower end of the housing 10. [

3 and 4, the drainage control system using the rainfall sensing apparatus according to the present invention includes a rainfall sensing apparatus 100, a control unit 110, and a drainage pump 130.

The rainfall sensing apparatus 100 is installed on one side of the water purification unit 120 and detects rainfall in an area where the water purification unit 120 is installed. The rainfall sensing apparatus 100 senses the start of rainfall and the end of rainfall and signals rainfall start and rainfall end signals to the control unit 110.

The control unit 110 is configured to apply a control signal to automatically set whether the drain pump 130 is in operation according to a signal input from the rainfall sensing apparatus 100. It is preferable that the control unit 110 is configured to apply a control signal for controlling the operation of the drain pump 130 after a predetermined time elapses from the rainfall start and rainfall end signals input from the rainfall sensing apparatus 100 .

The control unit 110 is configured to set the elapsed time from the input of the sensing signal until the control signal for operating the drain pump 130 is applied.

The control unit 110 is configured to separately set the elapsed time from the sensing signal corresponding to the start of rainfall and the end of the rainfall to the time of applying the control signal by the operation unit 115 individually. That is, the control unit 110 controls the drainage pump 130 to control the operation of the drainage pump 130 after the detection signal from the rainfall sensing apparatus 100 is input to the control unit 110 And a predetermined elapsed time from the start of the operation to the application of the time.

The control unit 110 applies a control signal to operate the drain pump 130 when the set time from the operation unit 115 for the start of rainfall and the end of the rainfall has elapsed. That is, in the control unit 110, when the detection signal is inputted from the rainfall sensing apparatus 100 after the detection signal is inputted, the detection signal is inputted from the rainfall sensing apparatus 100 according to the time set by the operation means 115 The control unit 110 applies a control signal to operate the drain pump 130 only when the time set by the operation unit 115 has elapsed.

The control unit 110 applies a control signal to the control unit 110 so that the drain pump 130 operates and drains only when the set time for the start of rainfall and the end of the rainfall have elapsed, It is possible to protect the environment by improving the water quality and control the drain pump 130 to operate at a periodic period to prevent disasters due to flooding in the rainy season.

When the detection signal indicating the start of the next rainfall is input from the rainfall sensing apparatus 100 while the drain pump 130 is operating so as not to discharge uncleaned rainwater, the controller 110 controls the drain pump 130 to stop In response to the control signal.

The drain pump 130 receives a control signal from the control unit 110 and receives a rainwater at the time of rainfall so as to purify the rainwater. And the water purification unit 120 is connected to the water purification unit 125 to discharge the water stored in the water purification unit 120.

The water purification unit 120 is for purifying rainwater introduced together with nonpoint pollutants during rainfall, and is located so that initial rainwater can flow in to purify the rainwater. The rainwater purified by the water purification unit 120 is drained to the outside through the drain pipe 125. The drain pipe 125 is provided with a drain opening / closing valve 127 to control drainage according to a control signal applied from the control unit 110. It is preferable to use a solenoid valve or the like so that the drain opening / closing valve 127 can be automatically controlled.

The drain pump 130 is installed in the drain pipe 125 and is disposed at a position adjacent to the water quality purification unit 120 so that the drain water can be drained downward by applying pressure from the lower side. May be connected to the drain pipe 125 at a position adjacent to the ground of the water quality purification unit 120 so that the water can be drained from the lower side by applying pressure from the upper side.

The drain pump 130 is preferably configured to switch the operation state in the same manner as the drain opening / closing valve 127. For example, when a control signal for stopping the operation of the drain pump 130 is applied, the control unit 110 applies a control signal to change the drain opening / closing valve 127 to the closed state, And applies a control signal to change the drain opening / closing valve 127 to the open state when the operating control signal is applied.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: housing 13: inlet 14: ceiling member
15: outlet 20: pedestal 30: rainfall detection unit
31: Funnel 32: Receiving ball 32a: Outlet groove
34: connecting rod 35: rotating shaft 36: weight
38: contact member 40: switch 100: rain sensor
110: control unit 115: operating means 120: water quality purification unit
130: Drain pump 135: Drain opening / closing valve 137: Drain pipe

Claims (7)

A housing having a pedestal at a lower portion thereof formed at a predetermined distance from the ground, an inlet formed at an upper end thereof and an outlet formed at a lower end thereof;
A receiving ball formed in the housing and receiving rainwater flowing in from the inlet, a connecting rod connected to the receiving ball's side surface and having a rotating shaft, a weight connected to the other side of the connecting rod, And a switch for transmitting a rain start signal and a rain end signal when the contact member is brought into contact with or separated from the contact member at a predetermined distance from the top of the contact member, And a rainfall detection unit for detecting rainfall.
The method according to claim 1,
Wherein the housing comprises a ceiling member having a height at an upper end of the housing and a slope at a lower height of the inlet.
The method according to claim 1,
Wherein the rainfall sensing unit includes a funnel for guiding rainwater between the inlet of the housing and the receiving ball so that the rainwater flowing into the inlet may be received in the receiving ball.
The method according to claim 1,
Wherein the receiving ball is formed with an outlet groove on one side thereof for discharging rainwater contained in rainfall.
The method according to claim 1,
When the rainwater is received in the receiving ball, the receiving ball descends and the weight increases. The contact member contacts the switch to signal the rain start signal, Wherein when the rainwater stored in the receiving ball flows out, the receiving ball rises and the weight falls, so that the contact member signals the rainfall end signal when it does not contact the switch.
1. A water purification unit for purifying rainwater by introducing rainwater at the time of rainfall,
The rainfall sensing unit according to claim 1, wherein the rainfall sensing unit senses the start of rainfall and the end of rainfall and sends a signal to the rainfall sensing unit
A controller for applying a control signal according to a signal input from the rainfall sensing apparatus;
And a drain pump connected to the drain pipe provided with a drain opening / closing valve so as to discharge purified water from one side of the water quality purification unit by receiving the control signal from the control unit and discharging the water stored in the water purification unit, And a control unit for controlling the operation of the control unit.
The method of claim 6,
Wherein the controller is configured to apply a control signal to the drain pump when the detection signal indicating the start of the next rainfall is input from the rainfall sensing device while the drain pump is operating.

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