KR101959858B1 - Environment-friendly concrete block with sensor insert - Google Patents

Abstract

The present invention relates to an eco-friendly concrete block with a sensor insert that is provided with a plurality of perforated plates having vegetation holes of a certain size at regular holes to grow plants on the concrete block, detects a signal by the sensor to output the signal to an external terminal. An eco-friendly concrete block (2000) with a sensor insert comprises: first and second lateral walls (100, 200) having perforated plates (400) at regular intervals, the plate being perforated with vegetation holes (410) of a certain size at regular intervals; a bottom portion (300) connected to lower end of the first and second lateral walls at each end to form a horizontal surface, and having perforated plates (400) at regular intervals, the plate being perforated with vegetation holes (410) of a certain size at regular intervals; and sensors (500) inserted into at least one of the first and second lateral walls at regular intervals.

Description

A sensor-inserted environmentally friendly concrete block with sensor insert < RTI ID = 0.0 >

The present invention relates to an environmentally friendly concrete block in which a sensor is inserted. More particularly, the present invention relates to an eco-friendly concrete block in which a plurality of perforated plates having a predetermined size, And a sensor for inserting a sensor on an external terminal and inserting a sensing signal sensed by the sensor into an external terminal.

In recent years, as a result of the modernization of rural areas, the river basins such as rivers, rivers, and waterways, which are naturally produced by the flow of water, are built as concrete structures, or synthetic resin structures, The number of aquatic animals, fish and shellfish, and microorganisms has been decreasing due to the difficulty in eating food of the aquatic herbivorous species, waterbirds, reeds, reeds, irises, irises,

In order to solve such a problem, a natural-friendly revetment block, a waterway, and the like have been proposed, but they have not achieved a great effect.

As part of solving the above problems, an example of a conventional water pipe is proposed as an environmental friendly water pipe, as shown in the Korean Utility Model New Publication (Registration No. 20-0356475).

Such a water pipe is covered by a large rectangular hole on the bottom surface of a normal U-shaped unit, and the lower side of the hole is covered with a metallic material, a plastic material or a fiber net to fix the water pipe. Is formed.

Water is stored in this space, and organic matter is deposited at the same time, so that microorganisms breed and aquatic plants are provided. In addition, the ecosystem is preserved by supplying energy sources to amphibians such as insects, snakes and frogs in the waterway through the accumulated organic matter It is devised.

In this conventional design, firstly, the space is burned by the soil that flows down along with the water, and aquatic plants and the like can be planted in the buried soil. However, since the soil is filled, the water having a small quantity can not be stored, It can not be a habitat for animals or amphibians.

In addition, since a rectangular hole is formed in the bottom of the water pipe, there will be no problem in a place where there is no inclination and the ground is durable, but in particular, in the construction work of the embankment of the road, As a slope safety measure to secure a smooth drainage channel to prevent inflow, the structure of the above-mentioned channel on the rudder pipe (for a water pipe) or on a weak ground to ensure the stability of the slope to be installed is accompanied by a great danger.

The reason for this is that when the ground is weak or inclined because the flow rate of the channel is increased and the flow rate is increased at the time of rainfall especially, it leaks into a large hole beneath the water pipe to form the oyster, which causes erosion of the ground around the channel, A step is generated at the connection portion of the ground.

As a result of this phenomenon, the storm eventually flows into the lower section of the sidewalk, which increases the unit weight of the slope and causes the ground strength to decrease, leading to collapse or large-scale landmine accidents.

Korean Utility Model Registration No. 20-0356475

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The present invention is directed to a method of manufacturing a plant having a first side wall part (100), a second side wall part (200), and a bottom part (400) 300 so that a large number of food organisms can be seated.

Another object of the present invention is to provide a sensor unit 500 formed by inserting at least one or more predetermined intervals on the first sidewall and the second sidewall to measure the flow rate, flow rate, To provide a sensing signal.

According to an aspect of the present invention, there is provided an eco-friendly concrete block in which a sensor is inserted,

A first side wall part 100 and a second side wall part 200 in which vegetation holes 410 having a predetermined size are formed at predetermined intervals at perforated plates 400,

A vegetation hole 410 having a predetermined size and connected to the ends of the first sidewall portion and the second sidewall portion at respective ends thereof, 300,

And a sensor unit 500 formed on the first sidewall and the second sidewall, the sensor unit 500 being inserted at a predetermined interval.

The eco-friendly concrete block, in which the sensor according to the present invention is inserted,

The vegetation holes 410 having a predetermined size are formed on the first sidewall 100, the second sidewall 200, and the bottom 300 having the perforated plates 400 formed at predetermined intervals at predetermined intervals , It is possible to provide an environment in which a number of food organisms can settle, and eventually, an environmentally friendly concrete block can be provided.

Also, by forming the sensor unit 500 formed by inserting at least one or more predetermined intervals on the first sidewall and the second sidewall, the flow rate, flow rate, slope, and the like are measured to detect the sensing signal sensed by the external terminal The present invention provides an effect of monitoring the environmental condition of the concrete block at a remote site.

1 is a perspective view of an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a mold for manufacturing an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.
3 is a cross-sectional view showing a sensor mounting frame of an environmentally-friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view illustrating a sensor unit mounted on a sensor mounting frame of an environmentally-friendly concrete block in which a sensor according to an embodiment of the present invention is inserted.
5 is a cutaway perspective view illustrating an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.

The eco-friendly concrete block in which the sensor according to an embodiment of the present invention is inserted,

A first side wall part 100 and a second side wall part 200 in which vegetation holes 410 having a predetermined size are formed at predetermined intervals at perforated plates 400,

A vegetation hole 410 having a predetermined size and connected to the ends of the first sidewall portion and the second sidewall portion at respective ends thereof, 300,

And a sensor part 500 formed on the first sidewall part and the second sidewall part so as to be inserted at least at a predetermined interval.

At this time, the sensor unit 500,

And a sensor unit for sensing a flow rate or a sensor unit for sensing an angle.

At this time, the sensor unit 500,

And is coupled to a sensor mounting frame 1200 mounted on a sensor input hole formed on a side surface of the inner mold and is formed on a side wall of a concrete block cured between the outer mold 1000 and the inner mold 1100, The cement is cured and cured to form a concrete block.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an environmentally-friendly concrete block in which a sensor according to the present invention is inserted will be described in detail.

1 is a perspective view of an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.

As shown in Fig. 1, the environmentally-friendly concrete block 2000, in which the sensor is inserted,

A first side wall part 100 and a second side wall part 200 in which vegetation holes 410 having a predetermined size are formed at predetermined intervals at perforated plates 400,

A vegetation hole 410 having a predetermined size and connected to the ends of the first sidewall portion and the second sidewall portion at respective ends thereof, 300,

And a sensor part 500 formed on the first sidewall part and the second sidewall part so as to be inserted at least at a predetermined interval.

Specifically, the first sidewall part 100 and the second sidewall part 200 are formed with perforated holes 400 having a predetermined size at predetermined intervals, .

The bottom part 300 is connected to the end of the first sidewall part and the second sidewall part, respectively. The vegetation hole 410 having a predetermined size is connected to the perforated plate 400, Are formed at regular intervals.

That is, in the first sidewall portion, the second sidewall portion, and the bottom portion 300, the perforated holes 400 having a predetermined size are perforated at regular intervals are formed at regular intervals, Are grown to make environmentally friendly concrete blocks.

The sensor unit 500 includes:

And a sensor unit for sensing a flow rate or a sensor unit for sensing an angle.

As shown in FIG. 1, in order to construct at least one sensor unit on the side wall, a sensor forming space exists. By inserting the sensor unit into the space, the sensor unit obtains the variable values to be acquired .

2 is a cross-sectional view illustrating a mold for manufacturing an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.

2, the sensor unit 500 includes:

And is coupled to a sensor mounting frame 1200 mounted on a sensor input hole formed on a side surface of the inner mold and is formed on a side wall of a concrete block cured between the outer mold 1000 and the inner mold 1100, The cement is cured and cured to form a concrete block.

To describe the manufacturing process, first, the outer mold 1000 is prepared and the inner mold is placed in the inner space.

At this time, a hole for inserting the sensor mounting frame is formed in the inner mold 1100, and a sensor mounting frame is inserted into the hole.

The sensor unit 500 is coupled to one end of the sensor mounting frame 120, and the coupling unit is coupled to the sensor unit via the bolts 600.

Therefore, the engaging holes and the engaging grooves are formed so as to be coupled to the sensor engaging frame by the bolts so as to be coupled to the sensor unit by the bolts.

Thus, the sensor mounting frame is positioned between the outer mold and the inner molding, and the sensor is positioned between the outer molding and the inner molding.

Then, when the cement is cured and cured for a predetermined time, the sensor part inserted in the concrete block is completed.

3 is a cross-sectional view showing a sensor mounting frame of an environmentally-friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.

As shown in FIG. 3, the sensor mounting frame 1200 constitutes a horizontal plane of the center portion, a vertical plane formed perpendicularly to both ends of the horizontal plane, and a second horizontal plane formed horizontally at the end of the vertical plane.

The sensor part is brought into contact with one surface of the horizontal surface and the vertical surface is formed to have the same thickness as the thickness of the inner mold and inserted into the hole formed in the inner mold.

The second horizontal surface is in contact with the inner surface of the inner mold to prevent the movement of the sensor mounting frame, so that the position is not changed during the curing time.

FIG. 4 is a cross-sectional view illustrating a sensor unit mounted on a sensor mounting frame of an environmentally-friendly concrete block in which a sensor according to an embodiment of the present invention is inserted.

4 shows the shape of the sensor unit coupled to the horizontal surface of the sensor mounting frame 1200. The sensor unit is formed in a rhombic shape to enhance the bonding force with the concrete block by the wedge unit 550. FIG.

That is, since the bonding force with the concrete block may decrease when the time passes, the wedge portion is formed to prevent this.

5 is a cutaway perspective view illustrating an environmentally friendly concrete block in which a sensor is inserted according to an embodiment of the present invention.

5, a perforated plate 400 having perforated holes 410 at regular intervals is formed on a side wall of the concrete block, and sensor portions are inserted into both sides of the perforated plate, So that the sensor portion is not protruded on the inner surface.

This prevents the possibility that the sensor unit may be damaged due to collision with the sensor unit, thereby preventing the swirling phenomenon occurring at the collision site.

On the other hand, according to an additional aspect,

And a sensor unit for sensing a flow rate or a sensor unit for sensing an angle.

For example, when the sensor unit is configured as a flow rate sensor to detect the flow rate, the flow rate information is sensed and the corresponding flow rate information is provided to the external terminal.

To this end, a wireless communication unit or a short-range wireless communication unit is formed in the sensor unit, and the corresponding flow rate information can be provided to a control unit existing in the vicinity.

Meanwhile, when the sensor unit is constituted by a gyro sensor to detect an angle, the corresponding angle, that is, 3-axis angle information is detected and the 3-axis angle information is provided to the external terminal.

To this end, a wireless communication unit or a short-range wireless communication unit is formed in the sensor unit, and the three-axis angle information can be provided to a control device existing in the vicinity.

The external terminal includes a sensed information obtaining unit for obtaining sensed information provided by the sensor unit

A sensed information type determination unit for determining the type of sensed information acquired by the sensed information acquisition unit;

A memory unit including threshold information and event information for each detection type;

An event signal judging unit for judging whether an event signal is generated for each detection type by referring to the threshold information stored in the memory unit;

And a communication unit for transmitting the event signal to the contact terminal when the event signal is generated by the event signal determination unit.

More specifically, the sensing information acquisition unit acquires sensing information provided by the sensor unit, and the sensing information type determination unit determines the type of sensing information acquired by the sensing information acquisition unit.

For example, the sensing information includes the unique ID information and the sensor value of the sensor that sent the sensing information.

Therefore, the type of the sensor is determined. The threshold value information and the event information are included in the memory unit, so that the threshold value information can be extracted according to the type of the detection.

That is, the event signal determination unit determines whether an event signal is generated for each detection type by referring to the threshold information stored in the memory unit.

If the slope value sent from the gyro sensor is 15 degrees, the threshold value of the slope stored in the memory unit is extracted as 10 degrees.

At this time, since the threshold value exceeds 10 degrees, an event signal is generated.

That is, warning information indicating that the threshold value is exceeded is generated and provided to the communication unit.

At this time, when the event signal is generated by the event signal determination unit, the communication unit transmits the event signal to the contact terminal.

As described above, the reason why the flow velocity, the slope value, and the like are determined is because it is possible to predict that sudden heavy rains have occurred at the present place at a current flow rate or an event occurs due to other causes. .

Also, if the slope value exceeds the threshold value, it means that the concrete block itself is inclined, which means that the lower part of the concrete block is eroded, so that a prompt action is required.

Thus, by providing a concrete block based on ICT and IOT based sensor inserts, it is possible to replace the current concrete block with an environmentally friendly concrete block, and at the same time provide an advantage of monitoring the current state of the concrete block in real time.

In addition, monthly sensing value aggregation and real-time monitoring are provided to provide the advantage of systematic management of concrete blocks.

As a result, according to the present invention, the first side wall part 100, the second side wall part 200, and the bottom part 400, each having the vegetation holes 410 having a predetermined size, Forming part 300, it is possible to provide an environment in which a plurality of food organisms can be seated, and eventually an eco-friendly concrete block can be provided.

Also, by forming the sensor unit 500 formed by inserting at least one or more predetermined intervals on the first sidewall and the second sidewall, the flow rate, flow rate, slope, and the like are measured to detect the sensing signal sensed by the external terminal The present invention provides an effect of monitoring the environmental condition of the concrete block at a remote site.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive.

100: first side wall portion
200: second side wall portion
300:
400: perforated plate
410: Vegetation Hall
500:
1000: outer die
1100: inner die
1200: Sensor mounting frame
2000: concrete block

Claims (3)

In an eco-friendly concrete block in which a sensor is inserted,
A first side wall part 100 and a second side wall part 200 in which vegetation holes 410 having a predetermined size are formed at predetermined intervals at perforated plates 400,
A vegetation hole 410 having a predetermined size and connected to the ends of the first sidewall portion and the second sidewall portion at respective ends thereof, 300,
And a sensor unit 500 formed on the first sidewall and the second sidewall at a predetermined interval,
The sensor unit 500 includes:
A sensor unit for sensing the flow velocity or a sensor unit for sensing the angle,
The sensor unit 500 includes:
And is coupled to a sensor mounting frame 1200 mounted on a sensor input hole formed on a side surface of the inner mold and is formed on a side wall of a concrete block cured between the outer mold 1000 and the inner mold 1100, The cement is cured and cured to form a concrete block,
There is a sensor forming space in which at least one sensor part is provided on the first sidewall part and the second sidewall part and the sensor part is inserted into the space, , ≪ / RTI >
The sensor part coupled to the horizontal surface of the sensor mounting frame 1200 is formed in a rhombic shape to enhance the bonding force with the concrete block by the wedge part 550,
When the sensor unit is configured as a gyro sensor to provide the flow rate information to the external terminal or to detect the angle, the wireless communication unit detects the corresponding three-axis angle information and transmits the corresponding three- And a second electrode,
Wherein the external terminal comprises:
A sensed information obtaining unit for obtaining sensed information provided by the sensor unit;
A sensed information type determination unit for determining the type of sensed information acquired by the sensed information acquisition unit;
A memory unit including threshold information and event information for each detection type;
An event signal judging unit for judging whether an event signal is generated for each detection type by referring to the threshold information stored in the memory unit;
And a communication unit for transmitting the event signal to the contact terminal when the event signal is generated by the event signal determination unit.
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