KR20190059802A - Wireless power controller for a wall - Google Patents

Abstract

The present invention relates to an energy self-sufficient wireless communication power control apparatus for an internal building wall body, which comprises: an MICOM equipped with an external wall body forming a building wall body and driven with power at least one photovoltaic panel coupled to the external wall body; a plurality of sensors providing predetermined information to the MICOM so that a ventilation system or a building energy management system (BEMS) applied to the building can be controlled by the MICOM; and a wireless communication module connected with the MICOM and enabling wireless communication.

Description

Technical Field [0001] The present invention relates to a wireless power controller for a building wall built-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an energy-independent wireless communication power control apparatus for building-built-in walls, and more particularly, And more particularly, to an energy-independent wireless communication power control device for building wall built-in which can be easily and widely applied to recent smart environments.

Recently, the use of photovoltaic power generation equipment capable of generating electric power using solar energy has become increasingly popular.

Solar cells using solar energy do not use fossil fuels such as coal or petroleum, and they are attracting attention as a new alternative energy source in the future because they use pollution-free and infinite energy source, sunlight. And is used to obtain generated power of automobiles and the like.

For reference, photovoltaic power generation is a technology that produces electricity directly using photovoltaic (PV).

A solar cell is a semiconductor device that converts light energy into electrical energy using a photoelectric effect and is composed of two semiconductor thin films each having a positive (+) and a negative (-) polarity, and a plurality of solar cells ) Are connected in series / parallel to generate a voltage and a current required by the user, and the user can use the power generated in such a solar cell.

Unlike other alternative energy utilization technologies, photovoltaic power generation system has a simple system configuration, and recent efforts to apply it to the construction field have been actively attempted and it is called building integrated PV (BIPV).

The most representative is to combine existing building materials with solar cells to simultaneously exhibit building materials and power generation functions.

Building integrated photovoltaic power generation, ie, BIPV, is applied to the building envelope by building PV modules into building materials.

Such a building integration technology is a more active technology to utilize the existing building envelope from the viewpoint of the concept of protection of external stimuli and utilize it as a tool of generating energy, and it can take part in the supply and demand of the solar cell, It is expected to double the installation cost.

However, since the technique is not practically implemented yet, it is necessary to develop a technology for a new concept of an energy-independent wireless communication power control device for a built-in building wall interior.

Korea Patent Office Application No. 10-2016-0177792

It is an object of the present invention to provide a building wall structure which can be easily and widely applied in recent smart environments because it is built in a building wall and thus is not only advantageous in construction but also energy- And to provide an energy-independent radio communication power control apparatus for an energy-saving type.

In order to achieve the above-mentioned object, the present invention provides an energy-standing type wireless communication power control apparatus for building-wall built-in type having the following structure.

A microcomputer incorporated in an outer wall body forming a building wall, the microcomputer being powered by at least one solar panel coupled to the outer wall body;

A plurality of sensors for providing predetermined information to the microcomputer so that a ventilation system or a building energy management system (BEMS) applied to the building is controlled by the microcomputer; And

And a wireless communication module that is connected to the microcomputer and enables wireless communication with the wireless communication module.

Through the wireless communication module, predetermined information can be communicated to the monitoring application or the smart home service.

And a battery for storing power generated by the solar panel and supplying low power to the microcomputer.

The plurality of sensors include:

And a fine dust detecting sensor for detecting the amount of fine dust in the building.

The plurality of sensors include:

And a carbon dioxide sensing sensor for sensing the amount of carbon dioxide in the building.

The plurality of sensors include:

And a temperature sensing sensor for sensing a temperature inside the building.

The plurality of sensors include:

And a humidity sensor for sensing the humidity in the building.

According to the present invention, since it is embedded in a building wall, it is advantageously advantageous in construction. In addition, because it is energy-independent, there is no need for electricity, so it can be used semi-permanently. In addition, since wireless communication is possible, it is possible to easily and widely apply to a recent smart environment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic layout diagram of an energy-standing type wireless communication power control apparatus for building wall built-in according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic diagram showing the use state of Fig. 1. Fig.
FIG. 3 is a control block diagram of an energy-standing type wireless communication power control apparatus for building wall built-in according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic arrangement structure of an energy-standing type wireless communication power control apparatus for building wall built-in according to an embodiment of the present invention, FIG. 2 is a schematic diagram of the use state of FIG. 1, and FIG. FIG. 2 is a control block diagram of an energy-independent wireless communication power control device for building wall built-in according to the present invention;

Referring to these figures, since the energy-standing type wireless communication power control device 160 for building wall built-in according to the present embodiment is built in the building wall 100, it is not only advantageous in construction but also energy- And may include a microcomputer 180, a plurality of sensors 191 to 194, and a wireless communication module 195. The microcomputer 180 may be a wireless communication module.

The energy-standing wireless communication power control device 160 for building wall built-in according to the present embodiment may be incorporated in the building wall 100 as shown in FIG. That is, inside the outer wall body 110 constituting the building wall body 100. On the rear surface of the outer wall body 110, an insulator 150 providing a heat insulating function is provided.

At this time, if the insulator 150 completely shields the energy-standing type wireless communication power control device 160 for building-wall built-in according to the present embodiment, the sensing function is deteriorated, so that a large number of sensors 191 to 194, 195 can be closed with the insulator 150 within an operable range.

The microcomputer 180 is a practical control module. In this embodiment, the solar panel 120 is provided on the front surface of the outer wall body 110 of the building wall 100, and the microcomputer 180 is driven using the power generated by the solar panel 120 . Therefore, a separate electric wire is not required.

At this time, since the solar panel 120 is driven in the day when the sun exists, and is not driven at night, the battery 185 is provided so that the power generated from the solar panel 120 is stored.

The battery 185 is a place where electric power generated from the solar panel 120 is stored, and also supplies low power to the microcomputer 180. Of course, a converter for converting power may be provided between the battery 185 and the microcomputer 180. [

The microcomputer 180 is connected to the plurality of sensors 191 to 194 and the wireless communication module 195.

The plurality of sensors 191 to 194 are controlled by the microcomputer 180 so that the ventilation system 173 or the building energy management system 174 applied to the building is controlled by the microcomputer 180, Lt; / RTI >

The information at this time may vary. In this embodiment, information on the amount of fine dust and carbon dioxide remaining in the building, and information on the temperature and humidity in the building are transmitted to the microcomputer 180. However, additional information may be added.

A plurality of sensors 191 to 194 for sensing such information and transmitting the information to the microcomputer 180 include a fine dust detecting sensor 191 for detecting the amount of fine dust in the building, a carbon dioxide detecting sensor for detecting the amount of carbon dioxide in the building, A temperature sensing sensor 193 for sensing the temperature inside the building, and a humidity sensing sensor 194 for sensing the humidity in the building.

The wireless communication module 195 is connected to the microcomputer 180 and enables wireless communication. That is, the predetermined information is communicated to the monitoring application 171 or the smart home service 172 through the wireless communication module 195.

Meanwhile, in this embodiment, the microcomputer 180 receives information on the amount of fine dust and the amount of carbon dioxide remaining in the building from the sensors 191 to 194, and information on the temperature and humidity in the building, To control the ventilation system 173 or the building energy management system (BEMS) 174 to be operated.

In this embodiment, the microcomputer 180 transmits predetermined information through the wireless communication module 195, that is, information from a plurality of sensors 191 to 194 or the degree of the managed state to the monitoring application 171 or To be communicated to the smart home service 172.

The microcomputer 180 performing such a role may include a central processing unit 181, a memory 182, a memory 182, and a support circuit 183 (SUPPORT CIRCUIT).

The central processing unit 181 receives information from the plurality of sensors 191 to 194 and controls the ventilation system 173 or the building energy management system 174 applied to the building to operate, May be one of a variety of computer processors that may be industrially applicable to control certain information to be communicated to the monitoring application 171 or the smart home service 172 via the network 195.

The memory 182 (MEMORY) is connected to the central processing unit 181. The memory 182 may be a computer readable recording medium and may be located locally or remotely and may be any of various types of storage devices, including, for example, random access memory (RAM), ROM, floppy disk, hard disk, May be at least one or more memories.

The support circuit 183 (SUPPORT CIRCUIT) is coupled with the central processing unit 181 to support the typical operation of the processor. The support circuit 183 may include a cache, a power supply, a clock circuit, an input / output circuit, a subsystem, and the like.

In this embodiment, the microcomputer 180 receives information on the amount of fine dust and the amount of carbon dioxide remaining in the building from the plurality of sensors 191 to 194, and information on the temperature and humidity in the building, Controls the ventilation system 173 or the building energy management system 174 to be operated and controls the predetermined information to be communicated to the monitoring application 171 or the smart home service 172 via the wireless communication module 195.

At this time, a series of processes or the like for controlling the operation of the protection window sliding unit 140 such that the microcomputer 180 operates the protection window in stages based on the sensing signal of the sensing unit 170 can be stored in the memory 182 have. Typically, a software routine may be stored in the memory 182. The software routines may also be stored or executed by other central processing units (not shown).

Although processes according to the present invention are described as being performed by software routines, it is also possible that at least some of the processes of the present invention may be performed by hardware. As such, the processes of the present invention may be implemented in software executed on a computer system, or in hardware such as an integrated circuit, or in combination of software and hardware.

According to the present embodiment having the structure and function as described above, since it is built in the building wall 100, it is not only advantageous in construction but also energy-independent type so that no electricity is required. In particular, So that it can be easily and widely applied.

The effect of the present invention will be further elaborated.

It can be used as a part of the improvement of indoor air quality which is a problem caused by reinforcing the insulation regulation of domestic and foreign buildings, and it can pioneer new market entry.

Synergy effect can be achieved by combining with a composite insulation material for zero energy building.

It can be used for construction of non-power system in road traffic facilities required for wireless charging and discharging system as well as building wall.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It is therefore intended that such modifications or alterations be within the scope of the claims appended hereto.

100: building wall body 110: outer wall body
120: solar panel 150: insulator
160: Radio communication power control device 171: Monitoring application
172: Smart Home Service 173: Ventilation System
174: building energy management system 180:
185: Battery 191: Fine dust sensor
192: carbon dioxide sensor 193: temperature sensor
194: Humidity sensor 195: Wireless communication module

Claims (7)

A microcomputer incorporated in an outer wall body forming a building wall, the microcomputer being powered by at least one solar panel coupled to the outer wall body;
A plurality of sensors for providing predetermined information to the microcomputer so that a ventilation system or a building energy management system (BEMS) applied to the building is controlled by the microcomputer; And
And a wireless communication module that is connected to the microcomputer and enables wireless communication with the wireless communication module.
The method according to claim 1,
Wherein the predetermined information is communicated through the wireless communication module as a monitoring application or a smart home service.
The method according to claim 1,
Further comprising a battery for storing power generated by the solar panel and supplying low power to the microcomputer.
The method according to claim 1,
The plurality of sensors include:
And a fine dust detecting sensor for detecting the amount of fine dust in the building.
The method according to claim 1,
The plurality of sensors include:
And a carbon dioxide sensor for sensing the amount of carbon dioxide in the building.
The method according to claim 1,
The plurality of sensors include:
And a temperature sensor for sensing the temperature inside the building.
The method according to claim 1,
The plurality of sensors include:
And a humidity sensor for sensing the humidity inside the building.

Images