KR20240062290A - Heating system using a heat-generating partition - Google Patents

Abstract

The present invention discloses a control system that enables efficient heating of a heating area to an appropriate temperature.

Description

Heating system using a heat-generating partition}

The present invention is a system for heating a heating area, comprising: a partition installed along the area of each individual space so that a plurality of individual spaces are individually partitioned within the heating region, and provided to be capable of generating heat by an external power source; an individual controller installed in each partition to detect the temperature of each individual space, compare the detected temperature with a preset temperature, and control the partition to generate heat; It is connected to each individual controller, receives the status value of each partition from the individual controller, and receives a control signal for controlling each partition individually or collectively from the manager and transmits it to each individual controller. an integrated controller that does; a temperature control server to which the operating status and operating condition information of each partition transmitted from each individual controller and received by the integrated controller are uploaded, and condition values for controlling the partition preset by an administrator are stored; A control terminal installed with a temperature control program capable of managing the temperature control server and receiving information from each of the individual controllers and the integrated controller or transmitting control signals received from the manager. This is about a heating system using possible partitions.

Recently, the variety of services and functions provided by electronic devices has gradually expanded, and multitasking is also possible. Various applications corresponding to the IoT (Internet of things) environment are being developed for electronic devices.

The IoT environment refers to an environment where things are connected to the Internet using various communication technologies. Things around the user can communicate with each other through the Internet, and communication between the user and things can also be possible.

In an IoT environment, it is common for control between an electronic device carried by a user and an object (e.g., start of operation, end of operation, power on/off, etc.) to be performed using an application installed on the electronic device. . In an IoT environment consisting of electronic devices and multiple objects, it takes a lot of time to register the electronic devices and each object using an application installed on the electronic device. Additionally, cumbersome and complicated steps may be required to control each registered object in an electronic device.

In particular, in the case of indoor temperature control, it is desirable to perform it adaptively according to the indoor structure or air flow.

However, although the IOT infrastructure that can effectively perform this has been established, research on methods to effectively control it is insufficient.

Accordingly, research is needed on methods and implementable devices that can efficiently maintain the temperature inside the area to be managed at an appropriate level.

Republic of Korea Patent Publication No. 10-2018-0018594

The present invention was invented to solve the above problems, and its purpose is to provide a heating system that can efficiently maintain the temperature of the heating area at an appropriate level.

For the above purpose, the present invention is a system for heating a heating area, which is installed along the area of each individual space so that a plurality of individual spaces are individually partitioned inside the heating area, and can generate heat by an external power source. A partition provided to do so; an individual controller installed in each partition to detect the temperature of each individual space, compare the detected temperature with a preset temperature, and control the partition to generate heat; It is connected to each individual controller, receives the status value of each partition from the individual controller, and receives a control signal for controlling each partition individually or collectively from the manager and transmits it to each individual controller. an integrated controller that does; a temperature control server to which the operating status and operating condition information of each partition transmitted from each individual controller and received by the integrated controller are uploaded, and condition values for controlling the partition preset by an administrator are stored; A control terminal installed with a temperature control program capable of managing the temperature control server and receiving information from each of the individual controllers and the integrated controller or transmitting control signals received from the manager.

In addition, in the present invention, the partition is filled in a space between a square or rectangular body frame, a pair of carbon heating board plates installed on the front and rear surfaces of the main body frame, and the pair of carbon heating board plates. It includes a circulation means for forcibly circulating the heat to the outside, and a lamp installed in the space to sterilize and deodorize the air in the space, and the heated air sterilized and deodorized by the lamp is supplied to the circulation means. It is characterized in that the interior can be heated by forced circulation to the outside.

In addition, in the present invention, the circulation means is provided with a plurality of perforated holes, at least one inlet formed on the upper surface of the carbon heating board plate, and a plurality of perforated holes, and flows into the space through the inlet part. At least one outlet formed at the bottom of the carbon heating board to discharge heat mixed with the incoming external air to the outside, and each of the inlet and outlet, or one of the inlet or outlet. It is characterized by including a circulation fan installed in.

In addition, the present invention is characterized in that a plurality of guide plates are formed to protrude in a zigzag shape on one side of the carbon heating board facing each other.

According to the present invention as described above, each individual space and the entire heating area can be efficiently maintained at an appropriate temperature through the individual controller and the integrated controller.

In addition, in the present invention, carbon heating board plates are coupled to the front and rear surfaces of the main body frame constituting the partition, and the heat filled in the space formed between the carbon heating board plates is forced to circulate to the outside through a circulation means and space. A lamp is installed to sterilize and deodorize the air within the unit, so that each individual space can be heated using heat forced to the outside by the circulation means. In particular, the air sterilized and deodorized by the lamp can be heated. As this is provided, an air purification effect can be expected in each individual space.

In addition, in the process of circulating the heat provided between the carbon heating board plates to the outside by the circulation means, external cold air continuously flows into the space between the carbon heating board plates, thereby preventing the carbon heating board plates from being damaged by heat. While doing so, the carbon heating board can be expected to maintain the maximum set temperature.

In addition, a guide plate is formed to protrude in a zigzag shape on one side of the carbon heating board facing the other side, so that external air flowing into the space provided inside the partition through the inlet can stay as much as possible, thereby maximizing heat exchange in the partition space. This effect can be expected.

1 to 3 are schematic illustrations for explaining a heating system using a partition capable of generating heat according to the present invention.
Figure 4 is a schematic illustration of a temperature control program installed in a control terminal according to an embodiment of the present invention.
5 to 7 are schematic illustrations illustrating partitions constituting a heating system using a partition capable of generating heat according to an embodiment of the present invention.
Figures 8 and 9 are schematic illustrations for explaining a guide plate formed in a partition according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described using the attached FIGS. 1 to 9 as follows.

First, prior to the description of the present invention, the same reference numerals are used for the same components as those in the prior art, and description of overlapping reference numerals will be omitted.

According to the drawing, the present invention is a system for heating a heating area, and is installed along the area of each individual space so that a plurality of individual spaces are individually partitioned inside the heating area, and is provided to generate heat by an external power source. a partition and; an individual controller installed in each partition to detect the temperature of each individual space, compare the detected temperature with a preset temperature, and control the partition to generate heat; It is connected to each individual controller, receives the operating status and operating conditions of each partition from the individual controller, and receives a control signal for controlling each partition individually or collectively from the manager to control each partition. an integrated controller that transmits information to the controller; a temperature control server to which the operating status and operating condition information of each partition transmitted from each individual controller and received by the integrated controller are uploaded, and condition values for controlling the partition preset by an administrator are stored; and a control terminal installed with a temperature control program capable of managing the temperature control server and receiving information from each of the individual controllers and the integrated controller or transmitting control signals received from the manager.

In addition, in the present invention, the partition is filled in a space between a square or rectangular body frame, a pair of carbon heating board plates installed on the front and rear surfaces of the main body frame, and the pair of carbon heating board plates. It includes a circulation means for forcibly circulating the heat to the outside, and a lamp installed in the space to sterilize and deodorize the air in the space, and the heated air sterilized and deodorized by the lamp is supplied to the circulation means. It is characterized in that the interior can be heated by forced circulation to the outside.

In addition, in the present invention, the circulation means is provided with a plurality of perforated holes, at least one inlet formed on the upper surface of the carbon heating board plate, and a plurality of perforated holes, and flows into the space through the inlet part. At least one outlet formed at the bottom of the carbon heating board to discharge heat mixed with the incoming external air to the outside, and each of the inlet and outlet, or one of the inlet or outlet. It may include a circulation fan installed in the.

Additionally, in the present invention, a plurality of guide plates can be formed to protrude in a zigzag shape on one side of an opposing carbon heating board.

1 to 3 are schematic illustrations to explain a heating system using a partition capable of generating heat according to the present invention. As shown in Figures 1 to 3, the present invention includes a partition 100; Individual controller 180; an integrated controller 200; A temperature control server 210; It may include a control terminal 300.

First, as shown in Figure 1, according to the present invention, a partition 100 capable of generating heat can be installed along the area of each individual space so that a plurality of individual spaces are individually partitioned inside the heating area S. there is. For example, the heating area (S) may be composed of an office with a predetermined area, and partitions 100 are installed in each corner and central part of the heating area to create five individual spaces within the heating area (S). It can form parts (A, B, C, D, E).

Additionally, an individual controller 180 is installed in each partition installed in each individual space to control the temperature of each individual space. Although not shown in the drawing, the individual controller 180 may be equipped with a temperature sensor to detect the temperature of each individual space, and a user using the individual space may measure the temperature of the partition 100 installed in the space. A plurality of button units may be provided for adjustment, and a display unit may be included to visually display the temperature set by the manager or user, the current temperature of the individual space sensed by the temperature sensor, etc. The temperature sensor may be configured to measure the temperature of the installed space and transmit the measured temperature data to the individual controller. The temperature sensor may be provided in plural numbers in each individual space separately from the individual controller. The individual controller 180 can automatically control the partition 100 to generate heat when the temperature detected from the temperature sensor is lower than a preset condition value (temperature), and the user using the individual space may receive a control signal. You can force the partition 100 to generate heat by entering .

The integrated controller 200 is installed on one side of the heating area (S) and is wirelessly connected to each individual controller 180, and receives the status of the partition installed in the respective individual space from each individual controller 180. Values (e.g., operating status, set temperature, etc.) can be received, and control signals for individually or collectively controlling each heating partition can be received from the manager and transmitted to each individual controller.

The temperature control server 210 uploads the status values (operating status, operating condition information, etc.) of each heating partition transmitted from each individual controller 180 and received by the integrated controller 200, and sends them to the manager. Condition values for controlling the preset heating partition are stored.

The control terminal 300 is a terminal installed with a temperature control program that can receive information from each individual controller and the integrated controller or transmit a control signal received from the manager, and is connected to the temperature control server through a network to control the temperature. The server can be managed, and each individual controller can be selectively controlled, or a control signal can be transmitted to the integrated controller to control all individual controllers in the heating area (S) at once.

The control terminal 300 is a terminal capable of wireless communication to connect to the temperature control server 210 through a network and install the temperature control program. It may be a separate controller, or may be connected to a smartphone, tablet PC, etc. It may be the same IT electronic device. Additionally, as shown in FIG. 4, the control terminal 300 may include a display unit 310. The display unit 310 can visually display the operating status of the partition installed in each individual space, the temperature around the partition, and whether or not each individual space is in use.

Additionally, in the present invention, a surveillance camera 190 that photographs the partition side may be installed in each of the individual spaces. The surveillance camera 190 may be a CCTV or an IP camera. As shown in FIG. 3, the IP camera may include a photographing unit 191, an Internet connection unit 192, a microphone and speaker 193, a control unit 194, etc., and the temperature control program is connected to the IP camera and May include controllable functions. Here, the photographing unit 191 is a camera configured to photograph the photographing area, that is, the partition side, and may be configured in various ways, such as a CCD camera, a thermal imaging camera, or a combination thereof. The Internet connection unit 192 is connected to the Internet and is configured as a wireless communication module for communication, and can transmit image data generated through the photographing unit 191 to the temperature control server. Preferably, the Internet connection unit 192 can transmit and receive data with the temperature control server through a wireless communication module such as wireless LAN (WiFi), Bluetooth, ZigBee, or NFC (Near Field Communication). The microphone and speaker 193 each receive audio from the shooting area and output it to the terminal, or output the audio input through the terminal to the scene. The control unit 194 transmits image data through the photographing unit 191, signals and voices detected through a microphone and speaker to the temperature control server according to the control command transmitted from the temperature control. In addition, the IP camera 190 is configured with one or more LED lamps to enable smooth shooting of the shooting area of the shooting unit 191 by irradiating a light source when it is difficult to secure the front view, such as at night, when necessary. It may further include a lighting unit 195, and may further include a sensor unit 196 such as a sensor for sensing the surroundings of the shooting area, for example, a motion detection sensor that detects movement, an illuminance sensor that detects illuminance, etc. there is. The present invention allows the administrator to check the shooting area through the surveillance camera 190 and prevent unnecessary waste of power by checking in real time whether the partition 100 is operating in an individual space without users. You can.

Next, Figures 5 to 9 are schematic illustrations for explaining the partition 100 configured to generate heat according to a preferred embodiment of the present invention.

In general, a partition is installed in an office or home and used to divide space. It consists of a board plate attached to the front and back of a main body frame consisting of a vertical frame and a horizontal frame. Here, the board is composed of a panel made of wood, synthetic resin, or iron, and a sheet combined to surround the panel. This board has a poor insulation effect and does not have a separate heating function, so it is necessary to heat the office or home. A problem arose where a separate heating device had to be installed.

As shown in Figures 5 and 6, the partition 100 according to the present invention includes a main body frame 10 installed vertically on the ground, and a pair of carbon heating board plates coupled to the front and rear of the main body frame 10. It includes (110), a circulation means (120) and a lamp (L) installed in the space (G) between the pair of carbon heating board plates.

The carbon heating board 110 supplies electric current to the carbon fiber heating fabric to generate heat. Although not shown in the drawing, the carbon fiber heating fabric may be formed by weaving polyester thread, carbon-coated thread, and stone wire in a net shape with a certain area, and the carbon fiber heating fabric may include seed thread and. The warp threads are formed in directions perpendicular to each other, the polyester thread is used for both the weft thread and the weft thread, the carbon-coated thread is used only for the weft thread, and the stone wires are concentrated only in the left and right edge areas to electrically connect to the carbon-coated thread. It is connected, and the seokdo wire is connected to the power supply line. Although not shown in the drawing, the seokdo wire and power line are installed to be connected to the switch 170 formed on the carbon heating board 110 to turn the carbon heating board 110 on/off.

As shown in FIG. 7, the circulation means 120 formed on one side of the carbon heating board 110 formed in this way introduces external air into the space G formed between the carbon heating board 110 at the time of inflow. (130) and, due to heat exchange, the outside air that is converted to warm air is discharged to the outside by receiving the rotational force of the outlet 140 and the motor 151 and rotating, thereby dissipating the heat filled in the space (G). The discharge time to the outside includes a circulation fan (150).

Here, the circulation fan 150 may be respectively coupled to the inlet 130 and the outlet 140, or may be installed on either the inlet 130 or the outlet 140, according to the present invention. The circulation fan 150 will be described as an example of being coupled to the outlet portion 140 as shown in the drawing. It is revealed that the circulation fan 150 is operated by a separate control means.

The lamp (L) is installed in the space (G) to sterilize and deodorize the air in the space (G). The lamp (L) may be coupled to the inlet 130 and the outlet 140, respectively, or may be installed on either the inlet 130 or the outlet 14, and may radiate ultraviolet rays or infrared rays. It could be a lamp that does. Ultraviolet lamps provide sterilization and deodorization effects by generating ultraviolet rays (UV-C) with a wavelength of 100 to 280 nm and forming ozone in the surrounding air, while infrared lamps provide sterilization effects on the irradiated target by irradiating far-infrared rays. As such, these ultraviolet lamps or infrared lamps are well-known and widely used in various industrial fields, and detailed descriptions thereof will be omitted below. Hereinafter, the lamp L of the present invention will be described as an example of being coupled to the inlet 130 as shown in the drawing. The shape of the lamp L in the attached drawings is only an example to aid understanding and does not limit the scope of the present invention.

Since the circulation means according to the present invention is composed of an inlet and an outlet formed at the top and bottom of the carbon heating board, respectively, and the inlet and a circulation fan, the configuration of the circulation means is simplified as much as possible to reduce the production cost of the partition. The effect of significantly reducing and improving productivity can be expected.

The operating principle of the partition according to the preferred embodiment of the present invention will be described as follows.

First, the switch 170 is operated to generate heat in the carbon heating board 110 coupled to the main body frame 10, so that heat is filled in the space G provided between the carbon heating board 110. do.

At this time, after a certain period of time has elapsed so that the space G between the carbon heating board plates 110 is filled with hot heat, the motor 151 constituting the circulation means 120 is operated and mounted on the motor 151. The circulation fan 150 is rotated.

In the present invention, when the circulation fan 150 is operated, the heat filled in the space G flows out to the outside through the perforated hole 141 of the outlet 140 provided at the bottom of the carbon heating board 110. , At the same time, the air existing outside the partition 100 passes through the perforated hole 131 of the inlet 130 provided at the top of the carbon heating board 110 and enters the space (G) inside the partition 100. ) flows into. At this time, the lamp (L) installed on the side of the perforated hole 131 of the inlet part within the space G has an operating principle of sterilizing and deodorizing while contacting external air flowing into the space G from the outside. .

That is, when the heat filled in the space (G) of the partition 100 circulates and flows out to the lower part by the operation of the circulation fan 150, the hot air gradually moves to the upper side due to the convection phenomenon, thereby heating the room. In particular, the indoor air purification effect can be achieved through the sterilization and deodorization effects of the lamp (L).

Next, as shown in FIGS. 8 and 9, a plurality of guide plates 160 may be formed to protrude on one surface of the facing carbon heating board 110 according to an embodiment of the present invention.

At this time, the guide plates 160 are formed to be staggered on opposite sides, and may be formed to be staggered in the process of manufacturing the carbon heat generation board 110, or may be formed as a carbon heat generation board facing the separately manufactured guide plate 160 ( It can be formed by combining with one side of 110). In the present invention, as shown in the drawing, an example in which the guide plate 160 is formed integrally with one surface of the carbon heating board 110 will be explained.

When the guide plate 160 is formed on one side of the carbon heating board 110 facing each other in a space G, the external energy flowing into the space G due to the rotating operation of the circulation fan 150 Since the air is moved in a zigzag manner as shown in FIG. 9, the residence time in the space G can be increased, and as a result, the maximally heated outside air penetrates the perforated hole 141 provided in the outlet portion 140. It can be leaked to the outside. Accordingly, indoor heating efficiency can be significantly improved.

In this way, in the temperature control system using the partition capable of generating heat according to the present invention, the partition capable of generating heat installed in each individual space is controlled by the individual controller and the integrated controller according to the control signal from the control terminal, so that the temperature is controlled within the area where the temperature is to be controlled. It can be efficiently controlled at an appropriate temperature.

In the above description, the present invention has been shown and described in relation to specific embodiments, but it is known to those skilled in the art that various modifications and changes are possible without departing from the spirit and scope of the invention as indicated by the claims. Anyone who has it will be able to easily understand it.

1: Partition
10: Body frame
100: partition
110: Carbon heating board
120: Circulation means
130: Inlet 131: Perforated hole
140: outlet 141: perforated hole
150: circulation fan 151: motor
160: guide plate 170: switch
180: individual controller 190: surveillance camera
200: integrated controller 210: temperature control server
300: Control terminal
G: space
L: Infrared lamp
S: Heating area
A, B, C, D, E: Individual space parts

Claims (4)

A system for heating a heating area,
A partition 100 installed along the area of each individual space so that a plurality of individual spaces are individually divided within the heating area and provided to be capable of generating heat by an external power source;
An individual controller 180 installed in each partition to detect the temperature of each individual space, compare the detected temperature with a preset temperature, and control the partition to generate heat;
It is connected to each individual controller, receives the status value of each partition from the individual controller, and receives a control signal for controlling each partition individually or collectively from the manager and transmits it to each individual controller. An integrated controller 200 that does;
A temperature control server in which the operating status and operating condition information of each partition transmitted from each individual controller and received by the integrated controller 200 are uploaded, and condition values for controlling the partition preset by the administrator are stored. (210) and;
A control terminal 300 installed with a temperature control program capable of managing the temperature control server and receiving information from each of the individual controllers and the integrated controller or transmitting control signals received from the manager;
A heating system using a partition capable of generating heat, comprising:
According to paragraph 1,
The partition 100 is,
A main body frame 10 of square or rectangular shape,
A pair of carbon heating board plates 110 installed on the front and rear sides of the main body frame, respectively,
Circulating means (120) for forcibly circulating heat filled in the space between the pair of carbon heating board plates to the outside,
It includes a lamp (L) installed in the space to sterilize and deodorize the air in the space,
A heating system using a partition capable of generating heat, characterized in that the heated air sterilized and deodorized by the lamp is forcibly circulated to the outside by the circulation means to heat the room.
According to paragraph 2,
The circulation means 120 is,
A plurality of perforated holes 131 are provided, and at least one inlet 130 is formed on the upper surface of the carbon heating board 110,
A plurality of perforated holes 141 are provided, and the lower part of the carbon heating board 110 is provided so that heat mixed with external air flowing into the space G through the inlet 130 can be discharged to the outside. At least one outlet 140 formed in the
A partition capable of generating heat, characterized in that it includes a circulation fan 150 installed in each of the inlet 130 and the outlet 140, or installed on either side of the inlet 130 or the outlet 140. Heating system used.
The heating system according to claim 2, wherein a plurality of guide plates (160) are formed to protrude in a zigzag shape on one surface of the carbon heating board (110) facing the carbon heating board (110).