KR101340096B1 - Apparatus of receiving infrared ray - Google Patents

Abstract

The present invention relates to an infrared receiver for receiving an infrared signal transmitted by infrared rays, and an object of the present invention is to provide an infrared receiver such that one infrared sensor of two infrared sensors is not affected by three wavelengths of light. It is. To this end, the present invention, in the infrared receiver applied to the air cleaner, the first infrared sensor for receiving the infrared signal emitted from the infrared remote control, the second infrared sensor is arranged in parallel with the second infrared sensor for receiving the infrared signal And an infrared sensor, a blocking film for blocking the two infrared sensors from the outside, and a blocking film formed at a blocking film in a region corresponding to a vertical upper end of the first infrared sensor and blocking three wavelengths of light.

Air Purifier, Infrared Sensor (IR), 3 Wavelength Light

Description

Infrared receiver {APPARATUS OF RECEIVING INFRARED RAY}

The present invention relates to an apparatus for receiving a control signal of an air cleaner, and more particularly, to an infrared receiver for receiving an infrared signal transmitted by infrared rays.

An air purifier refers to a device that purifies contaminated air and converts it into fresh air. The air cleaner is installed in a predetermined indoor space to remove contaminants and harmful bacteria contained in the air and provide comfortable indoor air.

If the air purifier is classified according to the purification method, it can be divided into filter method, electrostatic precipitating method and negative ion generating method. The filter method uses a filter such as a pre-filter (or medium filter) that removes coarse dust, a HEPA filter that removes fine particles, and an activated carbon (carbon) filter that removes harmful gases and odors. In particular, recently, a water filter that removes dust, dust, and other contaminants by using water adsorption power is also widely used. The electrostatic precipitating method is a method of collecting dust and deodorizing dust by using high voltage to perform dust collection and deodorization. It is a way to clean and manage the electrostatic precipitator periodically. The negative ion generation method utilizes the property of negative ions binding to harmful substances suspended in the air.

If air cleaners are classified according to usage type, they can be divided into stand type and side table type. Stand type means to be used while standing perpendicular to the ground. The side table type refers to being used lying horizontally on the ground, and is configured such that a cover located at the top can be used as a side table.

As a method of adjusting the function of the air cleaner, there is a method of using an operation unit formed in the air cleaner, and there is a method of using a wireless remote controller.

In order to apply the method using the operation unit, the operation unit must be formed in the air cleaner. The operation unit formed in the air purifier may be generally configured as an operation button, and in order to adjust various functions of the air cleaner, operation buttons should be provided for each function. On the other hand, as the function of the air cleaner is diversified, the number of operation buttons is also increasing, and this causes the operation unit to occupy a large part of the air cleaner, which causes problems in appearance. In addition, in order to adjust the function of the air cleaner, the user has to check and press operation buttons corresponding to each function inconveniently. Moreover, since the user who is far from the air purifier needs to approach the air purifier directly and operate the operation unit in order to use the air purifier, the method of using the operation unit is inconvenient for the users.

Recently, in order to solve the inconvenience of the method using the operation unit, a method of adjusting the function of the air cleaner using the wireless remote controller has been used.

In order to use the remote control, the air cleaner must have a receiver capable of receiving a signal transmitted from the remote controller, and a remote controller capable of interacting with the receiver should be provided.

On the other hand, currently used remote control is mostly using the infrared ray (Infrared Ray), and therefore, the receiving device is also used an infrared receiver consisting of an infrared sensor capable of detecting the infrared ray.

These infrared receivers are widely used because of their simple structure, but since they cause interference with light of three-wavelength fluorescent lamps, which are widely used in homes recently, their reception functions are deteriorated in spaces in which three-wavelength fluorescent lamps are used. There is a problem.

In addition, when using one air cleaner that can be used as a stand type or side table type, there is a problem that it is difficult to control the air cleaner using the remote control due to the above problems.

For example, in the case of an air cleaner that can be used in both a side table and a stand type, since the infrared receiver is generally disposed in a cover located at the top of the air cleaner, when the air cleaner is used as a side table, It receives 3 wavelengths of light directly from 3 wavelengths installed on the ceiling, etc., which causes the infrared sensor to deteriorate, causing the air cleaner to malfunction.

In order to solve this problem, there may be a method of arranging two separate infrared receivers in different positions, in case of using the air cleaner as a side table and a stand type.

However, this method not only requires a printed circuit board (PCB) or various electric wires for manufacturing an infrared receiver, but also has a problem that the process is complicated for additional wiring. In addition, since two infrared receivers are used, there is a problem that the appearance of the air cleaner is not good.

An object of the present invention for solving the above problems, to provide an infrared receiver so that one of the two infrared sensor is not affected by the three wavelength light.

The present invention for achieving the above object is, in the infrared receiver applied to the air cleaner, the first infrared sensor for receiving the infrared signal emitted from the infrared remote control, the first infrared sensor is disposed in parallel with the first infrared sensor to receive the infrared signal A second infrared sensor, a blocking film for blocking and protecting the two infrared sensors from the outside, and a protective film formed at a blocking film in an area corresponding to a vertical upper end of the first infrared sensor and blocking three wavelengths of light; do.

According to the present invention, one infrared sensor of the two infrared sensors is configured not to be affected by the vertically incident three-wavelength light, so that even when the air cleaner is used as a side table, the infrared signal transmitted from the side can be received. There is an excellent effect that the purifier can be prevented from malfunctioning.

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

1 and 2 is an exemplary view showing the appearance of an air cleaner to which the present invention is applied, FIG. 1 shows a stand type air cleaner, and FIG. 2 shows a side table air cleaner.

The air cleaner 100 to which the present invention is applied includes a suction port 102 through which air is introduced, a discharge port 103 through which purified air is discharged, a case 101 forming an overall appearance, and a front surface of the case 101. It includes a front portion 104 covering the.

The front part 104 is referred to based on the stand type shown in FIG. 1, and may be referred to as an upper surface part in the case of the narrow type shown in FIG. 2. However, hereinafter, the front part 104 will be referred to for convenience of description. The front part 104 is provided with an infrared receiver 300 for receiving an infrared signal transmitted from an infrared remote controller. In addition, the front unit 104 may be further formed with an encoder unit 200 that can manually control the function of the air cleaner 100.

3 is an exemplary view showing a state in which the infrared receiver according to the present invention is used in a vertical direction, showing the use state of the infrared receiver when the air cleaner is used in a stand type as shown in FIG. .

The infrared receiver 300 according to the present invention is mounted on the front part 104 of the air cleaner as described above, and is used, and the two infrared sensors for receiving infrared signals emitted from an infrared remote controller (not shown) ( 311 and 312, a blocking film 320 for blocking and protecting infrared sensors from the outside, and a protective film 330 formed on a blocking film corresponding to a vertical top of one of the two infrared sensors. .

The infrared sensors 311 and 312 may use infrared sensors which are widely used at present. Among the infrared sensors, the first infrared sensor 311 which is protected by the protective film 330 is for receiving an infrared signal emitted from the infrared remote controller when the air cleaner is used as a side table, and is protected by the protective film. The second infrared sensor 312, which is not present, is for receiving the infrared signal transmitted from the infrared remote controller when the air cleaner is used as the stand type.

The blocking film 320 is to protect the infrared sensors by blocking them from the outside. In general, the blocking film 320 may be configured as a transparent window through which infrared light can pass.

The protective film 330 is made of a material that does not pass three wavelengths of light, may be formed on the front of the barrier film through a printing method, it may be attached to the front of the barrier film in the form of a film.

For example, when the air cleaner is used as a stand type as shown in FIG. 3, when the front part 104 and the infrared receiver 300 are placed vertically, the infrared signal A transmitted from the remote controller used by the user is used. Proceeds in the horizontal direction and is incident to the infrared receiver 300.

On the other hand, since the three-wavelength light using the three-wavelength light is generally installed on the ceiling, the three-wavelength light (B) transmitted from the three-wavelength light, etc. proceeds vertically at the top of the air cleaner as shown in FIG. come.

Therefore, the three-wavelength light is not incident into the infrared receiver 300, and the two infrared sensors are not subjected to interference by the three-wavelength light, thereby preventing malfunction.

At this time, if the protective film 330 is made of a material that blocks only three wavelengths of light and passes infrared light, both the first and second infrared sensors 311 and 312 may detect an infrared signal, but in this case, two infrared sensors Since malfunction may occur due to the infrared signal detection by, it is preferable to configure the protective film made of a material that can also block the infrared signal.

Therefore, when the air cleaner is used as a stand type, the first infrared sensor 311 may not receive an infrared signal, and only the second infrared sensor 312 may receive the infrared signal A to operate normally. .

4 is an exemplary view showing a state in which the infrared receiver according to the present invention is used in a horizontal direction, showing the state of use of the infrared receiver when the air cleaner is used in a side table as shown in FIG. will be.

Since the configuration of the infrared receiver 300 is as described above, a detailed description thereof will be omitted. As shown in FIG. 4, when the front cleaner 104 and the infrared receiver 300 are horizontally disposed, the infrared signal A emitted from the remote controller used by the user is transferred to the front panel ( 104, the barrier layer 320, the protective film 330, and the infrared sensors 311 and 312 are incident to the infrared receiver 300 with a predetermined angle θ. That is, the remote controller used by the user is not used at the vertical upper end of the air cleaner, but is generally used at an oblique angle.

However, since the three-wavelength light using the three-wavelength light is generally installed on the ceiling, the three-wavelength light B transmitted from the three-wavelength light, etc., proceeds in the vertical direction at the top of the air cleaner as shown in FIG. come. The three-wavelength light is vertically incident into the infrared receiver 300 to reach the second infrared sensor, thereby causing the second infrared sensor 312 to malfunction. Since the protective film 330 blocks the three-wavelength light as described above, the three-wavelength light does not pass through the protective film 330, and thus, is disposed at the vertical bottom of the protective film 330. The first infrared sensor 311 is not subjected to interference from three wavelengths of light.

On the other hand, since the infrared signal A is incident to the infrared sensing device 300 with a predetermined angle θ with the horizontal plane as described above, as shown in FIG. 4, the infrared signal A is not blocked by the protective film 330. It may be incident to the first infrared sensor 311 without.

Therefore, when the air cleaner is used as a table type, the second infrared sensor 312 is interrupted by three wavelengths of light, and only the first infrared sensor 311 is not affected by the three wavelengths of light. Receive (A) and operate normally.

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. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1 and 2 is an exemplary view showing the appearance of an air cleaner to which the present invention is applied.

3 is an exemplary view showing a state in which the infrared receiver according to the present invention is used in a vertical direction.

Figure 4 is an exemplary view showing a state in which the infrared receiver according to the present invention is used placed in the horizontal direction.

DESCRIPTION OF THE RELATED ART [0002]

100: air cleaner 104: front

300: infrared receiver 311, 312: infrared sensor

320: blocking film 330: protective film

Claims (4)

In the infrared receiver applied to the air cleaner, A first infrared sensor for receiving an infrared signal emitted from the infrared remote controller; A second infrared sensor disposed in parallel with the first infrared sensor to receive an infrared signal; A blocking film for protecting the two infrared sensors by blocking them from the outside; And It is formed on the blocking film of the area corresponding to the vertical top of the first infrared sensor and comprises a protective film for blocking the three wavelength light, The air cleaner is to be used interchangeably in the side table type, When the air cleaner is used as a narrow table, the protective film blocks three wavelengths of light so that the first infrared sensor located at the bottom of the protective film receives an infrared signal incident at a predetermined angle with a horizontal plane. And the second infrared sensor receives an infrared signal incident in a horizontal direction when the air cleaner is used as a stand type. The method of claim 1, The protective film, The infrared receiver is formed on the front of the barrier film by a printing method or attached to the front of the barrier film in the form of a film. The method of claim 1, The protective film, Infrared receiver, characterized in that formed of a material that can also block infrared signals. delete

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