KR200459107Y1 - Electrnic device case Structure having Motion Sensor - Google Patents

Abstract

The present invention relates to the internal structure of the electronic device case having an RF motion sensor installed in the entrance, entrance, hallway, etc. of the apartment to emit radio waves within a predetermined area to identify the presence or absence of objects and to turn on / off the electronic device. More specifically, a cross-shaped propagation direction control protrusion is formed at the center of the inner surface of the case, and a fitting member fitted between the protrusions facing in the straight or diagonal direction of the protrusion is further configured to spread the propagation inside the electronic device for motion sensing detection. The present invention relates to an electronic device case structure including a motion sensor capable of efficiently controlling a direction.

Sensor, motion, electronics, radio wave, case, control

Description

Electronic device case structure having a motion sensor {Electrnic device case Structure having Motion Sensor}

The present invention is a case structure of an electronic device having an RF motion sensor that emits radio waves within a predetermined area to identify the presence or absence of an object and turns it on / off. And it relates to a motion sensor electronic device case structure to facilitate motion sensing direction control.

Sensors for detecting a moving object that detects the movement of an object include a sensor having a high application level, an infrared sensor, an ultrasonic sensor, and a microwave sensor. Such moving object identification sensors are applied in various forms in everyday life such as intrusion alarms, automatic doors, male urinals, lighting, and car rear object detectors.

The object detection sensor is a small power wireless sensor that emits radio waves to an object and receives the reflected signal, and then uses radar principles to determine the movement of objects. It is utilized.

Unlike conventional sensors, the motion sensor works only when there is a moving object such as a person regardless of temperature or sound. Therefore, it can be used for building public areas, offices, underground parking lots, automatic entrance doors opening and closing, and intruder detection. This technology was developed by applying radar technology, and it works by firing high frequency radio waves to disturb the emitted radio waves when people or objects move and catch the radio waves to generate output signals.

In addition, the above-mentioned sensors are different in their operation principle and there is a difference in their applications, so some security systems lower the error rate by simultaneously applying various moving object identification sensors as described above. Among these, the lighting sensor module using microwaves is mainly applied in the aspect of efficient radio wave.

In general, such a motion sensor electronic device is divided into a sensor sensor as an input unit and a main body as an output unit, and the sensor detects the presence or absence of an object by scanning a radio wave in a predetermined area and transmits the identification to the main body. Is to illuminate the lamp by the signal transmitted from the sensor.

However, in such a sensor device, there is a waste of radio waves due to the spreading of the radio wave to an unnecessarily large area, and there is an uneconomical problem due to the waste of power, and also a problem that is very troublesome to use due to various problems in operation. there was.

The present invention has been made to solve the problems of the above-described conventional sensor electronics, the main purpose of the detection direction that can detect only the desired specific area by adjusting the scanning direction of the radio wave without limiting the detection distance and direction The internal case structure of an electronic device having an RF motion sensor to adjust is to solve the radio interference problem in space movement and to improve the propagation and control efficiency.

The case of the electronic device having an RF sensor according to the present invention for solving the above-described conventional problems and to achieve the technical problem, is detected inside one side of the main body portion which is a disk-like configuration of the sensing signal transmission and reception circuit and logic circuit therein In a case structure of an electronic device in which a sensor unit is mounted and an RF motion sensor of the detection sensor unit is formed at one side of the main body unit, one or more radio wave movement through holes for improving the transmission / reception sensitivity are configured in the case, and the case The propagation direction control protrusion is formed so that the “b” shaped projection surfaces face each other to face each other at 90 ° angles in four directions (east-west-south-north direction) so that a cross-shaped inner propagation path is provided at the center of the inner wall. It is characterized by the configuration so that radio waves can have a directivity.

The apparatus may further include a fitting member which is fitted between the propagation passages in a straight or diagonal direction facing the propagation direction control projection to block the propagation passage in a predetermined direction to control the diffusion movement direction of the propagation. It is done.

In addition, the fitting member is characterized in that a single triangular panel shape or a triangular panel shape consisting of the "s" shape is configured in an integral shape in four radial directions at equal intervals with respect to the central axis.

In addition, the fitting member is characterized in that formed in a starfish shape so that a plurality of bones that are formed in the downward direction from the upper vertex.

In addition, the fitting member, characterized in that formed of a metal thin film material having an elasticity that is easy to fit between the control projections.

In addition, the fitting member is characterized in that the coating is easy to reflect the plating.

As described above, when providing an electronic device case according to the present invention, it is possible to detect only a specific part desired by adjusting the scanning direction of radio waves without being limited to the sensing distance and direction, and to enable the adjustment of the sensing direction. By constructing the internal case structure of the electronic device, it is possible to easily control the propagation movement direction and the diffusion range. That is, it is possible to solve the problem of radio wave interference during space movement and to increase the propagation spread and control efficiency.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the electronic device case structure equipped with a motion sensor according to the present invention.

1 is a schematic configuration diagram of an internal body of an electronic device, FIG. 2 is a view illustrating an internal structure of an electronic device case according to the present invention, and FIG. 3 illustrates an embodiment of an electronic device internal fitting member shape according to the present invention. 4 is a block diagram showing a case structure coupled to the fitting member of the shape of Figure 3, Figures 5 to 7 is a view showing another embodiment of the fitting member shape according to the present invention, Figure 8 7 is a block diagram showing a case structure combined with the fitting member of the shape.

First, a configuration for sensing a substrate 210, a chip 220, and a plurality of RF motion sensors in which an integrated circuit of an electronic device internal body 200 according to the present invention is formed will be described with reference to FIG. 1. However, since the present invention is the core structure of the electronic device case, the configuration of the main body will be described briefly.

The electronic device of the present invention is a motion sensing function using a microwave sensor, and the antenna unit 230 is configured to implement an antenna transmitter and an antenna receiver as a single circuit on a plane, and an amplifier and a controller The present invention relates to a structure of a case 100 of an electronic device having an RF sensor applied to a sensing sensor module that implements the shape of a one chip (220) to simplify the overall motion sensing module structure and reduce its size.

That is, the control unit is not implemented as a complicated control logic circuit on the module substrate 210 by the conventional micom method, but by implementing the control unit as a simple One Chip 220 structure to be mounted on the sensing module substrate 210. It is possible to manufacture a motion detection module with a simple structure, thereby securing price competitiveness, and can be applied to a motion detection module having a structure that is less constrained by installation, that is, an electronic device having an RF sensor that can be configured with a minimum board size and a module circuit. It relates to the structure of the case 100 of the device.

However, such a main body circuit configuration is only one preferred embodiment, and the scope of rights should not be understood.

To this end, an RF motion sensing signal transmission and reception circuit and a logic circuit (not shown) are formed on the internal sensing module substrate 210 of the electronic device, and a main board incorporating an ultra-high frequency resonator, an antenna unit 230, and an amplification circuit is provided. Forming. In this case, preferably, the lighting power source is configured between DC 7V and 15V, and the output signal is between 10.50 Ghz and 10.55 Ghz.

Accordingly, the motion-sensing RF sensor in this design follows the international standard distribution frequency with a frequency of 10.525 GHz, and its size is miniaturized to 4 x 4.5 cm ² , and the sensing distance is more than five times that of the conventional pyroelectric infrared sensor. It was configured to reach a wide 20m.

The motion sensing method using the motion detection RF sensor in the present invention is briefly described as follows.

First, a low microwave (microwave) radio wave is transmitted through a transmitting antenna to receive a radio wave reflected by a sensing object as a receiving antenna. At this time, when the movement of the object is detected by the microwave motion sensor, the reflected microwave wave (frequency) is carried on the transmission wave to the receiving antenna, and the reflected microwave wave is mixed with the transmitting microwave wave. The low frequency voltage is calculated at the output stage.

Hereinafter, referring to FIG. 2, the structure of the electronic device case 100 fitted into the main body 200 on which the module having the motion sensor is mounted will be described.

As shown in Figure 2, the inner shape of the case 100 according to the present invention is a wire-shaped arc-shaped structure having a curvature, one side of the case 100 has one or more radio wave movement through hole 120 for improving the transmission and reception sensitivity of the radio wave Configure. This is a configuration in consideration of the radio wave detection area setting and the radio wave expansion range, in this case, the number of the configuration of the through hole 120 and the formation position thereof can be variously set according to the required place and installation purpose of the electronic device.

In addition, the case 100 is configured in a circumferential direction of the end of the diameter of the electronic device so as to be fitted so as to be coupled to each other in the circumferential direction of the inner body portion 200 of the electronic device. This fitting combination is general and the description of the detailed fitting configuration is omitted.

On the other hand, in the present invention to the center of the inner wall of the case 100 to configure the propagation direction control projections 110 configured to have a cross-shaped internal propagation path 150 in the central region 130. In this case, it is preferable to configure the surface facing the projections 110 of the "b" shape so as to face each other at a predetermined interval at a 90 ° angle in four directions (east, north, south, north direction).

According to the shape of the protrusion 110, a propagation path 150 having a valley shape having a predetermined linear structure is formed at the center of the horizontal protrusion and the vertical protrusion so that the diffusion direction when propagating using the protrusion 110 and the passage 150 is performed. To improve control and diffusion efficiency. In this case, it is preferable that the inner wall material of the case 110 is formed of a synthetic plastic material coated with a reflective material to serve as a reflecting plate.

In addition, one side of the disc-shaped main body 200 coupled to the case 100 includes a sensor (not shown) having a motion sensor embedded therein, and a sensor (not shown) of the sensor 100. Is formed on one side of the main body 200, and the internal main body 200 forms a logic circuit capable of transmitting and receiving a sensing signal, and forms a main board incorporating an ultra-high frequency resonator, an antenna, and an amplifying circuit. .

Meanwhile, as another embodiment, as shown in FIGS. 3 and 4, the passage 150 is fitted into the straight or diagonal direction facing the propagation direction control protrusion 110 to block the propagation path in a predetermined direction. The fitting member 170 may control the diffusion movement direction of the radio wave may be further configured.

The fitting member 170 serves to increase the spreading and control efficiency of the inside of the electronic device during the transmission and reception according to the transmission and reception antenna configuration of the antenna unit 230. That is, in consideration of the electronic device installation area and the detection range, it can be selectively configured according to the internal propagation diffusion range and direction setting for motion sensing.

In this case, as shown in Figure 4, the fitting member 170 is preferable because it is excellent in the propagation direction control efficiency in the case of forming a starfish shape so that a large number of valleys that are integrally downward in the downward direction from the vertex An example is shown. However, this is only a preferred embodiment shape of the fitting member 170 shape of the fitting member 170 is not limited to this shape will be obvious too. That is, as shown in Figs. 5 to 7 it is possible to configure a fitting member having a different shape from that of Fig. 3, which will be described in more detail, the fitting member 170, a single triangular panel consisting of a long "s" shape The shape or the triangular panel shape may be configured in an integral shape in four radial directions at equal intervals based on the central axis. In this case, in the case of a single panel shape as shown in FIG. 5, the protrusion 110 is fitted into the passage 150 in a horizontal or longitudinal direction.

8 illustrates a configuration of the case 100 to which the fitting member 170 of FIG. 7 is coupled. That is, in the case of the fitting member 170 having four triangular panels formed in a radial shape, the fitting coupling to the center of the passage 150 is facilitated.

In addition, the fitting member 170 is preferably formed of a metal thin film material having elasticity that is easily fitted into and coupled between the control protrusions 110, and the fitting member 170 is coated with a plating material that is easily reflective. It is more preferable to use. In this case, the copper tape may be attached.

In the above embodiment, the fitting member is separately configured and used, but the case may be manufactured by integrally configuring the fitting member having directionality as well as the protrusion 110.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the terms or words used in the present specification and claims are not to be construed as being limited to ordinary or dictionary meanings, and are consistent with the technical spirit of the present invention. It must be interpreted as meaning and concept. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there are equivalents and variations.

1 is a schematic configuration diagram of an internal body of an electronic device

2 is a view showing an embodiment of the internal structure of the electronic device case according to the present invention

Figure 3 is a view showing one embodiment of the electronic device case inner fitting member shape according to the present invention

4 is a block diagram showing a case structure coupled to the fitting member of the Figure 3 shape

5 and 6 are views showing another embodiment of a fitting member shape according to the present invention

Figure 7 is a block diagram showing a case structure coupled to the fitting member of the Figure 6 shape

<Description of Symbols for Main Parts of Drawings>

100: electronic device case 110: protrusion

120: through hole 130: central area

150: radio wave path 170: fitting member

200: main body 210: substrate

220: chip 230: antenna unit

Claims (7)

In the case structure of the electronic device in which the sensing sensor unit is mounted on one side of the main body portion which is a disk-like constituting the sensing signal transmission and reception circuit and logic circuit, the RF motion sensor of the detection sensor unit is formed on one side of the main body portion ,  At least one radio wave movement through hole is formed in the case to improve the transmission and reception sensitivity, and the inner wall of the case faces each other at regular intervals at 90 ° angles in four directions (east, west, north, and south) so that a cross-shaped inner wave passage is provided. As can be seen, a case structure of an electronic device with an RF motion sensor, characterized in that the radio wave direction control projections are configured such that the “b” shaped projection surfaces face each other so that radio waves can have directionality. The method of claim 1, Further comprising a fitting member which is fitted between the propagation passage in a straight or diagonal direction facing the propagation direction control projection to block the propagation passage in a predetermined direction to control the diffusion movement direction of the propagation. Case Structure of Electronic Device with RF Motion Sensor 3. The method of claim 2, The fitting member is provided with an RF motion sensor, characterized in that a single triangular panel shape consisting of a "s" shape or the triangular panel shape integrally formed in four radial directions at equal intervals with respect to the central axis. Case structure of electronic equipment The method of claim 3, The fitting member, Case structure of an electronic device having an RF motion sensor, characterized in that formed in a starfish shape so that a plurality of valleys that extend downward from the upper vertex The method according to claim 3 or 4, The fitting member, Case structure of an electronic device having an RF motion sensor, characterized in that formed of a metal thin film material having elasticity that is easy to fit between the control projections The method of claim 5, The fitting member is a case structure of an electronic device having an RF motion sensor, characterized in that the coating is coated with a material that is easy to reflect delete

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