KR200382407Y1 - Angle changable type sensor device for energy savimg fluorescent lamp builted in sensor - Google Patents

Abstract

The present invention solves the economic problem that the sensor lamp should be disposed of when the lamp of the sensor lamp which is equipped with a conventional sensing sensor that realizes improved power saving efficiency and security effect ends. In order to solve the limitation of the detection range of the sensor due to the conventional fixed angle, the sensor device is detachably provided with a sensor device that detects an object by receiving light. Quickly and accurately adjust the height by a certain interval by vertical reciprocating movement according to the indoor environment such as ceiling height, room size, detection range, etc. By varying the irradiation angle and the light receiving angle, Relates to a copper or detecting a blind spot is easy to adjust the angle of the sensor detecting the energy-saving lamp capable of eliminating the sensor device.

Description

Angling changable type sensor device for energy savimg fluorescent lamp builted in sensor}

The present invention relates to a sensor device that can easily adjust the sensing angle of an energy-saving sensor lamp, and more particularly, when a sensor lamp including a conventional sensing sensor integrally implementing an improved power saving efficiency and security effect reaches the end of lamp life, In order to solve the economic problem that must be discarded as described above, the sensor device for detecting the object by irradiating the light beam with the detection object and receiving the reflected light is detachably provided to solve the limitation of the detection range of the sensor due to the conventional fixed angle. In order to detect the height of the ceiling, the size of the room, and the detection of the ceiling by using the fastening means such as coupling protrusions, fastening holes, and teeth formed in a series at equal intervals in each case, the inner case in which the sliding device is inserted into the outer case is inserted into the outer case. According to indoor environment such as range A quick relates to the accurate irradiation angle range and can be detected by varying the wide angle to the expansion and contraction adjustment hameuroseo malfunction and detecting a blind spot is easy to adjust the angle of the sensor detecting the energy-saving lamp capable of eliminating the sensor device.

It is installed in apartment houses or apartment houses, offices, etc., and automatically lights up only when there is a person, and automatically turns off when there is no person, and detects the human body by automatically turning on / off the lamp for a certain time. As a sensor-type energy-saving lighting fixture, the applicant's preliminary registration design utility model registration No. 0334515 "Power saving type automatic flashing lamp with integrated sensor" is turned on or off only for a set time regardless of the presence or absence of a person. It is necessary to attach the lamp to a dedicated lighting device equipped with a plurality of sensors such as an illuminance sensor and an infrared sensor, so that the inconvenience and inconvenience of replacing and repairing the lamp, inconsistency, complexity of the structure, enlargement of the luminaire, Increasing the lamp life by improving all the problems such as the decrease of productivity due to the increase of labor It is a high-efficiency energy-saving sensor lamp that can increase power consumption and dramatically reduce power consumption.

As the above-described preliminary registration of the applicant, "Power saving type automatic flashing lamp with integrated sensor" has a built-in lighting control circuit which controls the flashing light by a predetermined program, and detects the illuminance sensor and the flashing time. It is equipped with a timer to adjust the integrally formed in the center between the socket body and the plurality of U-shaped lamps electrically connected by the connecting screw formed at one end to form a high-light reflecting shade on the outside all around the human body at the end of the sensor support extending a predetermined length The base of which the infrared sensor for detecting the movement protrudes downwardly is formed integrally or separately, and the lamp is automatically flashed when the power is supplied by the electrical connection of the socket. The lamp may further include a transparent cover. Shorter lifespan than the sensor by forming the sensor as a separate type It is economical by replacing the bay separately, and the high-intensity reflector with high brightness coated with high reflectance improves the lighting efficiency by preventing overlapping reflection or malfunction of the sensor due to the interference of light emitted by each lamp. By lowering the energy consumption, the service life can be extended, resulting in a combined synergy effect that not only saves energy but also reduces maintenance costs.

However, the above-mentioned prior art is a configuration in which the sensor is fixedly mounted to one end of the sensor support, so that the angle of the light beam irradiated from the infrared sensor device can not be adjusted, so that only a detection object of a specific distance can be detected. As it is impossible to secure a wide range of detection area due to expansion and contraction, an area where no infrared rays are emitted is generated. Therefore, in order to expand the detection area, a plurality of lamps should be installed at different positions. When it is necessary to reduce and adjust the detection range according to the installation location and installation status such as the installation of multiple lamps in a small space or adjacent male and female toilets where interference occurs, it is not possible to reduce the detection range, which is a malfunction. Loss and hassle, waste of energy, There is a problem that causes other productivity degradation.

The present invention has been made to solve the above-mentioned problems, and the economical problem that the sensor lamp with a conventional detection sensor that implements an improved power saving efficiency and security effect, the sensor should also be discarded when the lamp life expires. In order to solve the problem that the detection range of the sensor is limited by the conventional fixed angle to provide a detachable sensor device that detects the object by irradiating light rays to the detection object and receiving the reflected light, The height of the ceiling, the size of the room, the detection range, etc. are formed by using the fastening means such as coupling protrusions, fastening holes, and interlocking teeth, which are formed as an overlapping assembly inserted and received in the outer case and formed at equal intervals in series on each assembly component. Rapid adjustment by height adjustment by regular interval by vertical reciprocating movement according to indoor environment It is an object of the present invention to provide a sensor device that can easily adjust the detection angle of an energy-saving sensor lamp that can solve a malfunction or a blind spot by quickly and precisely expanding and reducing the detection range by varying the irradiation angle and the light receiving angle.

Detailed description of the configuration of the present invention for achieving the above object by the accompanying drawings as follows, and a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the design will be omitted and the same components The same reference numerals are used.

The present invention has a built-in lighting control circuit (not shown) and is equipped with an illuminance sensor 11 for detecting ambient illuminance and a timer 12 for adjusting a blinking time integrally, thereby being electrically connected by a connecting screw 13 formed at one end. A sensor for detecting the movement of a person at the end of the sensor support 23 having a high illuminance reflecting layer 22 on all sides between the socket body 10 and the plurality of U-shaped lamps 21 connected to each other and extending a predetermined length. In the energy-saving sensor lamp that the base (20) protruding downwards is formed detachably and is powered by the electrical connection of the socket and blinks automatically.

The detachable sensor device 30 detachably mounted to the sensor support 23 has a bracket function in which a sensor 31 is built and an elastic fastening piece 33 having a plurality of hemispherical locking protrusions 32 on both outer circumferences thereof. In order to fit the funnel-shaped interpolation case 34 and the locking projection 32, a plurality of locking holes 35 are provided on both sides of the outer circumference at equal intervals in series, and a through-hole 36 for irradiating sensor light is formed on the front surface. The outer case 37 that accommodates the case 34 inside is formed as an overlapping assembly so that the irradiation angle and the light receiving angle can be changed quickly and accurately by adjusting the height by reciprocating in the vertical length direction, so that the detection range can be expanded and reduced quickly and accurately. It can be flexibly adjusted according to the indoor environment such as ceiling height, room size, detection range, etc., to eliminate malfunctions caused by interference or blind spots. It is a sensor device that can easily adjust the detection angle of energy-saving sensor lamp.

In addition, as described above, the detachable sensor device 30 detachably mounted to the sensor support 23 is formed as an overlapping assembly with an outer case 37 for accommodating the interpolation case 34 therein, and the height is vertically extended. As another embodiment to quickly and accurately vary the irradiation angle and the light receiving angle by forming the toothed portion 41 is formed on the elastic fastening piece 33 of the interpolation case 34 and meshed to the outer case 37 correspondingly engaged By forming the unit 42 to form a mutually matched engagement coupling structure to be more uniform, fine, and can adjust the detection range at various intervals, there is an effect that can be fastened conveniently and securely.

Hereinafter, preferred embodiments of the present invention will be described in detail with the accompanying drawings.

The present invention has a built-in lighting control circuit (not shown) as a basic configuration by the connection screw 13 formed at one end with an integrated illumination sensor 11 for detecting peripheral illumination and a timer 12 for controlling the blinking time. A socket body 10 electrically connected to each other, and a plurality of U-shaped lamps 21 are provided with a high illuminance reflecting layer 22 on all sides, and a sensor for detecting movement of a person at the end of the sensor support 23 extended by a predetermined length. The sensor device 30 separately forms a base 20 protruding downward to form an energy-saving sensor lamp that is powered by an electrical connection of a socket and blinks automatically.

This is a known configuration that can be provided with a separate transparent cover 24 provided with a through hole 25 to accommodate the sensor sensor 30 protruding as necessary, and installed in the passage or the entrance of the apartment When the sensor 31 is detected, it acts as a lamp equipped with a sensor to be turned on for a predetermined time, in particular, as a highly efficient light reflecting means, the high illuminance reflective layer 22 is coated with silver or aluminum deposited on the surface of the lamp Blocking the inner light of (21) and reflecting without interference of light between the lamps to prevent the malfunction of the detection sensor (infrared sensor) and has an effect of increasing the lighting efficiency.

However, the energy-saving sensor lamp has the security effect incidentally to the energy-saving effect by the above-described configuration, the fixed angle of irradiation of the light emitted from the sensor of the sensor device is a fixed angle, the detection range of the sensor is limited, so that the ceiling height, Depending on the size of the room, the detection range, etc., the irradiation angle and the light receiving angle are varied so that the detection range cannot be expanded or reduced and malfunctions such as overlapping reflections that are sensitive to interference caused by multiple proximity sensors occur or are detected. There is a problem that a blind spot that does not identify the object occurs.

In order to solve the above problems, the present invention is an assembly in which the intermittent case 34 having a support bracket function is inserted into the outer case 37 with a seal sensor device 30 attached to the sensor support 23. As a fastening means that can be formed and moved to adjust the gap, it is possible to adjust the height by a regular interval by vertical reciprocating motion by using coupling protrusions, fastening holes, interlocking teeth, etc. formed at equal intervals in series in each assembly. It is to form a structure that expands and contracts the sensing range flexibly by varying the irradiation angle and the light receiving angle quickly and accurately.

The detection sensor device 30 is formed in a removable removable sensor support 23, so that despite the frequent replacement of the short lamp life can be used for a long time and is convenient to repair in case of failure.

Seal sensor 30 according to an embodiment of the present invention is formed so that the interpolation case 34 and the outer case 37 overlap and sliding the variable length of the interpolation case 34, the interpolation case 34 The elastic fastening pieces 33 formed on both sides of the c) are partially cut to form an elastic force, thereby enabling elastic coupling with the exterior case 37, and the sensor 31 is embedded as a hollow space part of the interpolation case 34. The light rays emitted from the sensor 31 are irradiated to the detection object by being irradiated through the through-hole 36 cut into a predetermined length on the front of the outer case 37, the through-hole 36 blocks the reflected light beam and the irradiation angle of the diagonal line In the outer circumference of the outer case 37, a plurality of locking holes 35 are formed at equal intervals in a row, so that the locking protrusions of the interpolation case 34 are inserted into the outer case 37 in the locking hole 35. Elastically fitted and used By operating to move reciprocally in the vertical external case 37 to adjust the height hameuroseo The peristaltic sensor light irradiation it is possible to limit the angle of each.

This is a simple operation of pressing the hemispherical locking projection 32 is a configuration in which the locking projection 32 of the plurality of locking holes 35 is caught in one of the locking holes 35 from the side, the height is adjusted, Figure 4 is the subject innovation 4A is a diagram illustrating a movement state of a sensing sensor device according to an embodiment of the present disclosure, and FIG. 4A detects the through-hole 36 and the sensor 31 close to each other to adjust a sensing angle by blocking sensor light emitted from the sensor 31. 4b shows the width of the detection range by reducing the detection angle on the left and right while extending the length by removing the interpolation case 34 from the outer case 37 and maximally separating the sensor 31 from the through hole 36. At a minimum, the distance between the latch holes 35 is densely formed (high density), and when the strands of the sensor light diverging from the sensor 31 are increased, they are finer in accordance with the installation location and installation conditions. It is able to precisely adjust the detection range to be able to multi-stage fire detection minimizes the blind spot or malfunction.

In the sensor sensor device 30 according to the present invention, as the assembly overlapping each other, the material of the interpolation case 34 and the exterior case 35 is formed of a synthetic resin material having appropriate strength and elasticity at the same time so that the locking protrusion 32 is formed. Since the interlocking case 34 is elastically supported and coupled to the locking hole 35, the interpolation case 34 smoothly slides in and out of the space portion of the exterior case 37 to facilitate height adjustment according to length extension and reduction. The locking holes 35 are formed at appropriate height intervals in accordance with the size of the through hole 36 which limits the irradiation angle of the light beam (large angle), and thus is multistage (for example, sensor irradiation angles of 30 °, 60 °, 90 °, and 120 °). Fine angle adjustment is possible.

That is, for example, light (rays) emitted from the left and right ends and ends of the lens surface of the sensor 31 cross each other and the irradiation angle is limited by the through hole 36 (shielding angle). As shown in FIG. 4B, the light is emitted within a right and left angle in contact with the end and the end of the parabola in a state where the detection range is maximized and the detection range is minimized as shown in FIG. 4B. The detection range is enlarged and reduced by adjusting the height in the state where the indoor sensing distance (height) is set and the detection angle is adjusted to the left and right.

In addition, the transparent cover 24 forms a through hole 25 on the front of the transparent cover 24 so that the sensor sensor 30 is formed to protrude a predetermined portion to the outer center portion of the transparent cover 24.

And the locking hole 35 for receiving and engaging the push button-type locking projection 32 is impossible to form a continuous locking hole due to the molding characteristics to be spaced apart a predetermined interval, so in the field that requires more precise interval adjustment, As an example, as shown in FIGS. 5 and 6, a plurality of teeth are provided on the elastic fastening piece 33 of the interpolation case 34 as a toothed fastening means that can be formed without punching a catching hole in the outer case 37. 41) and having teeth 42 engaged with the outer case 37 to be coupled to each other to form the same interlocking coupling structure, and by forming the fastening means in this way, fine multi-level height adjustment is possible and the sensor intersects. It is possible to extend the strands of light, so that the detection range is adjusted to finer and more variable density. Resilient and convenient variable length operation allows for secure fastening, enabling selective adjustment of a wide variety of sensing ranges.

The teeth 41 and 42 are formed in a bi-directional structure and are superimposed in series so as to be movable between the interpolation case 34 and the exterior case 37 with mutually identical but opposing engagement types. Assemble with

      By doing so, the present invention enables the lamp to be installed by adjusting the sensing range flexibly with rapid and accurate height adjustment according to the indoor environment such as the height of the ceiling, the size of the room, and the sensing range. It is flickering and saves energy. It is operated without deterioration of lighting efficiency due to interference of light emitted by each lamp, malfunction of sensor or blind spot.

The present invention described above is not limited to the above-described embodiment as various substitutions and changes can be made by those skilled in the art without departing from the technical idea of the present invention. .

The present invention has a sensor device that detects an object by solving an economic problem that the sensor lamp must be disposed of when the lamp reaches the end of its lamp life. In order to eliminate the limitation of the detection range of the sensor to a fixed angle of the irradiation angle emitted by the conventional sensor, the sensor sensor device is formed of an assembly in which an outer case accommodating the interpolation case is overlapped to have a vertical length. It is possible to change the irradiation angle and the light receiving angle with quick and accurate height adjustment in the direction, so that the detection range can be flexibly expanded and reduced, and the installation and convenience of use are realized.The height of the ceiling, the size of the room, the detection range, etc. Flexibly adjust the detection range according to site conditions to prevent malfunction or reduction Since there is an effect that can eliminate the blind area, it is automatically turned on only when there is a person of the prior art, and if there is no person, it is automatically turned off and detects the human body and turns on / off the lamp automatically for a certain time. Combined organically, there is a compound synergy.

1 is a perspective view showing the overall configuration of a composite sensor lamp according to the present invention

2 is a cross-sectional view of the coupling structure of the sensor device according to an embodiment of the present invention

3 is an exploded perspective view of a sensor device according to an embodiment of the present invention;

4 is an operational state diagram of a sensor device according to an embodiment of the present invention;

     4A is a state diagram in which the sensing angle is maximized.

     4B is a state diagram in which the sensing angle is at least reduced;

5 is an exploded perspective view of a sensor device according to another embodiment of the present invention;

6 is a cross-sectional view of the coupling structure of the sensor device according to FIG.

<Explanation of symbols for main parts of drawing>

10: socket body 11: illuminance sensor

12: Timer 13: Connection thread part

20: base 21: lamp

22: high light reflecting layer 23: sensor support

24: transparent cover 25: through hole

30: detection sensor device 31: sensor

32: locking projection 33: elastic fastening

34: interpolation case 35: locking hole

36: Through 37: Exterior case

41: Cogs 42: Cogs

Claims (3)

Socket body 10 and a plurality of U-shaped lamps electrically connected by connection screw part 13 formed at one end with an integrated illuminance sensor 11 for detecting ambient illuminance and a timer 12 for adjusting the blinking time A base 20 having a high intensity reflecting layer 22 on all sides between the sides 21 and a sensor sensor device 30 sensing the movement of a person at the end of the sensor support 23 extending a predetermined length is projected downward. In the energy-saving sensor lamp which is formed separately and automatically blinks when the power is supplied by the electrical connection of the socket, The detachable sensor device 30 detachably mounted to the sensor support 23 is an interpolation in which the sensor 31 is built so that the irradiation angle and the light receiving angle of the sensor can be changed quickly and accurately by adjusting the height. Sensing an energy-saving sensor lamp characterized in that it is formed of a variable length assembly of a fastening structure overlapping the outer case 37 having the case 34 therein and having a through hole 36 for irradiating sensor light on the front surface thereof. Sensor device for easy angle adjustment According to claim 1, wherein the variable length assembly of the sensor device 30 is provided with a plurality of elastic fastening pieces 33 formed with a plurality of hemispherical locking projections 32 on both outer circumference of the interpolation case 34, the outer sheath correspondingly engaged The case 37 also has a plurality of engaging holes 35 formed at equal intervals in series at equal intervals in series on the outer circumferential sides of the interlocking case 34 so as to correspond to the engaging projections 32 of the interpolation case 34. Sensor unit for easy adjustment of the sensing angle of economy-saving sensor lamps The variable length assembly of the sensor sensor device 30 is also formed in the outer case 37 to form a toothed portion 41 on the elastic fastening piece 33 of the interpolation case 34 and to engage with it. Sensor device that can easily adjust the detection angle of the energy-saving sensor lamp, characterized in that the toothed portion 42 is formed to form an interlocking coupling structure