KR20200009225A - Magnetic force detecting sensor - Google Patents

Abstract

The present invention relates to a magnetic force sensor detecting a magnetic field generated when power is applied by being fastened to the outer circumferential surface of a power cable which is not stripped. The magnetic force sensor comprises: a substrate including a magnetic sensor which is placed on the outer circumferential surface of the power cable to measure a magnetic field, an amplifier which amplifies the measured magnetic field, and a connection port to which the cable is fastened to transmit an amplified magnetic signal to an external device; a housing having the substrate disposed therein, having a semicircular contact portion formed therein in a longitudinal direction to partially surround the outer circumferential surface of the power cable, having a sensor hole formed in the contact portion so that the magnetic sensor is inserted to be exposed to the outside, and having a through hole formed in one side end in the longitudinal direction so that the connection port is exposed to the outside; and a fastening portion disposed in a fastening groove formed along the width direction circumference of the housing to fasten the housing to be in close contact with the power cable. With the configuration, the present invention can detect whether the power is applied more easily and safely.

Description

Magnetic Force Sensors {MAGNETIC FORCE DETECTING SENSOR}

The present invention relates to a magnetic force sensor, and more particularly, to a magnetic force sensor that can detect the magnetic force generated when the power is applied by tightly fastening to the outer peripheral surface of the power cable without peeling the covering of the power cable.

In general, louvers are designed to reduce external visual exposure where ventilation is required, and to block sunlight and prevent rain from raining.

When designing a building, the shape or tilt of the wing may vary depending on its purpose or use. It is usually applied to air-conditioning rooms, parking lots, factory walls, and machine rooms of apartment rooftops. In some cases, sliding doors are installed inside the winter to prevent freezing, but the effect of blocking noise and insulation cannot be expected.

Conventionally, in connection with a technology of automatically opening a louver, the louver is sensed by detecting the operation of the outdoor unit using a system (Korea Patent No. 1550157) or a temperature condition that automatically opens the louver by detecting the operation of the outdoor unit through a vibration sensor. Although the configuration of a system for automatically opening the system (Korean Patent No. 1474841) is disclosed, when the vibration sensor is used, there is a problem that the louver can be opened by vibration caused by other causes than the vibration caused by the operation of the outdoor unit. In the case of using a temperature condition, the louver may be opened when the temperature rises due to a change in external temperature in summer, rather than a temperature increase due to the operation of the outdoor unit.

In order to solve this problem, conventionally, a current sensor is installed in a power cable for supplying power to the outdoor unit, and the louver is opened when a current is applied to the outdoor unit.

However, in the conventional current sensor, as shown in FIG. 1, the current sensor should be installed on one wire after removing the covering of the power cable. In other words, the power cable is provided in two wires of two wires or three wires of three wires, and a plurality of wires are wrapped with a covering to provide a single power cable. In order to detect that the current is applied to the power cable, the conventional current measuring sensor 1 has to be stripped of the power cable and installed on a single wire to measure the current. There is a problem.

The present invention has been made to solve the above problems, to provide a magnetic force sensor that can detect the magnetic force generated when the power is applied to close contact with the outer peripheral surface of the power cable without peeling the covering of the power cable. Its purpose is.

In order to achieve the above object, the magnetic force sensor according to the preferred embodiment of the present invention is fastened to the outer circumferential surface of the power cable without stripping the cover and detects a magnetic field generated when the power is applied, and is disposed on the outer circumferential surface of the power cable. A substrate having a magnetic sensor for measuring a magnetic field, an amplifier for amplifying the measured magnetic field, and a connection port to which a cable is fastened to transmit the amplified magnetic signal to an external device; The substrate is disposed therein, and a semicircular contact portion is formed in a longitudinal direction to partially surround the outer circumferential surface of the power cable, and a sensor hole is formed in the contact portion so that the magnetic sensor is inserted and exposed to the outside. A housing in which a through hole is formed at one end of the longitudinal direction such that the outer surface is exposed to the outside; And a fastening part disposed in a fastening groove formed along a width direction circumference of the housing to fasten the housing in close contact with a power cable.

Here, the housing, one side is opened to accommodate the substrate, the contact portion is formed on the other outer peripheral surface, a plurality of hooks protrudingly formed along the circumference toward one side, the first fastening groove is constant along the width direction circumference A lower housing having a plurality of spaced apart intervals, the lower housing having a plurality of supporting parts supporting both sides of the substrate so that the received substrate does not shake; And a plurality of hook grooves to which the hook is inserted and fastened to a plurality of hook grooves formed along a circumference thereof, and fastened to one open side of the lower housing, and a plurality of second fastening grooves are formed on both sides of the width direction to be connected to the first fastening grooves. And an upper housing formed such that a plurality of pressing parts for pressing the substrate to be tightly fixed to the support part are positioned above the support part.

According to the magnetic force sensor according to the present invention, it is possible to detect the magnetic force generated when the power is applied without peeling off the covering of the power cable, it is possible to obtain the effect of detecting whether the power is more easily and safely.

1 is a view schematically showing a state in which a conventional current sensor is installed in a power cable,
2 is a perspective view schematically showing a state in which a magnetic force sensor is installed in a power cable according to an embodiment of the present invention;
3 is a perspective view schematically showing a magnetic force sensor according to an embodiment of the present invention;
4 is an exploded perspective view schematically showing a magnetic force sensor according to an embodiment of the present invention;
5 is a schematic view showing an extract of the lower housing in the magnetic force sensor according to an embodiment of the present invention.

To help understand the features of the present invention, the magnetic force sensor associated with the embodiment of the present invention will be described in more detail below.

In order to help understand the embodiments described below, in adding reference numerals to the components of the accompanying drawings, it is noted that the same reference numerals for the same components, even if displayed on different drawings as possible. . In addition, in describing the present invention, if it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, with reference to the accompanying drawings will be described a specific embodiment of the present invention.

2 is a perspective view schematically showing a state in which a magnetic force sensor is installed in a power cable according to an embodiment of the present invention, Figures 3 and 4 are a perspective view and an exploded perspective view schematically showing the magnetic force sensor, 5 is a view schematically showing the lower housing from the magnetic force sensor.

2 to 5, the magnetic force sensor 100 according to the embodiment of the present invention may be fastened to the outer circumferential surface of the power cable 10 that does not peel off the cover to detect the magnetic force generated when the power is applied.

In general, as shown in FIG. 2, the power cable 10 is provided with one line of two power lines 11 wrapped by a sheath 12. Conventionally, a current sensor is installed to detect that a current is applied to the power cable 10. The conventional current sensor is inconvenient to be installed on one power line 11 after removing the cover 12. There was a safety problem.

Accordingly, in the present invention, the two power cords 11 are installed on the outer surface of one power cable 10 wrapped by the sheath 12 without breaking the sheath to detect a magnetic field generated when the current is applied. The electronic device may detect that power is applied.

More specifically, the magnetic force sensor 100 is a substrate 200 is provided with a magnetic sensor 210, the housing 300 is accommodated therein, and the housing power cable 10 It includes a fastening portion 400 to be fastened to.

Here, the magnetic sensor 210 detects and measures magnetic energy, which is a current generated in the power cable 10 due to electromagnetic induction. The magnetic sensor 210 measures a magnetic force by using various effects of varying physical properties, and any conventional magnetic sensor may be applied. However, when two power lines are simultaneously recognized, a very weak magnetic field is generated due to a change or attenuation of the magnetic field. Therefore, a magnetic sensor capable of detecting a fine magnetic field is preferably used.

The substrate 200 is disposed on the outer circumferential surface of the power cable 10 to measure the magnetic force of the magnetic sensor 210, an amplifier (not shown) to amplify the measured magnetic force, and to transmit the amplified magnetic signal to an external device. A connection port 220 to which the cable is fastened is provided.

That is, when the magnetic sensor 210 detects a minute magnetic force, the amplifier amplifies the magnetic signal and transmits the magnetic signal to an external device through a cable connected to the connection port 220.

In addition, the housing 300 has the substrate 200 disposed therein, a semicircular contact portion 311 is formed in a longitudinal direction to partially surround the outer circumferential surface of the power cable 10, and the magnetic sensor 210. The sensor hole 312 is formed in the contact portion 311 to be inserted and exposed to the outside, and the through hole is formed at one end of the longitudinal direction so that the connection port 220 is exposed to the outside.

More specifically, the housing 300 is divided into an upper housing 320 and a lower housing 310 so as to support the substrate 200 therein without shaking.

The lower housing 310 has one side open to accommodate the substrate 200, the contact portion 311 is formed on the other outer circumferential surface, and a plurality of hooks 313 protrude along the circumference toward one side, and the width thereof is wide. A plurality of first fastening grooves 314 are spaced apart at regular intervals along a circumferential direction, and a plurality of support parts 315 are formed to support both side surfaces of the substrate 200 so that the received substrate 200 is not shaken.

In addition, the upper housing 320 is provided with a plurality of hook grooves 323 along the circumference such that the hook 313 formed in the lower housing 310 is inserted and fastened to an open side of the lower housing 310. Is fastened, a plurality of second fastening grooves 324 are formed on both sides in the width direction to be connected to the first fastening grooves 314, the substrate 200 is fixed to the support portion 315 in close contact with the substrate 200 A plurality of pressing portions 325 for pressing) are formed to be located above the support portion 315.

That is, the magnetic sensor 210 is inserted into the sensor hole 312 formed in the contact part 311 while the substrate 200 is disposed on the support part 315 through one open side of the lower housing 310. When the substrate 200 is positioned, and the upper housing 320 is placed on an open side of the lower housing 310 and pressed, the hook 313 formed on the lower housing 310 is the upper housing 320. Inserted into the hook groove 323 formed in the) is fastened, the pressing portion 325 formed in the upper housing 320 presses the substrate 200 to support the substrate 200 to the support portion 315 It will be fixed in close contact.

When the upper housing 320 and the lower housing 310 are fastened in this manner, the first fastening groove 314 formed on the outer circumferential surface of the lower housing 310 and the second fastening formed on the outer circumferential surface of the upper housing 320. The grooves 324 are connected to each other so that when the housing 300 is fastened to the power cable 10, the fastening part 400 is provided to be fastened while wrapping the housing 300 and the power cable 10 together.

The fastening part 400 is disposed in fastening grooves 314 and 324 formed along the width direction circumference of the housing 300 to fasten the housing 300 to be in close contact with the power cable 10. That is, the fastening part 400 is formed of the lower housing 310 and the upper housing 320 in a state in which the contact part 311 formed in the lower housing 310 is in close contact with the outer circumferential surface of the power cable 10. 1 is fastened while surrounding the power cable 10 in a state of being inserted into the fastening groove 314 and the second fastening groove 324. Through this, the fastening part 400 can be prevented from being separated in the longitudinal direction from the housing 300 can maintain a more stable fastening state.

Here, the fastening part 400 is conventionally used such as a Velcro cable, a cable tie, etc. to facilitate the detachment.

For example, the magnetic force sensor according to the embodiment of the present invention may be used to detect that power is applied to the outdoor unit by being fastened to a power cable of the outdoor unit. That is, the louver control device is installed in the outdoor unit or the louver window of the air conditioner, and detects when the outdoor unit is operated, and is provided to control the movable part for rotating the louver so that the louver opens the vent.

Therefore, when the magnetic force sensor is connected to the power cable of the outdoor unit and connected to the louver control device through a cable connected to the connection port, when power is applied to the outdoor unit, a current flows in the power cable, and the magnetic force installed in the power cable When the sensor detects a magnetic force generated therethrough and transmits a signal indicating that power is supplied to the outdoor unit to the louver controller, the louver controller may control the louver to open the vent by operating the movable part. When the outdoor unit is powered off, the magnetic force sensor does not detect any more magnetic force, and thus transmits a signal indicating that the outdoor unit is powered off to the louver controller, and the louver controller operates a movable part to allow the louver to vent the vents. Control to close.

The magnetic force sensor according to the embodiment of the present invention is installed in the power cable of various electronic devices in addition to the louver control device may be used for automatic control or safety check of the electronic device.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: power cable 11: power line
12: sheath
100: magnetic force sensor 200: substrate
210: magnetic sensor 220: connection port
300: housing 310: lower housing
311: contact portion 312: sensor hole
313: hook 314: first fastening groove
315: support 320: upper housing
323: hook groove 324: second fastening groove
325: pressure portion 400: fastening portion

Claims (2)

In the magnetic force sensor for detecting the magnetic field generated when the power is applied to the outer peripheral surface of the power cable without stripping the sheath,
A substrate having a magnetic sensor disposed on an outer circumferential surface of the power cable for measuring a magnetic field, an amplifier for amplifying the measured magnetic field, and a connection port to which the cable is fastened to transmit the amplified magnetic signal to an external device;
The substrate is disposed therein, and a semicircular contact portion is formed in a longitudinal direction to partially surround the outer circumferential surface of the power cable, and a sensor hole is formed in the contact portion so that the magnetic sensor is inserted and exposed to the outside. A housing in which a through hole is formed at one end of the longitudinal direction such that the outer surface is exposed to the outside; And
A fastening part disposed in a fastening groove formed along a width direction circumference of the housing to fasten the housing in close contact with a power cable;
Magnetic force sensor comprising a. The method of claim 1,
The housing is
One side is opened to accommodate the substrate, the contact portion is formed on the other outer circumferential surface, a plurality of hooks protrude along the periphery toward one side, the first fastening groove is formed in a plurality spaced apart at regular intervals along the width direction circumference A lower housing having a plurality of support portions supporting both sides of the substrate so that the received substrate is not shaken; And
A plurality of hook grooves into which the hook is inserted and fastened are provided along a circumference and fastened to an open side of the lower housing, and a plurality of second fastening grooves are formed on both sides of the width direction to be connected to the first fastening groove. An upper housing formed such that a plurality of pressing portions pressing the substrate to be tightly fixed to the supporting portion are positioned above the supporting portion;
Magnetic force sensor comprising a.

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