KR100981534B1 - Magnetic sensor - Google Patents

Abstract

The present invention relates to a magnetic sensor, and the magnetic force is offset by the proximity of the actuator 20 made of a ferromagnetic body by being spaced apart from the magnetic 13 at the outer circumference of the reed switch 12 embedded in the sensor body 11. In the magnetic sensor 10 configured to short-circuit the contact of the reed switch 12 with a change to generate an electrical signal, the magnetic 13 is formed in a ring shape, and the inner diameter of the magnetic 13 is the reed switch 12. It is characterized by inserting and fixing the insert tube 14, which holds the center of the reed switch 12 from the inner diameter of the sensor body (11) passing through, the reed switch with the reed switch installed in the sensor body By embedding the ring-shaped magnetic to maintain the contact by magnetic force, there is an advantage that can reduce the design to install a magnet on the actuator separately, the work made of ferromagnetic material By canceling the magnetic force generated by the magnetic in the state in which the sieve is close to the magnetic sensing sensor, the contact of the reed switch is turned off in reverse, thereby generating an electrical signal for performing the operation and control of the next linked device. Accurate operation of the, as well as the effect can be widely used in a wide range of applications.

Magnetic, Sensor, Insert Tube, Actuator, Ferromagnetic

Description

Magnetic sensor {MAGNETIC SENSOR}

The present invention relates to a magnetic sensor, and more particularly, a built-in magnetic integrated in a sensor body in which a reed switch is embedded to facilitate manufacturing, as well as to turn on the contact of the reed switch as a magnetic and operate the magnetic sensor. In the proximity of the sieve, it is a structure that turns off the contact point of the reed switch as a change in the magnetic force value, so that the magnetic sensor can be widely used in the range of generating an electrical signal.

In general, if you look at the type and principle of the magnetic sensor, the internal resistance value increases or decreases according to the magnetic strength to detect the range of the magnetic field, to detect the direction of the magnetic field (polarity judgment), to detect the rotational speed and rotation direction For example, a Hall element that senses a current value or detects whether a magnetic material is present is typically used.

Alternatively, a method using a reed switch and a magnetic directly has been widely used by utilizing a principle of turning on / off the contact of a reed switch by having a magnet (magnetic) close to the position of the reed switch.

For example, the sensor using the magnetic, water level detection, such as a water tank, a chemical liquid storage tank of a relatively large capacity of the humidifier that operates to move up and down the float mounted inside the magnetic according to the water level It is also widely used for various sensors such as positioning for performing the next associated operation depending on the position of the magnetic rod on the working rod side of the hydraulic / pneumatic cylinder used for the industrial or industrial use.

Typically the magnetic and reed switches are separately in the design of each device, and the reed switches are of a fixed type, and the magnetics are applied to the conveying actuator.

This is attached to the detection sensor 100 shown in Figure 1 is connected to the reed switch 103 installed in the sensor body 101 by the wire 102, the front of the sensor body 101 is a reed switch 103 Epoxy resin material (S) for protecting the form is filled and used to fix the sensor body 101 in the set position of the various devices. The sensor 100 as described above may be equipped with a waterproof requirement depending on the device.

The magnetic 201 installed relative to the sensing sensor 100 has a contact state changed from on to off signals when it reaches the reed switch due to the generation of magnetic force due to non-contact with the reed switch 102. The control of the device and the following operation are controlled and the operation can be made.

However, such a magnetic 201 should usually be embedded in the actuator 200 moving to the point where the reed switch 102 is located, or be installed in such a way as to be partially exposed from the surface of the actuator 200. Therefore, the position where the magnetic 201 is embedded with respect to the actuator 200 has to be secured, and there is a disadvantage in that it must be processed to a size that can be embedded.

The above conditions require a design that must be correctly installed on the actuator so that the magnetic can be operated in close proximity to the reed switch side, and the magnetic is reed switch in the vertical or horizontal state where the reed switch is installed. There is a disadvantage in that the parts increase because of the two to be installed so as to be located in front and rear of the.

The present invention has been made in order to solve the above problems, the built-in magnetic to the sensor body is built in the reed switch to facilitate the manufacture, as well as to turn on the contact of the reed switch as a magnetic (On), It is an object of the present invention to be widely used in the range of generating an electrical signal as a structure for turning off the contact of the reed switch as a change in the magnetic force value in the proximity of the actuator.

According to the present invention for achieving the above object, the magnetic is installed on the outer periphery of the reed switch embedded in the sensor body, and the contact of the reed switch is short-circuited by the offset change of magnetic force in accordance with the proximity of the actuator made of ferromagnetic material. A magnetic sensor configured to generate a positive signal,
The magnetic is formed in a ring shape, the inner diameter of the magnetic is characterized in that the insert tube holding the center of the reed switch from the inner diameter of the sensor body through which the reed switch passes.

The magnetic sensor according to the present invention has the advantage of reducing the design to install a magnet on the actuator separately by installing a ring-shaped magnetic to maintain the contact of the reed switch magnetically with the reed switch installed in the sensor body An electric signal for performing the operation and control of the next connected device by turning off the contact of the reed switch by canceling the magnetic force generated by the magnetic while the actuator made of ferromagnetic material is close to the magnetic sensor. By generating the, as well as the accurate operation of the various devices, there is an effect that can be widely used in a wide range of fields.

Hereinafter, with reference to Figures 2 to 4 in accordance with the present invention in more detail.

2 is a longitudinal cross-sectional view showing a separate magnetic sensor of the present invention, Figure 3 is a longitudinal cross-sectional view showing a state in which the magnetic sensor and the actuator in accordance with the present invention, Figure 4 is a magnetic sensor according to the present invention This is a plan view illustrating the position detection of the actuator.

According to the present invention, in the magnetic sensor 10, the magnetic 13 is installed on the outer periphery of the reed switch 12 embedded in the sensor body 11 so that the magnetic element 10 is close to the actuator 1 made of ferromagnetic material. It is configured to generate an electrical signal by shorting the contact of the reed switch 12 by the offset change of the magnetic force.

The magnetic 13 is formed in a ring shape, the inner diameter of the magnetic 13 is inserted into the insert body 14 for holding the center of the reed switch from the inner diameter of the sensor body 11 through which the reed switch 12 passes. do.

In addition, the magnetic 13 is preferably to have a thickness as long as the length of the reed switch 12 so that the magnetic force is concentrated on the contact portion of the reed switch 12.

The insert tube 14 is manufactured by injection molding in a synthetic resin series, and has a thickness of 1 mm to 1.5 mm capable of transmitting magnetic influence as it is, and as shown, a fixing jaw 14b protrudes from an outer circumference to form a ring shape. One side of the inner diameter 13a of the magnetic 13 is supported, and the inner diameter 14a of the insert tube 14 is preferably formed equal to the inner diameter corresponding to the diameter of the outer diameter of the reed switch 12. .

Meanwhile, a fixing protrusion 12a is formed at the front end of the reed switch 12, and the fixing protrusion 12a is fixed to the front surface of the sensor body 11 by an epoxy resin S which is hardened. This is preferred.

In the figure, reference numeral 11a represents a male screw part which is formed on the outer circumference of the sensor body and can be fastened and fixed.

Referring to the operation of the magnetic sensor of the present invention configured as described above are as follows.

First, the reed switch 12 is guided to the inner diameter of the sensor body 11 from the rear thereof, and the insert tube 14 is inserted into and fixed to the inner diameter of the sensor body from the front of the sensor body 11.

The appearance of surrounding the reed switch 12 by the fixing jaw 14b of the insert tube 14 is maintained in the center, and then the epoxy resin S filled from the front of the sensor body 11 as a subsequent process. As a result, the fixed protrusion 12a protruding from the outer side of the reed switch 12 is exactly supported at its center.

On the other hand, by inserting a ring-shaped magnetic 13 in the outer diameter of the insert tube 14, the assembly is made in a state in which the contact of the reed switch 12 is maintained on (On) by the magnetic force.

Finally, the wire connected to the reed switch 12 is completed in the form of supporting the wire penetrated as a finishing material at the rear side of the sensor body 11.

The assembled magnetic sensor as described above is fixed to the corresponding portion of the device, and preferably can be fixed as a work for fastening the male screw portion (11a) formed on the outer periphery.

In this way, the magnetic sensor 10 installed in the device relatively closes the electrical signal when the specific part of the actuator (the protruding portion 21) is approached by the actuator 20 that detects the electrical signal. May occur. In the drawing, the protrusion protruding from the handle lever can generate an electrical signal to the magnetic sensor.

For reference, the actuator 20 is a handle lever which is rotated and adjusted for level control, and may be used without being limited thereto. For example, a ferromagnetic material capable of reacting with the magnetic 13 in the magnetic sensor 10 is sufficient as an actuator that is transported and rotated, such as a horizontal, lifting and lowering slider.

As a result, the magnetic sensor according to the present invention maintains the contacts of the reed switch in the sensor body in the on state, and when a specific part of the actuator approaches, the magnetic force is concentrated to the actuator side. By generating an electrical signal that turns off (Off) to perform the operation and control of each of the following devices, compared to the conventional sensor that inserts the magnetic to the actuator separately, It can be made consistent in the range of manufacture and use, there is an advantage that the installation reference design of the magnetic sensor becomes more convenient.

The present invention is not limited to the above embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims.

1 is a longitudinal sectional view showing an example of an actuator installed with a conventional sensor and magnetic,

Figure 2 is a longitudinal cross-sectional view showing a separate magnetic sensor of the present invention,

3 is a longitudinal sectional view showing a state in which a magnetic sensor and an actuator are in close proximity according to the present invention;

Figure 4 is a plan view illustrating the position detection of the actuator for the magnetic sensor according to the present invention.

◎ Explanation of code for main part of drawing ◎

10: magnetic sensor 11: sensor body

12: reed switch 13: magnetic

13a, 14a: inner diameter 14: insert tube

15: wire 16: finishing material

20: actuator S: epoxy resin

Claims (3)

The magnetic 13 is installed on the outer periphery of the reed switch 12 embedded in the sensor body 11 so that the contact of the reed switch 12 is caused by the offset change of the magnetic force in accordance with the proximity of the actuator 20 made of ferromagnetic material. In the magnetic sensor 10 configured to generate an electrical signal by shorting the circuit, The magnetic 13 is formed in a ring shape, the inner diameter of the magnetic 13 is an insert tube 14 for holding the center of the reed switch 12 from the inner diameter of the sensor body 11 through which the reed switch 12 passes. Magnetic sensor, characterized in that the insertion was fixed. delete The method of claim 1, wherein the fixing protrusion 12a is formed at the front end of the reed switch 12, the fixing protrusion 12a is filled in the entire surface of the sensor body 11, the epoxy resin (S) Magnetic sensor, characterized in that fixed by).

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