KR200237355Y1 - Magnetic sensor - Google Patents

Abstract

The present invention relates to a magnetic sensor, comprising: an outer housing having a tubular shape having an accommodating space therein and a sensing surface formed at one end thereof and an opening formed at the other end thereof; A receiving member having at least one region housed in the outer housing and having an opening at an end portion of the receiving side accommodated therein; A magnet accommodated in the accommodation member to form a magnetic field; A plurality of lead frames formed of a conductive member and embedded in the receiving member so that one end thereof is exposed to the receiving end of the receiving member and the other end thereof is exposed to the other end of the receiving member; A PCB having a magnetic sensing element disposed corresponding to the sensing surface and coupled to the receiving end of the receiving member so that the magnetic sensing element is electrically connected to the lead frame; And a buffer supporting part configured to surround the PCB area so as to close at least the PCB area in an airtight manner and buffer the PCB. Thereby, the magnetic sensor which buffers the external force transmitted to the internal component, and can suppress a damage of a component is provided.

Description

Magnetic sensor {MAGNETIC SENSOR}

The present invention relates to a magnetic sensor, and more particularly, to a magnetic sensor capable of buffering an external force transmitted to an internal component to suppress damage to the component.

The magnetic sensor is a kind of sensor designed to detect a movement of an object through which a magnetic field is transmitted in a sensing area set in proximity.

1 is a perspective view of a conventional magnetic sensor, FIG. 2 is an exploded perspective view of the magnetic sensor of FIG. 1, and FIG. 3 is an exploded perspective view before molding of the magnetic sensing unit of FIG. 2. As shown in these drawings, the magnetic sensor has an outer housing 11 having a cylindrical shape with an opening formed on one side thereof, and a magnetic sensing unit accommodated within a portion of the outer housing 11. 21 and an annular buffer support member 37 interposed therebetween along the engagement direction of the magnetic sensing unit 21 and the outer housing 11.

The magnetic sensing unit 21 includes a receiving member 25 having a permanent magnet 23 formed to have a round shape, a receiving space having one side opened to accommodate the permanent magnet 23, and a receiving member. It is formed of a conductive member so as to have an extended length compared with the (25), one end is exposed to the open end of the receiving member 25 and the other end is exposed to the other end of the receiving member 25 in the interior of the receiving member 25 A plurality of lead frames 27 to be embedded, and a magnetic sensing element 31 and a circuit element such as a Hall IC (Hall Intergrated Circuit) are provided to form a circuit for driving the magnetic sensing element 31 and the permanent magnet 23 And the peripheral portion of the PCB 29 and the peripheral portion of the PCB 29 and the receiving member 25 which are coupled to the lead frame 27 to be electrically connected to the opening region of the receiving member 25. Epoxy molding part 35 is formed after the combination of these to be protected so as to protect Doing.

By such a configuration, the permanent magnet 23 is coupled to the inside of the receiving member 25, and the PC 29 is coupled to the end of the receiving member 25 to be electrically connected to the lead frame 27. Next, the epoxy molding part 35 is formed of epoxy resin around them so as to protect the magnetic sensing element 31 and the PCB 29. When the epoxy molding part 35 is formed, the ring-shaped buffer support member 37 is inserted into the outer housing 11, and the epoxy molding part 35 is inserted into the outer housing 11.

On the other hand, the combined magnetic sensor is injection molded using a synthetic resin member, not shown in the mounting bush and the connection connector in consideration of the relationship with the final product to be mounted.

However, in the conventional magnetic sensor, when the injection bushing and the connecting connector, etc. required for mounting on the final product are injection molded on the outer surface of the outer housing 11, the injection pressure is detected on the sensing surface of the outer housing 11. It is transmitted to the magnetic sensing element 31 and the PC 29 through the (12) there is a problem that damage to the magnetic sensing element 31 and / or circuit components.

In addition, in such a conventional magnetic sensor, the epoxy molding part 35 molded on the outside of the magnetic sensing element 31 and the PCB 29 does not buffer the external force or impact transmitted from the outside of the outer housing 11. The magnetic sensing element 31 and the PCB 29 are transferred to the magnetic sensing element 31 and the PCB 29, so that the circuit components of the magnetic sensing device 31 and the PC 29 may not be sufficiently protected.

Accordingly, an object of the present invention is to provide a magnetic sensor capable of buffering external forces transmitted to an internal component to suppress damage to the component.

1 is a perspective view of a conventional magnetic sensor,

2 is an exploded perspective view of the magnetic sensor of FIG. 1;

3 is an exploded perspective view before molding the magnetic sensing unit of FIG. 2;

4 is an exploded perspective view of a magnetic sensor according to an embodiment of the present invention;

5 is an enlarged cross-sectional view of the coupled state of FIG.

6 is a view corresponding to FIG. 5 of a magnetic sensor according to another exemplary embodiment of the present disclosure.

Explanation of symbols on the main parts of the drawings

11: external housing 12: sensing surface

21: magnetic sensing unit 23: permanent magnet

27: lead frame 29: PCB

31: magnetic sensing element 41: buffer support

43: air outlet

The above object, according to the present invention, the outer housing having a tubular shape formed in the receiving space therein and the sensing surface is formed at one end and the opening is formed at the other end; A receiving member having at least one region housed in the outer housing and having an opening at an end portion of the receiving side accommodated therein; A magnet accommodated in the accommodation member to form a magnetic field; A plurality of lead frames formed of a conductive member and embedded in the receiving member so that one end thereof is exposed to the receiving end of the receiving member and the other end thereof is exposed to the other end of the receiving member; A PCB having a magnetic sensing element disposed corresponding to the sensing surface and coupled to the receiving end of the receiving member so that the magnetic sensing element is electrically connected to the lead frame; It is achieved by a magnetic sensor, characterized in that it comprises a buffer support which is formed to surround the PCB area to at least block the PCB area hermetically and buffer the PCB.

Here, the buffer support is preferably formed by molding a rubber member.

The buffer support part is formed before the PCB is disposed inside the outer housing, and at least one of the outer housing and the buffer support part has an air discharge part formed therein so that the air inside the outer housing can be discharged. It is effective to be.

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

Figure 4 is an exploded perspective view of the magnetic sensor according to an embodiment of the present invention, Figure 5 is an enlarged cross-sectional view of the coupling state of FIG. The same and identical parts as in the above-described conventional configuration will be described with the same reference numerals. As shown in these figures, the magnetic sensor has an outer housing 11 having a tubular shape having an accommodating space therein, a sensing face 12 formed at one end thereof, and an opening formed at the other end thereof, and along the longitudinal direction. Some areas have a magnetic sensing unit 21 which is coupled to be received in the interior of the outer housing 11.

The magnetic sensing unit 21 includes a permanent magnet 23 that forms a magnetic field, an accommodating member 25 having a receiving space formed therein so as to accommodate the permanent magnet 23 on one side, and an accommodating member 25 so that both ends thereof are exposed. PCB 29, PCB 29 and accommodating a plurality of leadframes 27, magnetically sensing elements 31, and a plurality of circuit components to be electrically connected to the leadframe 27. It is formed in the peripheral region of the member 25 is configured to include a buffer support portion 41 for buffering the external force transmitted from the outside through the outer housing 11 to the inside.

The buffer support part 41 is formed by a molding method or the like so as to surround the PCB 29 and the receiving member 25 with a rubber member having elasticity to buffer external force transmitted from the outside. The buffer support part 41 is formed to have an outer diameter corresponding to the inner diameter of the outer housing 11 having a cylindrical shape, and the air inside the outer housing 11 is discharged when the buffer support part 41 is inserted into the outer diameter surface. A plurality of groove-shaped air discharge portions 43 extending along the insertion direction so as to be recessed from the surface are formed.

By such a configuration, the permanent magnet 23 is coupled to the inside of the receiving member 25, and the PCB 29 and the lead frame 27 are electrically connected to each other so that the receiving member 25 is connected to the receiving member 25. ) When the coupling of the PC 29 is completed, the buffer support 41 is formed by molding a rubber member in the peripheral area of the PC 29, and when the buffer support 41 is sufficiently cured, the buffer paper is formed inside the outer housing 11. The branch 41 is inserted to be received. At this time, the air inside the outer housing 11 is discharged through the plurality of air discharge parts 43 recessed and formed on the surface of the buffer support part 41 so that the coupling is smooth.

6 is a view corresponding to FIG. 5 of a magnetic sensor according to another exemplary embodiment of the present disclosure. The same reference numerals are given to the same and equivalent parts as the above-described and illustrated embodiments, and detailed description thereof will be omitted. As shown, the present magnetic sensor has an outer housing 11 having a cylindrical shape with one side opened, and a magnetic sensing unit 21 having one side accommodated and coupled to the inside of the outer housing 11.

The magnetic sensing unit 21 includes a PCB 29 in which a circuit including a permanent magnet 23, a receiving member 25, a lead frame 27, and a magnetic sensing element 31 is formed, and a PCB 29. It is formed to include a buffer support portion 41 formed of a rubber member in the circumferential region.

Here, the buffer support portion 41 is reduced compared to the inner diameter of the outer housing 11 so that the air discharge portion 44 through which the air inside the outer housing 11 is discharged when the outer housing 11 is coupled to the outer housing 11. Is formed to have an outer diameter, a plurality of ribs 45 protruding along the radial direction and extending along the longitudinal direction so that the outer diameter surface of the buffer support portion 41 can elastically contact the inner diameter surface of the outer housing 11. ) Are spaced apart from each other along the circumferential direction.

By such a configuration, the permanent magnet 23 is accommodated and coupled to the inside of the receiving member 25, and the PC 29 is coupled to the lead frame 27. When the coupling of the PC 29 is completed, the buffer support portion 41 is formed by molding or the like with a rubber member having elasticity around the PC 29 and the receiving member 25. When the buffer support portion 41 is sufficiently cured, the buffer support portion 41 is inserted into the outer housing 11. At this time, each of the ribs 45 of the buffer support part 41 has a protruding end elastically contacting the inner diameter surface of the outer housing 11, and through the air discharge part 44 formed between the ribs 45. By discharging the air inside the outer housing 11, the buffer support part 41 is smoothly inserted into the outer housing 11.

In the above-described and illustrated embodiments, the air discharge portion recessed in the buffer support portion is formed, or the outer diameter of the buffer support portion is sufficiently reduced compared to the inner diameter of the outer housing, and a plurality of ribs elastically contacted with the outer housing are formed. For example, the air discharge portion is formed to be recessed from the inner diameter surface of the outer housing, or the outer diameter of the buffer support portion is formed to be sufficiently reduced compared to the inner diameter of the outer housing, and the outer diameter surface of the buffer support portion can be contacted from the inner diameter surface of the outer housing. It may be configured to form a plurality of ribs protruding to the center so that the air discharge portion is formed between the outer housing and the buffer support.

As described above, according to the present invention, by forming a buffer support portion with a rubber member having an elastic circumference of the PC to enable to buffer the external force transmitted from the outside through the outer housing, the magnetic sensing element and / or PC A magnetic sensor is provided to suppress damage to circuits, components, and the like.

Claims (3)

An outer housing forming a receiving space therein and having a sensing surface formed at one end thereof and an opening formed at the other end thereof; A receiving member having at least one region housed in the outer housing and having an opening at an end portion of the receiving side accommodated therein; A magnet accommodated in the accommodation member to form a magnetic field; A plurality of lead frames formed of a conductive member and embedded in the receiving member so that one end thereof is exposed to the receiving end of the receiving member and the other end thereof is exposed to the other end of the receiving member; A PCB having a magnetic sensing element disposed corresponding to the sensing surface and coupled to the receiving end of the receiving member so that the magnetic sensing element is electrically connected to the lead frame; And a buffer supporter configured to surround the PCB area so as to close at least the PCB area in an airtight manner and buffer the PCB. The method of claim 1, Magnetic buffer, characterized in that the shock-absorbing support is molded by a rubber member. The method according to claim 1 or 2, The buffer support part is formed before the PCB is disposed inside the outer housing, and at least one of the outer housing and the buffer support part has an air discharge part formed therein so that the air inside the outer housing can be discharged. Magnetic sensor characterized by the above-mentioned.