BR112019012671A2 - holder position sensing device - Google Patents

Abstract

a support switch 5 having a housing member 31, and a rotor member 32 which is pivotally housed on an inner side thereof. the housing member 31 comprises a cylindrical section 33 having an open bottom surface, a fixing section 34 which is provided to one side of the cylindrical section 33, and a coupler section 35 for externally transmitting a signal from a magnetic sensor 37. the sensor The magnetic sensor 37 comprises a magnetic sensor body 37a and main terminals 37b, 37c. the main terminals 37b, 37c are fixed by and electrically connected to the fixing slots 40c, 40c which are provided to the input ports 40a, 40a of a terminal 40. the magnetic sensor 37 and the terminal are thus directly connected, thus allowing conservation of space and a small number of components.

Description

SUPPORT POSITION DETECTION DEVICE ”TECHNICAL FIELD [0001] The present invention relates to a device that detects the position of a main support or an oscillating support sidebar attached to a two-wheeled vehicle.

[0002] BACKGROUND [0003] As with a side support fixed to a vehicle and two wheels, when the two-wheel vehicle is stopped, a side support bar will be lowered to a standing position and supporting the two-wheel vehicle. While the two-wheeler is operating, the side support bar is held in place, and is kept in a state where travel is not impaired. For a motorcycle, it is known that the position of the side support bar is detected so that the motorcycle does not rotate while the side support bar is in the standing position, and if the side support bar is in the standing position, the engine will be controlled to prevent the motorcycle from moving.

[0004] For example, in document LPT 1, a position detection device is shown having a fixing member attached to the body structure of the two-wheel vehicle, the fixed member having an upper case member and a lower case member and having also a movable member that moves along with the oscillation of a lateral support bar. Either of a magnet and a magnetic sensor is attached to the upper case member and the lower case member.

[0005] With the position detection device in LPT 1, the movable member is placed between the upper case member and the lower case member. The position detection device detects the standing position and the storage position of the lateral support by placing the movable member in a state in which the movable member intervenes between the magnet and the magnetic sensor and protects a magnetic field when the support bar side meet

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2/16 in the standing position and not protecting a magnetic field when the side support bar is in the storage position.

[0006] Citation List [0007] Patent Literature [0008] LPT 1: Unexamined Japanese Patent Application Publication No. 2012-166702

SUMMARY OF THE INVENTION

TECHNICAL PROBLEM [0009] With the position detection device described in LPT 1, the magnetic sensor is placed on a printed circuit board in a substantially rectangular shape. In addition, a decisive circuit, an output circuit and an external output terminal are placed on the printed circuit board in addition to the magnetic sensor. The device is structured so that the position of the magnet is detected by the magnetic sensor and a decisive result for the detection is emitted from the external output terminal through the decisive circuit and the output circuit.

[00010] In addition, with the position detection device described in Figure 1 in LPT 1, a case member is provided above the oscillating axis of the side support and the printed circuit board on which the magnetic sensor and others are placed being kept in the case member, as described in Figure 1 in LPT 1.

[00011] With the device, the case member protrudes widely from the circumference of the oscillating axis of the support bar. When the user of the two-wheeled vehicle begins to manipulate the support bar, there will be a fear that the carrying member will interfere. In addition, in a structure, such as the device, in which a magnetic sensor and other circuits are placed on a printed circuit board, the size of the device being increased, causing a problem in the costs of the material used for electronic services and a board. circuit to be used are high. Besides that,

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3/16 there is a problem that when the device is manufactured, the number of men will be increased in the assembly operations so that the assembly of electronic devices on a printed circuit board and the incorporation, carried out after the assembly of the printed circuit board in the case member.

[00012] The present invention addresses the above problems with the aim of providing a device for detecting the position of the support bar that has fewer parts and allows space-spacing.

[00013] Another objective of the present invention is to provide a device for detecting the position of the support bar that can be easily assembled during manufacture.

Solution to the Problem [00014] To achieve the objectives described above, a device for detecting the position of the support in the present invention is a device used for a support that has a fixed part attached to the side of a vehicle structure and that also has a oscillating support bar about an oscillating axis with respect to the fixed part, the device detecting the position of the support bar. The device for detecting the position of the support is characterized by having a movable member that moves along with the oscillation of the support bar, a member generating magnetism to the movable member, and a case member fixed to the side of the fixed part. The device for detecting the position of the support is further characterized in that the case member has a magnetic sensor that can detect a change in the position of the member generating magnetism and an external connection terminal that has an input end and an output end, the terminal external connection producing a result of limb detection generating magnetism to the outside; the magnetic sensor having a sensor body and a main terminal protruding from the sensor body; the sensor body being placed in order to turn to the limb generating

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4/16 magnetism in the axial direction of the oscillating axis; and the main terminal and the input end of the external connection terminal being directly joined.

[00015] According to the position detection device of the support of the present invention, the magnetic sensor is placed so that it is turned towards the member generating magnetism in the axial direction of the oscillating axis. Therefore, a part of the member generating magnetism, which projects in the circumferential direction as in the past, can be reduced. In addition, since the input end of the external connection terminal and the main terminal of the magnetic sensor are directly joined, other members such as cables, wires and circuit board will not be necessary. Therefore, according to the present invention, the number of parts may be reduced and space savings may also be possible.

[00016] Furthermore, the device for detecting the position of the support of the present invention, will be preferable for the outlet end of the external connection terminal to be placed so as to be displaced towards the same side as the member generating magnetism with respect to to the magnetic sensor and it is also preferable for the input end to project towards the main terminal in the axial direction of the oscillating axis.

[00017] According to the structure, once the entrance end is displaced towards the same side as the member generating magnetism, members placed from the member generating magnetism in the axial direction of the oscillating axis can be reduced. This displaced placement can be easily achieved by making the input end protrude into the main terminal.

[00018] In addition, in the support position detection device of the present invention, it will be preferable for the case member to have a retention protrusion that retains the main terminal between the sensor body and the

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5/16 inlet end. Due to the structure, the magnetic sensor can be firmly attached to the case member.

[00019] Furthermore, in the support position detection device of the present invention, it will be preferable for the input end to have a retention groove to retain the main terminal so that when the magnetic sensor is attached to the case member, the terminal main is maintained by the retaining groove at the inlet end. According to the structure, since the magnetic sensor is held by the retaining groove at the entrance end, the magnetic sensor can be firmly fixed to the case member.

[00020] In addition, in the support position detection device of the present invention, it will be preferable that the inlet end protrudes from the case member, the case member having a concave storage part that stores the magnetic sensor, and the concave part of storage being filled with insulating resin. According to the structure, the magnetic sensor is firmly attached to the case member, improving resistance to changes in the external environment.

[00021] ADVANTAGE EFFECTS OF THE INVENTION [00022] According to the present invention, in a device for detecting the position of the support, the number of parts can be reduced and space saving is possible. Furthermore, according to the present invention, the incorporation of a magnetic sensor in a case member is easily done, so that assembly operations during manufacture are easily done.

BRIEF DESCRIPTION OF THE DRAWINGS [00023] For a better understanding of the invention, a detailed description will be made to it, with respect to the attached drawings, presented in an exemplary and non-limiting character, in which:

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6/16

Figure 1 is a perspective view of the side of the lateral support device according to a configuration of the present invention;

Figure 2 is an exploded perspective view of the side support device according to a configuration of the present invention;

Figure 3 is a partial cross-sectional view of the lateral support device according to a configuration of the present invention;

Figure 4 is a perspective view indicating a state in a concave storage part in a switch on the side support according to a configuration of the present invention;

Figure 5 is an exploded perspective view of a part of the sensor on the side support switch according to a configuration of the present invention.

DESCRIPTION OF THE CONFIGURATION [00024] A configuration of the present invention, especially an example of a side support will be described below in detail with reference to the attached drawings. The entire structure of a lateral support device will be described with reference to Fig. 1 and Fig. 2. Fig. 1 is a perspective view of a lateral support device according to a configuration of the present invention. Figure 2 is an exploded perspective view of the lateral support device according to a configuration of the present invention.

[00025] The side support device 1 according to this configuration supports a motorcycle in a standing state during parking, as shown in Figures 1 and 2. The side support device 1 is structured by having a support (fixed part) 2 attached to a body structure, which is not shown, and a side support bar and a side support bar 3 that can be swung into a support 2 by means of a pivot screw (oscillation axis) 4, In addition, with the device side support switch 1, a side support switch is attached to the pivot screw

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7/16 using a fixing screw. The swinging position of the side support bar 3 is detected by the side support switch 5.

[00026] The support 2 is structured by having a plate-like part 11 and a passing pin 12 that passes through the plate-like part 11 in the direction of thickness and being fixed. In the plate-like part 11, a hole in the shaft 13 is formed to pass through the plate-like part 11 in the thickness direction in a position in which the lateral support bar 3 is fixed. An extreme side of the through pin 12 functions as a positioning pin that positions the side support switch 5. Another extreme side of the through pin 12 functions as a locking pin fitted to a return spring, which is not shown.

[00027] The side support bar 3 is fixed to the support 2 as the pivot screw 4. The side support bar 3 is structured so that it can be swung around the pivot screw 4 between a standing position in which the bar lateral support rod 3 is in contact with the ground and a storage position in which the lateral support rod 3 is substantially parallel to the ground. A pair of connecting parts 15 and 16 formed in the form of a double fork in order to press the plate-like part 11 on the lower end of the side support bar 3. Shaft holes 17 and 18 are formed so as to pass through this pair of connecting parts 15 and 16. An engagement hole 19, which is engaged with the rotor member (movement member) 32 of the side support switch 5, is formed as a through hole in the vicinity of the shaft hole 17 in the connecting part 15, which is one of the connecting parts.

[00028] The articulation screw 4 is inserted through the holes of the axes 17 and 18 in the pair of connecting parts 15 and 16 and through the hole of the axis 13 in the support 2 in a state in which the support 2 is sandwiched between the pair of ligament parts 15 and 16. In this case, an intermediate part of the articulation screw 4 being inserted through the hole of the shaft 17 in the part of

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8/16 connection 15, which is one of the paired connection parts, and the hole in the shaft 13 in the support, and a threaded part 24 in the upper extreme side being inserted through the hole in the shaft 18 in the connection part 16, which is the another of the parts paired with the threaded part 24 exposed to the outside.

[00029] A nut 7 is screwed into this exposed threaded part 24. When the fixing nut is tightened, the pivot screw 4 is fixed to the pair of connecting parts 15 and 16. Thus, the side support bar 3 is swung together with the hinge screw 4 in relation to the support 2. In addition, a screwed hole 22, into which the fixing screw is screwed, is formed in the head of the hinge screw 4.

[00030] The side support switch 5 detects that the side of the standing position and the side of the storage position is positioned on the side support bar. The side support switch 5 is fixed to the head 21 of the articulation screw 4 with the fixing screw. A retaining part 34 is formed in a case member 31 of the side support switch 5. By capturing an extreme side of the through pin 12 with this retaining part 34, the side support switch 5 is positioned. Incidentally, details of the side support switch 5 will be described later.

[00031] The fixing screw 4 fixes the side support switch 5 to the hinge screw 6 and is inserted through the side support switch 5 and being tightened in a state in which the fixing screw 6 is screwed into the hole of the screw 22 in the pivot screw 6. The fixing screw 6 has a flange part 27 in a rounded shape on the head. The side support switch 5 is stably pressed by this flange part 27.

[00032] In the following, the detailed structure of the side support switch will be described with reference to Figures 3 and 5. Figure 3 is a partial cross-sectional view of the side structure device according to a

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9/16 configuration of the present invention. Figure 4 is a perspective view that indicates a state in a concave storage part in a switch on the side support according to a configuration of the present invention. Figure 5 is an exploded perspective view of a sensor part on the side support switch according to a configuration of the present invention.

[00033] As shown in Figure 3, the side support switch 5 is structured to have a case member 31, the rotation of which is restricted, on an extreme side of the passing pin 12 and also having the rotor member 32 pivotally stored in the case member 31. Case member 31 is formed of an aesthetic resin or the like, and having a cylindrical part 33, the lower surface from which it is opened, the retaining part 34, described above, which is provided on the side of the cylindrical part 33 , and an coupling part 35 for transmitting a signal from a magnetic sensor 37 to the outside.

[00034] As indicated in Figures 3 and 4, a concave storage part of a sensor for use 38 to fix the magnetic sensor 37 being formed on the side of the surface (in Figure 3, the upper side) of the case member 31, the sensor magnetic being stored in the concave part of the use sensor 38, and the concave part of the use sensor being filled with an insulating resin 38d (see Fig. 1). In addition, the bottom surface of the concave storage part of the use sensor 38 intervenes between the magnetic sensor 37 and a plastic magnet (member generating magnetism) 36, which will be described below, in the rotor member 32, and a slit 38a being formed on this bottom surface and the plastic magnet 36.

[00035] Magnetic sensor 37 has a magnetism sensor body 37a and main terminals 37b and 37c protruding from the magnetism sensor body 37a. In addition, the input ends 40a and 40a of a terminal 40, which is an external connection terminal of the coupling part 35,

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10/16 protruding from the bottom surface of the concave storage part of the use sensor 38. The outlet ends 40b and 40b of this terminal protrude into the coupling part 35 through the interior of the case member 31.

[00036] Inlet ends 40a and 40a, retaining slots 40c and 40c are formed as shown in Figures 3 to Figure 5. When the main terminals 37b and 37c are inserted from above, the main terminals 37b and 37c are retained by the retaining slots 40c and 40c and electrically connected.

[00037] In addition, as shown in Figure 4, a retention protrusion 38b that retains the main terminals 37b and 37c protrudes into the lower surface of the concave storage part 38. In addition, a positioning protrusion 38c to position the sensor body magnetism 37a is provided in the concave storage portion of the use sensor 38.

[00038] Figure 5 is an exploded perspective view that indicates a positional relationship between the plastic magnet 36, the magnetic sensor 37, and the terminal 40. The body of the magnetic sensor 37a is positioned on the side of the upper surface, in Fig. 5, of the plastic magnet 36 and being placed so that it faces the plastic magnet 36 in the axial direction of the articulation screw 4. In addition, the main terminals 37b and 37c protruding from the magnetic sensor body 37a are placed so that protrude from the circumferential wall of the plastic magnet 36 in its radial direction.

[00039] On the other hand, terminal 40 is placed so that the outlet ends 40b and 40b are adjacent to the circumferential wall of the plastic magnet 36 in the radial direction, and being displaced with respect to the magnetic sensor body 37a in the axial direction of the articulation screw 4. The inlet ends 40a and 40a of the terminal are curved so that they project from the main body of the terminal 40 towards the main terminals 37b and 37c. Thus, the main terminals 37b and 37c are retained by the retaining slots 40c and 40c provided at the inlet ends 40a and 40a. In this

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11/16 configuration, the input ends 40a and 40a and the main terminals 37b and 37c are more reliably connected to each other because they are still welded.

[00040] Here, the assembly process for the side support switch 5 during manufacture will be described. The terminal 40 is fixed to the case member 31 in advance and is inserted molded. Due to molding, the concave storage portion of the wear sensor 38, the retaining projection 38b, the positioning projection 38c, and others are formed. When the magnetic sensor 37 is to be mounted to the case member 31, a worker or a worker robot assembles the magnetic sensor 37 to a place where the positioning projection 38c to position the magnetic sensor body 37a is present. Thus, the magnetic sensor body 37a is positioned on the positioning projection 38c in the concave storage portion of the use sensor 38. In addition, the main terminals 37b and 37c are retained by the retaining projection 38b and the retaining slots 40c and 40c at the inlet ends 40a and 40a.

[00041] After that, the inlet ends 40a and 40a and the main terminals 37b and 37c are welded and connected. After that, the insulating resin 38d (see Figure 1) is supplied in the concave storage part of the use sensor 38, protecting the magnetic sensor 37 and the connected parts. As a result, according to the side support switch 5 in this configuration, the number of parts is small, a space saving configuration being achieved, and in addition, assembly operations can be carried out easily and safely.

[00042] The cylindrical part 33 in the case member 31 has an opening part 41 through which the fixing screw 6 is inserted, a small diameter part 41a described below, in which the plastic magnet 36 in the rotor member 32 is stored , and a large diameter part 41 to be described below, the diameter of which is increased by starting the small diameter part 41 a in

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12/16 a direction of the side support bar 3, as shown in Fig. 3. A step-by-step part 41c generated due to the difference between the small diameter part 41a and the large diameter part 41b is formed between them. In addition, a sliding part 41 d in a ring shape, which slides on the outer circumferential surface of a bearing part 9b on a flange member 9 described below, being provided on the inner circumferential surface of the opening part 41.

[00043] The case member 31 having the structure described above is pivotally supported by the fixing screw 6, a rim 8, made of a metal, which is fixed to the periphery of the fixing screw, and the flange member 9, made of a resin. which is attached to the rim of the rim 8, as shown in Fig. 3.

[00044] The rim 8, which a cylindrical body made of metal, has the same height (length of the fixing screw 6 in the axial direction) as the flange member 9). The flange member 9 has a flange portion 9a to prevent the housing member 31 from coming out, the bearing portion 9b formed so as to have a smaller diameter than the flange portion 9a, and a holding portion of the rotor member 9c formed in order to have a smaller diameter than the bearing part 9b, the rotor member fixing part 9c being configured to fix the rotor member 32, as indicated in Fig. 4.

[00045] As indicated in Fig. 3, the rim 8 and the flange member 9 are fixed to the head 21 of the articulation screw 4 by the flange part 27 of the fixation screw 6. The rotor member 32 is fixed to the head 21 of the screw of articulation 4 by the fixing part of the rotor member 9c of the flange member 9. The rotor member oscillates together with the side support bar 3.

[00046] As indicated in Fig. 3, the rotor member 32 has a rotor body 32a in a ring shape, an engagement pin 32b in a cylindrical shape, which protrudes from the rotor body 32a towards the engagement hole 19 on the side support bar 36. The rotor body 32a, the pin

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13/16 of engagement 32b, and the locking claw 32c are integrally formed of a synthetic resin material.

[00047] The rotor body 32a has an outer diameter that is slightly smaller than the inner diameter of the large diameter part 41 b on the cylindrical part 33 of the case member 31, and being formed so as to have a larger diameter than the outer surface locking element 32c and the external diameter of the plastic magnet 36. In addition, a part with recesses 32d is formed on the rotor body 32a towards the same side of the side support bar 3 for weight reduction and improved resistance.

[00048] The engagement pin 32b is formed in a cylindrical shape having a part with recesses 32e in the center. The engagement pin 32b is integrally formed with the rotor body 32a. This engagement pin 32b is provided so as to extend from the extreme face of the rotor body 32a on the same side of the side support bar 3 towards the same side of the side support bar 3.

[00049] The outer diameter of this engagement pin 32b is substantially the same size as the thickness of the rotor body 32a in the radial direction to improve strength. In addition, once the shape of the engagement pin 32b itself has a cylindrical shape having the part with recesses 32e in the center, weight reduction and improvement in resistance will be achieved compared to a case in which the engagement pin 32b is formed in a columnar shape whose interior is solid.

[00050] The plastic magnet 36 is a member generating magnetism formed in a ring shape. As indicated in Fig. 5, the plastic magnet 36 is structured to be divided into four segments at 90 degree intervals when viewed from the axial direction of the articulation screw 4; members 36a and 36b having different polarities being alternately connected. Due to this structure, when the side support bar 3 is oscillated, the magnetic sensor 37 can detect the position of the oscillation.

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14/16 [00051] Furthermore, as indicated in Fig. 3 and Fig. 5, a locking groove 36c is formed in the plastic magnet 36 in its circumferential direction so as to have substantially the same width as the locking claw 32c. Plastic magnet 36 is formed so that its outer circumferential surface and the outer circumferential surface of the locking jaw 32c are substantially aligned with each other in a state in which the plastic magnet 36 is locked by the locking jaw 32c of the rotor member 32. In addition furthermore, as indicated in Fig. 3, the outer circumference of the plastic magnet 36 is formed so as to have a smaller diameter than the outer circumference of the rotor body 32a. A step-by-step part 32f generated due to the difference between the outer diameters of the plastic magnet 36 and the rotor body 32a is formed.

[00052] In the side support device 1 structured like this, when a motorcycle starts to circulate, the side support bar 3 is raised by the rider and the side support bar 3 is swung from the standing position to the storage position with the pivot screw 4 acting as a fulcrum. Thus, the rotor body 32a oscillates together with the side support bar 3 through the engagement pin 32b and the plastic magnet 36 provided on the rotor body 32a oscillates.

[00053] This movement of the plastic magnet 36 is detected by the magnetic sensor 37 provided in the case member 31. Here, if the region, of the plastic magnet 36, which turns to the magnetic sensor 37 being a member 36a with the side support bar 3 in the standing position, when the side support bar 3 oscillates to a storage position, the region of the plastic magnet 36, which turns to the magnetic sensor 37 changes to a member 36b. Thus, the polarity of a region, facing magnetic sensor 37, of the plastic magnet changes. This change in the polarity of the plastic magnet 36 is detected by the magnetic sensor 37, in order to detect that the bar of the lateral support 3 is positioned in the storage position.

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15/16 [00054] On the other hand, when the motorcycle starts to be parked, the side support bar 3 is lowered by the rider and the side support bar 3 is oscillated from the storage position to the standing position like the screw articulation 4 acting as a fulcrum. Thus, the rotor body 32a oscillates together with the side support bar 3 through the engagement pin 32b and the plastic magnet provided on the rotor body rotates. This movement of the plastic magnet is detected by the magnetic sensor 37. Thus it will be detected by the switch of the lateral support 5 that the bar of the lateral support 3 is positioned in the standing position.

[00055] Incidentally, although in the above configuration, a side support has been used as an example of a support, the support could be a main support. In addition, in the configuration above, the rotor body 32a has been molded with a resin. This can increase the levels of freedom in the configuration and reduce manufacturing costs in molding when compared to a case in which the rotor body 32a is formed. of a metal. In addition, the weight of the side support switch 5 can be reduced. In addition, since the metal surfaces of the side support switch 5 are reduced, it will be possible to reduce the costs of coating to prevent rust.

[00056] Furthermore, despite the above configuration, the inlet ends 40a and 40a and the main terminals 37b and 37c are welded, this is not a limitation. In a state in which both are retained, an insulating resin can be filled or both can be welded by spot welding or the like.

LIST OF REFERENCE SIGNS side support device, support, side support bar, articulation screw (oscillating shaft),

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16/16 side support switch (position detection device), fixing screw, fixing thread, engagement hole, head, case member, rotor member (movement member),

32b engagement pin, plastic magnet (magnetism generating member), magnetic sensor,

37a magnetic sensor body,

37b, 37c main terminal, concave use sensor storage part,

38th slit,

38b retention protrusion,

38c positioning protrusion,

38d insulating resin, terminal (external connection terminal),

40c retaining groove, opening part, small diameter part, b large diameter part, c step by step, d sliding part.

Claims (5)

1. SUPPORT POSITION DETECTION DEVICE ”, which is a device used for a support that has a part fixed to the side of a vehicle structure and that also has an oscillating support bar around an oscillating axis in relation to the fixed part, characterized by comprising a movement member that moves along the oscillation of the support bar, a member generating magnetism fixed to the movement member, and a case member fixed to the side of the fixed part, where the case member has a magnetic sensor capable of detecting a change in a position of the member generating magnetism and an external connection terminal that has an input end and an output end, the external connection terminal emitting a result of detection of the member generating magnetism to the outside, and because the magnetic sensor has a sensor body and a main terminal protruding from the sensor body, the sensor body so as to face the magnetism generating member in an axial direction of the oscillating axis, and in that the main terminal and the input end of the external connection terminal are directly joined. 2. SUPPORT POSITION DETECTION DEVICE ”, according to claim 1, characterized in that the outlet end of the external connection terminal is placed so as to be displaced towards the same side of the member, generating magnetism in relation to the magnetic sensor and the input end protruding towards the main terminal in the axial direction of the oscillating axis. 3. SUPPORT POSITION DETECTION DEVICE ”, according to claim 1 or 2, characterized in that the case member has a retention protrusion that retains the main terminal between the sensor body and the inlet end. 4. SUPPORT POSITION DETECTION DEVICE ”, according to any one of claims 1 to 3, characterized in that the Petition 870190056656, of 06/18/2019, p. 24/50 2/2 the input end has a retention groove to retain the main terminal so that when the magnetic sensor is attached to the case member, the main terminal is retained by the retention groove on the input end. 5. SUPPORT POSITION DETECTION DEVICE ”according to any one of claims 1 to 4, characterized in that the inlet end protrudes from the case member, the case member having a concave storage part that stores the magnetic sensor, and the concave part of storage being filled with an insulating resin.