KR101838422B1 - Release-type electromagnet device and production method therefor - Google Patents

Abstract

The releasing electromagnet device according to the present invention is characterized in that the yoke in which the bobbin, the electromagnetic coil, the transfer yoke, and the permanent magnet are accommodated in the internal space is located on the first bobbin frame side of the bobbin, A plunger through-side yoke body having a through-hole communicating therewith is arranged, and a central side yoke body bent from the plunger through-side yoke body toward the permanent magnet side is disposed. And a permanent magnet side yoke which is folded and brought into contact with the permanent magnet and whose both end faces form a yoke closing portion.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a release type electromagnet device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a release type electromagnet device used as a tripping device for circuit breakers such as wiring breakers and earth leakage breakers and a method of manufacturing the same.

As will be known, a circuit breaker such as a wiring breaker or an earth leakage breaker automatically detects a short circuit or a short circuit in a circuit to which the circuit breaker is connected, The mechanism trips and blocks the above-described circuit. Such a circuit breaker includes an electromagnetic electromagnet coil that is energized based on a tripping signal and a release electromagnet device having a plunger that moves freely when the electromagnetic coil is energized, By tripping the tripping mechanism by the movement of the plunger of the device, the circuit is shut off.

The release type electromagnet device is composed of an electromagnetic coil, a yoke, a permanent magnet, a plunger, and a release spring. The plunger is attracted to and held by the yoke by the permanent magnet, and at the same time, the release spring is pressed in the direction in which the attraction is removed. The attracting force of the permanent magnets is greater than the force of the release spring at all times so that the plunger is attracted and held. However, when the tripping signal is detected, the polarity (polarity) When the attraction force becomes smaller than the pushing force of the release spring, the plunger is released from the yoke by the force of the release spring to perform the tripping operation of the circuit breaker.

BACKGROUND ART [0002] Conventionally, as a release type electromagnet device used in a circuit breaker, for example, there is one disclosed in Patent Document 1 or FIG. Patent Document 1 discloses a release type electromagnet device in which an opening end of a main yoke is closed by an end yoke. Details of such a release electromagnet device will be described with reference to the cross-sectional view of Fig. 18, the yoke 1 includes a bottom yoke 1 a holding the permanent magnet 2, a main yoke 1 c bent from the bottom yoke 1 a and having an opening end 1 b, And an end yoke 1d that closes the open end 1b of the main yoke 1c. A permanent magnet 2 and a transfer yoke 3 are provided in the bottom side yoke 1a and a main yoke 1c and a through bore 5b is formed in the center portion 5a, A bobbin 5 on which the electromagnetic coil 4 is mounted on the outer peripheral surface of the central portion 5a between the first bobbin frame 5c and the second bobbin frame 5d, The end portion 1b of the main yoke 1c is closed by the end portion yoke 1d after the first take-in pipe 6 is received, ) And a yoke body 1a on the bottom side.

A notch 5e is formed on the inner circumferential side of the second bobbin frame 5d of the bobbin 5 and one side 6a of the first insertion pipe 6 is bent outward in the radial direction, Is engaged with the notch 5e of the second bobbin frame 5d so that the first insertion pipe 6 does not come out of the bobbin 5. [ The other side 6b of the first insertion pipe 6 is arranged so as not to come out axially outward from the first bobbin frame 5c of the bobbin 5. [

A boss portion 1d2 having a through hole 1d1 of the same diameter or a slightly larger diameter as the inner diameter of the first insertion pipe 6 is provided in the central portion of the end yoke 1d. The plunger 7 is inserted from the one side 7a of the plunger 7 into the through hole 1d1 of the boss portion 1d2 of the end yoke 1d and the inner circumferential side of the first insertion pipe 6, The one insertion portion 7b is movable in the axial direction within the first insertion pipe 6. [

The second insertion portion 7c of the plunger 7 is located in the through hole 1d1 of the boss portion 1d2 of the end yoke 1d and the diameter of the second insertion portion 7c is smaller than the diameter of the first insertion portion 7b . The diameter of the other side 7d of the plunger 7 is smaller than the diameter of the second insertion portion 7c and the other side 7d of the plunger 7 and the second insertion portion 7c of the plunger 7 And a stepped portion 7e is formed between the stepped portions 7c and 7c. The second insertion pipe 8 is inserted into the outer circumferential surface of the second insertion portion 7c of the plunger 7 and the inside of the through hole 1d1 of the boss portion 1d2 of the end yoke 1d is moved in the axial direction It is possible.

One side 8a of the second insertion pipe 8 is formed so that when one side 7a of the plunger 7 is in contact with the transfer yoke 3 by the attraction force of the permanent magnet 2, The other side 8b of the second insertion pipe 8 is located at a position which does not hit the other side 6b of the plunger 7 and the other side 8b of the plunger 7, And is bent toward the outer circumferential surface side of the other side 7d of the plunger 7 along the stepped portion 7e formed between the insertion portion 7c.

The plate 9 is disposed on the shaft end side of the other side 7d of the plunger 7 and is fixed by the fixed support body 10 and follows the stepped portion 7e of the plate 9 and the plunger 7 The plate 9 is fixed by the spring force of the plate spring 11 inserted into the other side 7d of the plunger 7 between the second insertion pipe 8 and the other side 8b of the second insertion pipe 8, And is pressed and fixed to the support body 10.

The release spring 12 is disposed on the outer peripheral side of the boss portion 1d2 of the end yoke 1d between the plate 9 and the end portion yoke 1d of the yoke 1 and is provided on one side of the plunger 7 The release spring 12 is disposed so that the pressing force for separating the plunger 7 from the transfer yoke 3 is maintained when the permanent magnet 2 abuts against the transfer yoke 3 due to the attraction force of the permanent magnet 2. [

Patent Document 1: Japanese Patent No. 5248982

In the conventional release type electromagnet device described above, the yoke 1 is composed of two pieces of the main yoke 1c and the end yoke 1d provided with the boss portion 1d2 having the through hole 1d1, When the main yoke 1c and the end yoke 1d are joined together by caulking or the like, it is difficult to manage the magnetic resistance generated at the junction between the main yoke 1c and the end yoke 1d There is a problem that release characteristics are not stable.

The plunger 7 has a first insertion portion 7b, a second insertion portion 7c having a diameter smaller than the diameter of the first insertion portion 7b and a second insertion portion 7c having a diameter smaller than the diameter of the second insertion portion 7c And the other side 7d of a small diameter, and the like.

The pipe for inserting the plunger 7 has a first insertion pipe 6 inserted into the through hole 5b of the bobbin 5 and a second insertion pipe 6b inserted into the outer circumferential surface of the second insertion portion 7c of the plunger 7, The number of parts is increased and the one side 6a of the first insertion pipe 6 is bent outward in the radial direction to form the bobbin There is a problem in that the first insertion pipe 6 is formed in a complicated shape in which the first insertion pipe 6 does not protrude from the bobbin 5 while being caught by the notch portion 5e formed in the second bobbin frame 5d of the bobbin 5 in FIG.

As described above, since the number of parts is large and the shape is complicated, a great deal of labor and effort are required for the assembling work, and there is a problem that the assembling work takes time.

The positioning of the permanent magnet 2 and the transfer yoke 3 is performed from the second bobbin frame 5d of the bobbin 5 to the yoke body 1a side of the yoke 1 slightly The protruding portion 5f protrudes only slightly toward the bottom side yoke 1a of the yoke 1 and the permanent magnet 2 and the transfer yoke 3f protrude from the transfer yoke 3. However, There is a problem that it is difficult to say that it is possible to stably and surely determine the position of the base 3.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and its object is to provide a release type electromagnet device capable of obtaining stable release characteristics.

It is another object of the present invention to provide a release type electromagnet device capable of reducing the number of parts and simplifying the assembling operation.

A release type electromagnet device according to the present invention is a release electromagnet device having a through hole at a central portion thereof and having an electromagnetic coil mounted on an outer peripheral surface of the central portion between a first bobbin frame body and a second bobbin frame body, A transfer yoke disposed on a side of the second bobbin frame of the bobbin; a permanent magnet disposed on the transfer yoke; and a bobbin, the electromagnetic coil, the transfer yoke, and the permanent magnet, A plunger inserted in the inner circumference of the insertion pipe and contacting the transfer yoke and moving in a falling direction; a plunger inserted in the inner circumference of the insertion pipe, And a release spring for urging the plunger in a direction away from the transfer yoke, wherein the plunger has an attraction force of the permanent magnet Wherein the permanent magnet is held at a position where it abuts against the transfer yoke and is released in a direction away from the transfer yoke by a pressing force of the release spring when the electromagnetic coil is energized, Wherein the yoke includes a plunger through-side yoke body having a through hole communicating with the through-hole of the bobbin, the bobbin being located on the first bobbin frame body side of the bobbin, And a permanent magnet side yoke which is bent from the center side yoke to the center of the through hole of the bobbin so as to abut against the permanent magnet and both end faces form a yoke closing portion, The one side of the insertion pipe is disposed apart from the transfer yoke .

A manufacturing method of a releasable electromagnet device according to the present invention is a manufacturing method of a releasable electromagnet device having a through hole in a central portion of a bobbin and mounting an electromagnetic coil on the outer peripheral surface of the central portion between the first bobbin frame body and the second bobbin frame body A step of accommodating a transfer yoke and a permanent magnet in a surrounding portion provided in the second bobbin frame body of the bobbin; and a step of holding the transfer yoke and the permanent magnet in the upper portion of the second bobbin frame of the bobbin, A plunger through-side yoke having a through hole communicating with the through-hole of the bobbin is disposed on the first bobbin frame side of the bobbin, and the plunger through- A central side yoke body bent toward the magnet side is disposed, and a central yoke body extending from the central side yoke to the center of the through hole of the bobbin A step of inserting the permanent magnet side yoke into a yoke which is formed by arranging a permanent magnet side yoke which is folded and abuts against the permanent magnet and both end faces form a yoke closing portion; Inserting the plunger into the through hole of the bobbin until the other side of the insertion pipe comes into contact with the plunger through-side yoke of the yoke; inserting the plate spring into the other side of the plunger; The plate and the plate spring are fixed to the plunger by the fixed support body, and then the release spring is inserted into the plunger and inserted from one side of the plunger to the other end of the plunger The insertion portion of the plunger is inserted into the insertion pipe, And the release spring is inserted into the pipe so that the release spring has a predetermined pressing force between the other side of the insertion pipe and the plate.

According to the release electromagnet device according to the present invention, the yoke in which the bobbin, the electromagnetic coil, the transfer yoke, and the permanent magnet are accommodated in the internal space is disposed on the first bobbin frame side of the bobbin and the through- A through-side yoke body is arranged, and a central side yoke body bent from the plunger through-side yoke body to the permanent magnet side is disposed. The center yoke body is bent from the central yoke body toward the center of the through- A permanent magnet side yoke body having a cross section forming a yoke closing portion is disposed so that a release type electromagnet device capable of obtaining stable release characteristics can be obtained.

In addition, a release type electromagnet device capable of reducing the number of parts and simplifying the assembling operation can be obtained.

1 is a sectional view showing a release electromagnet device according to Embodiment 1 of the present invention.
2 is an exploded exploded perspective view showing a release type electromagnet device according to Embodiment 1 of the present invention.
3 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 1 of the present invention.
4 is a perspective view showing a bobbin and an electromagnetic coil in a release type electromagnet device according to Embodiment 1 of the present invention.
5 is a perspective view showing a state in which a bobbin and an electromagnetic coil are assembled in a release type electromagnet device according to Embodiment 1 of the present invention.
6 is a perspective view showing an assembly of a bobbin and an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention.
7 is a perspective view showing a state before an assembly of a bobbin, an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention is received in a yoke.
8 is a perspective view showing a state where an assembly of a bobbin, an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention is housed in a yoke.
9 is a perspective view showing a state before an insertion pipe is received in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet and a yoke in a release type electromagnet device according to Embodiment 1 of the present invention.
10 is a perspective view showing a state in which an insertion pipe is housed in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, and a yoke in a release type electromagnet device according to Embodiment 1 of the present invention.
11 is a perspective view showing a state before a plunger is received in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, a yoke, and an inserting pipe in a release type electromagnet device according to Embodiment 1 of the present invention.
12 is an exploded exploded perspective view of a plunger in a release type electromagnet device according to Embodiment 1 of the present invention.
13 is a perspective view showing a plunger and a fixed support in a release type electromagnet device according to Embodiment 1 of the present invention.
14 is a perspective view showing a state in which a plunger is housed in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, a yoke, and an inserting pipe in a release electromagnet device according to Embodiment 1 of the present invention.
15 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 2 of the present invention.
16 is a perspective view showing a yoke in a release electromagnet device according to Embodiment 3 of the present invention.
17 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 4 of the present invention.
18 is a cross-sectional view showing a conventional release electromagnet device.

Embodiment 1

Hereinafter, the first embodiment of the present invention will be described with reference to Figs. 1 to 14, and the same or equivalent members and portions are denoted by the same reference numerals in the respective drawings. 1 is a sectional view showing a release electromagnet device according to Embodiment 1 of the present invention. 2 is an exploded exploded perspective view showing a release type electromagnet device according to Embodiment 1 of the present invention. 3 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 1 of the present invention. 4 is a perspective view showing a bobbin and an electromagnetic coil in a release type electromagnet device according to Embodiment 1 of the present invention. 5 is a perspective view showing a state in which a bobbin and an electromagnetic coil are assembled in a release type electromagnet device according to Embodiment 1 of the present invention. 6 is a perspective view showing an assembly of a bobbin and an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention. 7 is a perspective view showing a state before an assembly of a bobbin, an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention is received in a yoke. 8 is a perspective view showing a state where an assembly of a bobbin, an electromagnetic coil, a transfer yoke, and a permanent magnet in a release type electromagnet device according to Embodiment 1 of the present invention is housed in a yoke. 9 is a perspective view showing a state before an insertion pipe is received in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet and a yoke in a release type electromagnet device according to Embodiment 1 of the present invention. 10 is a perspective view showing a state in which an insertion pipe is housed in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, and a yoke in a release type electromagnet device according to Embodiment 1 of the present invention. 11 is a perspective view showing a state before a plunger is received in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, a yoke, and an inserting pipe in a release type electromagnet device according to Embodiment 1 of the present invention. 12 is an exploded exploded perspective view of a plunger in a release type electromagnet device according to Embodiment 1 of the present invention. 13 is a perspective view showing a plunger and a fixed support in a release type electromagnet device according to Embodiment 1 of the present invention. 14 is a perspective view showing a state in which a plunger is housed in an assembly of a bobbin, an electromagnetic coil, a transfer yoke, a permanent magnet, a yoke, and an inserting pipe in a release electromagnet device according to Embodiment 1 of the present invention.

In each of these figures, the yoke 101 made of a magnetic material is disposed on the first bobbin frame 102c side of the bobbin 102 and is provided with through holes (not shown) formed in the central portion 102b of the bobbin 102 And a plunger through-side yoke 101a having a through hole 101a1 communicating with the through-hole 102a and having a diameter substantially equal to that of the through-hole 102a is disposed, and the plunger through-side yoke 101a to the permanent magnets 103 Side yoke body 101b are respectively bent from the central yoke 101b to the center side of the through hole 102a of the bobbin 102 so as to come into contact with the permanent magnets, Side yoke member 101c that forms the yoke closing portion 101d. That is, the yoke 101 is formed by bending a single plate into a rectangular shape to form a yoke closing portion 101d at positions of both end faces 101c1 of the permanent magnet side yoke member 101c contacting the permanent magnet 103 . The yoke closing portion 101d is provided, for example, linearly in a direction orthogonal to the axial direction of the plunger 107 described later.

The electromagnetic coil 104 is mounted on the outer peripheral surface of the central portion 102b between the first bobbin frame 102c of the bobbin 102 and the second bobbin frame 102d of the bobbin 102. [ The second bobbin frame 102d of the bobbin 102 is provided with a surrounding portion 102d1 extending with a slight gap left on the permanent magnet side yoke 101c, The transfer yoke 105 made of a magnetic material is housed in the transfer yoke 105 and the permanent magnet 103 positioned in the transfer yoke 105 is positioned by the transfer yoke 105, 102d1.

The inserting pipe 106 made of a nonmagnetic material is inserted into the through hole 101a1 of the yoke 101a on the plunger through side of the yoke 101 and the through hole 102a of the bobbin 102, One side 106a of the plunger 106 extends to a position where it does not abut the transfer yoke 105 and the other side 106b of the plunger 106 extends from the outside of the plunger through- And a receiving sheet 106b1 for receiving the releasing spring 111, which will be described later, which extends outward in the radial direction from the through hole 101a1 of the body 101a.

The insertion portion 107a of the plunger 107 is inserted into the inner circumference of the insertion pipe 106 and the plunger 107 is brought into contact with the transfer yoke 105 in the insertion pipe 106, And one side 107b of the plunger 107 comes into contact with the transfer yoke 105 and falls therefrom. The other side 107c of the plunger 107 having a diameter smaller than the diameter of the insertion portion 107a is disposed at a position located outside the plunger through side yoke 101a of the insertion portion 107a of the plunger 107 And a stepped portion 107d is formed between the insertion portion 107a of the plunger 107 and the other side 107c of the plunger 107. [

The plate 108 is disposed on the shaft end side of the other side 107c of the plunger 107 and fixed by the fixed support body 109 and between the plate 108 and the stepped portion 107d of the plunger 107 The plate 108 is pressed and fixed to the fixed support body 109 by the spring force of the plate spring 110 inserted into the other side 107c of the plunger 107. [

The releasing spring 111 is disposed between the plate 108 and the receiving seat 106b1 on the other side 106b of the inserting pipe 106 so that the plunger 107 located on the outside of the plunger through side yoke 101a The plunger 107 is disposed on the outer peripheral side of the insertion yoke 107a and the one end side 107b of the plunger 107 is in contact with the transfer yoke 105 by the attraction force of the permanent magnet 103, The releasing spring 111 is disposed so as to maintain the pressing force for releasing the pressing force from the engaging portion 105.

Next, the operation of the release electromagnet device of the present invention constructed as described above will be described. 1 shows a state in which the plunger 107 is arranged at the reset position by a reset operation of a circuit breaker (not shown). At this time, the magnetic flux of the permanent magnet 103 flows from the N pole to the plunger 107, the plunger 107, the inserting pipe 106, and the plunger 106 of the yoke 101 from the N pole, And returns to the S pole via the through-side yoke 101a, the central yoke 101b, and the permanent magnet side yoke 101c. When the attraction force of the permanent magnet 103 is Fm and the urging force of the release spring 111 is Fs, the plunger 107 is attracted to the transfer yoke 105 by the force of Fm-Fs. 1 shows a state in which one side 107b of the plunger 107 is in contact with the transfer yoke 105 by the attraction force of the permanent magnet 103. The magnetic flux circuit X by the permanent magnet 103 Respectively. The attracting force of the permanent magnet 103 is greater than the force of the release spring 111 and the plunger 107 is attracted and held by the transfer yoke 105 by the attraction force of the permanent magnet 103. [

When the electromagnetic coil 104 is energized based on the tripping signal, the circuit breaker (not shown) detects a short circuit or a short circuit and the plunger 107, the transfer yoke 105, Via the yoke body 101c, the central yoke body 101b, the plunger through-side yoke body 101a and the inserting pipe 106 of the yoke 101 of the first embodiment. As described above, a magnetic flux is generated so as to eliminate the attraction force of the permanent magnet 103. When the attracting force Fm of the permanent magnet 103 becomes smaller than the urging force Fs of the release spring 111, the plunger 107 moves away from the transfer yoke 105 by the urging force Fs of the release spring 111, The yoke 101a of the yoke 101 protrudes to the upper side of the outer side of the yoke member 101a, and a tripping mechanism (not shown) trips the circuit.

In the release electromagnet device according to the first embodiment, as in the conventional release electromagnet device described above, the yoke 1 has the end yoke 1c provided with the main yoke 1c and the boss portion 1d2 having the through hole 1d1, (1d), and it is possible to solve the problem that it is difficult to control the magnetoresistance occurring at the junction between the main yoke 1c and the end yoke 1d so that the release characteristics are not stabilized.

The yoke 101 according to the first embodiment is formed by machining a single plate into a rectangular shape and has a through hole formed in the central portion 102b of the bobbin 102 and located on the side of the first bobbin frame 102c of the bobbin 102, A plunger through-side yoke 101a having a through hole 101a1 communicating with the hole 102a and having a diameter substantially equal to that of the through hole 102a is disposed and the plunger through- Side yoke body 101b is bent and bent toward the center of the through-hole 102a of the bobbin 102 from the central yoke 101b to be in contact with the permanent magnet, And the permanent magnet side yoke member 101c1 constituting the yoke closing portion 101d. That is, the yoke 101 is formed by bending a single plate into a rectangular shape to form a yoke closing portion 101d at positions of both end faces 101c1 of the permanent magnet side yoke member 101c contacting the permanent magnet 103 And the plating film thickness and voids generated at the joint portion of the conventional art described above can be removed and the fluctuation of the magnetic flux can be remarkably reduced, so that stable release characteristics can be ensured.

The plunger 107 is constituted by two diameters of the insertion portion 107a and the other side 107c and has the first insertion portion 7b and the first insertion portion 7b And the other side 7d having a smaller diameter than the diameter of the second insertion portion 7c, but may be formed in a simple shape can do.

The inserting pipe 106 is inserted into the through hole 101a1 of the yoke 101a on the plunger through side of the yoke 101 and the through hole 102a of the bobbin 102, One side 106a of the inserting pipe 106 is not bent to extend to a position where it does not abut the transfer yoke 105 and the other side 106b of the inserting pipe 106 is connected to the outer side of the plunger penetrating side yoke 101a And the receiving sheet 106b1 that receives the release spring 111 that extends outward in the radial direction from the through hole 101a1 of the yoke member 101a on the plunger through-side yoke 101a. Therefore, A first insertion pipe 6 inserted into the through hole 5b of the bobbin 5 and a second insertion pipe 8 inserted into the outer peripheral surface of the second insertion portion 7c of the plunger 7 It is preferable that one side 6a of the first insertion pipe 6 is not formed in the radial direction Of the bobbin 5 so that the first insertion pipe 6 does not come out of the bobbin 5 but is caught by the notch 5e formed in the second bobbin frame 5d of the bobbin 5, , It is possible to make one structure of a simple structure, so that it is possible to realize a simple assembly by reducing the number of parts.

The inserting pipe 106 is inserted into the through hole 101a1 of the yoke 101a on the plunger through side of the yoke 101 and the through hole 102a of the bobbin 102, It is possible to suppress the positional deviation from the bobbin 102. [

The insertion pipe 106 is made of a non-magnetic material and has a function as a plunger guide because it secures the magnetic gap between the yoke 101 and the plunger 107. [

The other side 106b of the inserting pipe 106 is fixed to the outside of the plunger through side yoke 101a through the through hole 101a1 of the plunger through side yoke 101a The receiving seat 106b1 for receiving the releasing spring 111 extending in the radially outward direction is provided and the inserting pipe 106 is urged by the urging force of the releasing spring 111 to urge the plunger- 101a so that the position is determined, the work such as adhesion is unnecessary, and the assembling work can be simplified.

As described above, since the number of parts can be reduced and the shape can be simplified, it is possible to perform a simple assembling operation without requiring a lot of labor and effort for such assembling work, It can be performed simply and in a short time.

The positioning of the permanent magnet 103 and the transfer yoke 105 can be performed by positioning the second bobbin frame 102d of the bobbin 102 on the upper side of the yoke 101c with a slight gap left on the permanent magnet side yoke 101c Only the transfer yoke 105 composed of a magnetic material and the permanent magnet 103 positioned in the transfer yoke 105 are accommodated in the upper portion 102d1 in the stable position A decision can be made.

Next, the assembling procedure of the release electromagnet device in Embodiment 1 described above will be described. Fig. 2 shows an exploded exploded perspective view of the entire release electromagnet device. 3 is a perspective view showing the yoke 101 in Embodiment 1. The yoke 101 is formed by machining a single plate into a rectangular shape and includes a plunger through-side yoke 101a having a through hole 101a1, The central side yoke body 101b bent from the plunger through side yoke body 101a toward the permanent magnet 103 side and the central yoke body 101b bent toward the center side to come in contact with the permanent magnets and the both end faces 101c1 are in contact with the yoke closing portions 101d Side yoke member 101c which forms a permanent magnet side yoke member 101c.

Since the yoke 101 is formed by machining a single plate into a rectangular shape as described above, the main yoke 1c and the yoke 1c, which are bent from the bottom yoke 1a and have an opening end 1b, And the end yoke 1d closing the opening end 1b of the main yoke 1c, the number of parts can be reduced, and since there is no joint, there is no magnetic resistance, The characteristics can be stabilized.

5, the electromagnetic coil 104 is wound around the central portion 102b between the first bobbin frame 102c of the bobbin 102 and the second bobbin frame 102d of the bobbin 102 And mounted on the outer circumferential surface. The transfer yoke 105 is accommodated in the upper portion 102d1 provided in the second bobbin frame 102d of the bobbin 102 on which the electromagnetic coil 104 is mounted, Positioning is performed, and the permanent magnet 103 is mounted on the concave portion of the transfer yoke 105 to perform positioning. The transfer yoke 105 and the permanent magnet 103 are accommodated in the upper portion 102d1 provided in the second bobbin frame 102d of the bobbin 102 so that the positioning can be stably performed reliably and simply . The transfer yoke 105 is held by the mounting springs 112 in the upper portion 102d1 of the second bobbin frame 102d of the bobbin 102. [

By providing the upper bobbin frame 102d of the bobbin 102 with the upper yoke portion 102d1 for accommodating the entirety of the transfer yoke 105 and the permanent magnet 103, The positioning of the magnet 103 can be stably performed easily and reliably. The notch portion 5e is not formed on the side of the through hole 102a of the second bobbin frame 102d of the bobbin 102 as in the conventional case described above, which is a simple structure.

Next, as shown in Figs. 7 and 8, an assembly in which the transfer yoke 105 and the permanent magnet 103 are accommodated in the upper portion 102d1 provided in the second bobbin frame 102d of the bobbin 102 The through hole 102a of the bobbin 102 is inserted into the through hole 101a1 of the yoke 101 on the plunger through side of the yoke 101 from the opening of the yoke 101, Insert to the matching position.

As described above, since the notch portion 5e is not formed on the side of the through hole 102a of the second bobbin frame 102d of the bobbin 102 as in the conventional case described above, One side 6a of the bobbin 5 is bent outward in the radial direction and engaged with the notch 5e formed in the second bobbin frame 5d of the bobbin 5, 5, it is a very simple structure, and the assemblability is also simplified.

9 and 10, the inserting pipe 106 extends from the outside of the plunger through-side yoke 101a of the yoke 101 to one side 106a of the inserting pipe 106, Through holes 101a1 of the yoke body 101a and the through holes 102a of the bobbin 102 of the inserting pipe 106 and the other side 106b Is brought into contact with the plunger through-side yoke 101a of the yoke 101. [

As described above, one insertion pipe 106 is inserted from the one side 106a of the insertion pipe 106 to the through hole 101a1 of the plunger through side yoke 101a of the yoke 101, Only by inserting the other side 106b of the insertion pipe 106 into the hole 102a until the other side 106b of the insertion pipe 106 comes into contact with the plunger through side yoke 101a of the yoke 101, The first insertion pipe 6 inserted into the through hole 5b of the plunger 7 and the second insertion pipe 8 inserted into the outer peripheral surface of the second insertion portion 7c of the plunger 7 It is possible to reduce the number of components compared with the conventional structure, and a simple structure can be obtained.

The structure for inserting and fixing the through hole 102a of the bobbin 102 of the first insertion pipe 6 is complicated as in the conventional case described above and the structure of the plunger 7 of the second insertion pipe 8 The fitting of the second insertion portion 7c to the outer circumferential surface is also complicated. In the first embodiment, however, one insertion pipe 106 is connected to the other side 106b of the insertion pipe 106, It is only necessary to insert it until it comes into contact with the through-side yoke member 101a, so that a very simple insertion operation can be performed. The one side 106a of the insertion pipe 106 is not bent outward in the radial direction as in the conventional case described above but is opposed to the transfer yoke 3 at a predetermined distance, It is a simple structure that it does not do.

11 to 14, the plate spring 110 is inserted into the other side 107c of the plunger 107 and the distal end of the other side 107c of the plunger 107 is inserted into the plate 108 The plate 108 and the plate spring 110 are fixed to the plunger 107 by the fixed support body 109 and then the release spring 111 is attached to the plunger 107 The inserting portion 107a of the plunger 107 is inserted into the inserting pipe 106 from the one side 107b of the plunger 107 and inserted into the inserting pipe 106, The spring 111 is disposed so as to have a predetermined pressing force between the receiving sheet 106b1 and the plate 108 which is the other side 106b of the insertion pipe 106. [

As described above, the plunger 107 has the first annular portion 7b, the second annular portion 7b, and the second annular portion 7b. The plunger 107 is formed by two diameters of the insertion portion 107a and the other side 107c. The second insertion portion 7c having a diameter smaller than the diameter of the first insertion portion 7b and the other side 7d having a diameter smaller than the diameter of the second insertion portion 7c It is a simple shape. In addition, since there is no second insertion portion 7c and no second insertion pipe 8 provided in the second insertion portion 7c as in the conventional case described above, a very simplified structure can be obtained.

The magnetization to the permanent magnet 103 is performed either in the state of the assembly shown in Fig. 10 or in the state of the assembly shown in Fig. 14, and the attracting force of the permanent magnet 103, (107) is attracted and held by the transfer yoke (105).

As described above, by simplifying the configuration of each component of the release type electromagnet device and reducing the number of components, it is possible to perform a simple assembly operation without requiring a lot of labor and effort for the assembly operation , The assembling work can be performed simply and in a short time.

Embodiment 2 Fig.

Embodiment 2 of the present invention will be described with reference to Fig. 15 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 2 of the present invention.

The yoke closing portion 101d formed at the position of both end faces 101c1 of the yoke 101c on the permanent magnet side of the yoke 101 is moved in the direction orthogonal to the axial direction of the plunger 107 The yoke closing portions 101e formed at the positions of both end faces 101c1 of the yoke 101c on the permanent magnet side of the yoke 101 are engaged with each other Irregularities are provided.

In the second embodiment, the yoke closing portion 101e of the yoke 101 is formed by engaging the triangular-shaped convex portion and the triangular-shaped concave portion with each other, and the magnetic characteristics can be improved as compared with the first embodiment described above.

Embodiment 3:

Embodiment 3 of the present invention will be described with reference to Fig. 16 is a perspective view showing a yoke in a release electromagnet device according to Embodiment 3 of the present invention.

Although the yoke closing portion 101e of the yoke 101 has been described to have the triangular convex portion and the triangular concave portion engaged with each other in Embodiment 2 described above, The yoke closing portion 101f is formed by engaging a convex portion of a quadrangular shape and a concave portion of a quadrangular shape with each other, and exhibits the same effect as that of Embodiment 2 described above.

Embodiment 4.

Embodiment 4 of the present invention will be described with reference to Fig. 17 is a perspective view showing a yoke in a release type electromagnet device according to Embodiment 4 of the present invention.

The yoke closing portion 101d formed at the position of both end faces 101c1 of the yoke 101c on the permanent magnet side of the yoke 101 is moved in the direction orthogonal to the axial direction of the plunger 107 The yoke 101 formed in the rectangular shape is prone to bending deformation if an external force is applied after the molding, so that the yoke closure portion 101d of the yoke 101 is opened and the magnetic properties There is a possibility of influence. The yoke closing portion 101e of the yoke 101 in the above-described Embodiment 2 engages the triangular-shaped convex portion and the triangular-shaped concave portion, and the yoke closing portion 101e of the yoke 101 in the above- 101f engage with each other in the shape of a quadrilateral convex portion and a quadrangular concave portion so that even when the yoke closure portions 101e, 101f are opened, the concave-convex engagement is maintained, so that the influence on the magnetic characteristics can be suppressed .

However, in the fourth embodiment, the yoke closing portion 101g of the yoke 101 is engaged with the concave and convex shape in the entangled shape, so that the yoke closing portion 101g of the yoke 101 is not deformed, It is not structured. That is to say, the convex end portions on both end faces 101c1 of the yoke 101c on the permanent magnet side of the yoke 101 are larger than the dimensions of the convex root portions and the concave end portions on both end faces 101c1 And the dimension is smaller than the dimension of the concave root portion. The concave-convex engagement of the yoke closing portion 101g of the yoke 101 is such that the convex front end portion is engaged with the concave root portion, and the convex root portion is engaged with the concave front end portion. The permanent magnet side yoke body 101c of the yoke 101 is bent so that the yoke closing portion 101g of the yoke 101 is engaged with the concave and convex portions, The yoke closure portion 101g of the yoke 101 can be prevented from being opened, and the magnetic characteristics are not affected.

As described above, the yoke is constituted by bending a single plate into a rectangular shape and forming a yoke closing portion at positions of both end faces of the permanent magnet side yoke contacting the permanent magnet, and the yoke closing portion of the yoke is constituted by the above- But the shape of the other yoke closing portion is not limited.

It is to be noted that the present invention can be freely combined with each embodiment within the scope of the invention, and each embodiment can be suitably modified or omitted.

[Industrial Availability]

INDUSTRIAL APPLICABILITY The present invention is preferable for realizing a release type electromagnet device capable of obtaining stable release characteristics.

Claims (8)

A bobbin having a through hole at its center and having an electromagnetic coil mounted on an outer circumferential surface of the central portion between the first bobbin frame and the second bobbin frame; A transfer yoke disposed on the bobbin, a permanent magnet disposed on the transfer yoke, a yoke accommodating the bobbin, the electromagnetic coil, the transfer yoke, the permanent magnet in the inner space, A plunger inserted into an inner circumference of the insertion pipe and moving in a direction of coming into contact with and falling from the transfer yoke; and a plunger moving from the transfer yoke And a release spring for pressing the transfer yoke against the transfer yoke by a force of attraction of the permanent magnet, Wherein the attraction force of the permanent magnet is reduced when the electromagnetic coil is energized and released in a direction away from the transfer yoke by a pressing force of the release spring, A plunger through-side yoke body having a through hole communicating with a through-hole of the bobbin, the bobbin being disposed on the first bobbin frame body side of the bobbin, and a central yoke body bent from the plunger through- And a permanent magnet side yoke which is bent from the central side yoke to the center of the through hole of the bobbin and abuts on the permanent magnet and has both end faces forming a yoke closing portion, And is disposed apart from the transfer yoke. The method according to claim 1,
Wherein the yoke is formed by bending a single plate into a rectangular shape and forming the yoke closing portion at positions of both end faces of the permanent magnet side yoke contacting the permanent magnet. The method according to claim 1,
Wherein the inserting pipe is inserted into the through hole of the plunger through-side yoke and the through hole of the bobbin, one side of the through-hole extends to the transfer yoke side, and the other side of the through- Wherein the through-hole is formed as a receiving seat extending outward in the diameter direction from the through-hole of the through-side yoke body. The method according to any one of claims 1 to 3,
The inserting pipe is inserted into the through hole of the plunger through-side yoke and the through-hole of the bobbin from the outer side of the plunger through-side yoke so as to correct a deviation between the yoke and the bobbin Wherein the electromagnet is a magnet. The method of claim 3,
And the release spring is held by the receiving sheet on the other side of the insertion pipe. The method of claim 4,
And the release spring is held by the receiving sheet on the other side of the insertion pipe. The method according to claim 1 or 2,
Wherein the yoke closing portions located on both end faces of the permanent magnet side yoke body of the yoke have irregularities engaging with each other. A step of mounting an electromagnetic coil on the outer peripheral surface of the central portion between the first bobbin frame body and the second bobbin frame body with a through hole at a central portion of the bobbin, Comprising the steps of accommodating a transfer yoke and a permanent magnet in a surrounding portion of the bobbin and an assembly for accommodating the transfer yoke and the permanent magnet in the upper portion of the second bobbin frame of the bobbin, A plunger through-side yoke having a through-hole communicating with the through-hole of the bobbin is disposed, and a central yoke bent from the plunger through-side yoke to the permanent magnet is disposed, The bobbin is bent from the side yoke to the center of the through hole of the bobbin and abuts against the permanent magnet, A step of inserting the yoke into a yoke constituted by disposing a permanent magnet side yoke constituting a yoke closing portion; a step of inserting the through hole of the yoke into the through hole of the plunger through side yoke of the yoke from the one side, Inserting the other end of the plunger into the through hole of the plate until the other end of the plunger abuts against the plunger through-side yoke of the yoke; The plate spring and the plate spring are fixed to the plunger by a fixed support, then the release spring is inserted into the plunger, the plunger is inserted from the one side of the plunger into the insertion pipe, By inserting the tube portion into the insertion pipe, the release spring The method of the insertion and release the other side having a step of arranging so as to have a predetermined pressure between said plate-like magnet unit of the pipe.

Images