KR101826074B1 - solenoid device - Google Patents

Abstract

Disclosed is a solenoid device. The solenoid device according to an embodiment of the present invention comprises: a plunger provided to be able to reciprocate in a cylindrical shaped coil and at the inside of the coil; a housing for accommodating the coil and the plunger to allow entering of the plunger through one end thereof, and opened at the other end thereof; a cap injection molded and coupled to the housing to cover the opened other end of the housing, and to which a net shaped vent communicating the inside and the outside of the housing is integrally insert-injected; and a protection member covering the vent while the vent is able to communicate with the outside, and assembled to the cap wherein the vent is inserted and in an inject-molded state.

Description

A solenoid device

The present invention relates to a solenoid device provided for smooth water discharge.

Generally, the solenoid device includes a coil wound in a cylindrical shape and a plunger disposed in the coil and moved by a magnetic field formed on the coil.

Such a solenoid device is utilized for various types of valves and switches by utilizing the movement of the plunger.

For example, the solenoid device can be used as a magnet switch for interrupting the power supply of the starter motor for starting the vehicle engine and engaging the pinion gear with the ring gear of the flywheel.

On the other hand, in a solenoid device that operates using a magnetic field formed in a coil through current application, there is a high possibility that a failure due to moisture occurs.

When the magnet switch of the starter motor is taken as an example, if the moisture remaining in the interior of the starter motor is frozen around the terminal, the starter motor can not be energized and a startup error may occur.

An embodiment of the present invention is to provide a solenoid device provided to prevent a failure due to moisture, and to provide a solenoid device that can economize the product by simplifying the structure and manufacturing process.

Also, it is an object of the present invention to provide a solenoid device capable of preventing the occurrence of a trouble due to moisture, and to provide a solenoid device with high durability and completeness of the product.

According to an aspect of the present invention, there is provided a plasma processing apparatus including a cylindrical coil and a plunger reciprocally disposed inside the coil; A housing accommodating the coil and the plunger to allow the plunger to enter and exit through one end thereof and the other end thereof being opened; A cap integrally insert-injected with a net-shaped vent which is connected to the housing so as to cover the other open end of the housing and communicates between the inside and the outside of the housing; And a protective member which is covered with the vent so as to be communicable with the outside, and which is assembled to the cap in a state in which the vent is inserted and injection-molded.

The cap may be provided with a fixing hole for fixing the vent, and the vent may be insert-molded into the cap such that the outer circumferential periphery is buried between the inner surface and the outer surface of the cap outside the fixing hole.

A plurality of protrusions spaced apart from each other in the circumferential direction are provided on the outer surface of the cap around the vent, and the protection member is coupled between the protruding direction ends of the plurality of protrusions, And the vent may be communicated with the outside through a space between the plurality of protrusions.

A stepped seating groove is provided on the inner side of the protruding direction end of the protruding portion so that the outer edge of the protective member is seated. The depth of the seating groove may be equal to or greater than the thickness of the protective member.

The air holes are formed between the protruding portions, and the air holes may be provided to be bent along the radial direction.

The protective member may be fixed to the cap by any one of heat sealing, ultrasonic welding, and press fitting.

According to the solenoid apparatus according to the embodiment, since the net-shaped vent for discharging the moisture inside the apparatus to the outside is injected integrally into the cap, it is possible to prevent the trouble from being caused by the moisture, So that the product can be economically realized.

Further, the solenoid apparatus according to an embodiment of the present invention further includes a protection member which is inserted when the cap is injected and covers the vent which is integrally formed with the cap so as to be communicable with the outside, thereby further enhancing the durability and completeness of the product And it is possible to prevent the inflow of water into the housing through the vent.

1 is a cross-sectional view schematically showing a general configuration of a solenoid device according to an embodiment.
Fig. 2 is a perspective view showing the structure of the cap of Fig. 1; Fig.
FIG. 3 is a perspective view showing the structure of FIG. 2 viewed from the bottom.
4 is a bottom view of the cap shown in Fig.
FIG. 5 is a cross-sectional view showing a recessed structure of a mold for injection molding of the cap shown in FIG. 1. FIG.
6 is a perspective view showing the structure of the cap of the solenoid device according to another embodiment, and shows a state before the protection member is assembled.
Fig. 7 shows a state in which the protection member is assembled in the state of Fig. 6;
8 is an enlarged perspective view of the vent-side structure of the cap of the solenoid device of Fig. 6;
9 is a cross-sectional view of the cap of the solenoid device of FIG. 7, showing the sectional structure of the vent and the protective member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1, a solenoid apparatus 1 according to an embodiment includes a cylindrical coil 2 and a plunger 3 provided inside the coil 2 so as to be reciprocally movable.

The coil 2 has a cylindrical shape through a winding pattern and the plunger 3 disposed inside the coil 2 moves through a magnetic field formed in the coil 2 due to the application of current.

The solenoid device (1) has a housing (4) for accommodating a coil (2). The housing 4 can be opened and closed to allow the plunger 3 to reciprocate inside the coil 2 through one end and the open end of the housing 4 to be closed through the cap 5 .

Such a solenoid device 1 can be used as various kinds of valves or switches through the use of the plunger 3 and its peripheral configuration.

The solenoid device 1 may be used as a magnet switch for interrupting the power supply of the starter motor for starting the vehicle engine and engaging the pinion gear with the ring gear of the flywheel.

The configuration of the solenoid device 1 that can be used as a magnet switch will be described in more detail as follows.

The cap 5 may be injection molded with synthetic resin for insulation. A plurality of terminals 6 are mounted on the cap 5, and the terminals 6 connect between the battery of the vehicle and a starter motor (not shown).

A fixed iron core 7 is fixed to the housing 4 and a fixed iron core 7 interacts with the coil 2. The contact rod 8 is inserted into the fixed core 7 in a linear reciprocating manner and the contact rod 8 is disposed in a straight line in the axial direction with the plunger 3.

A contact plate 8a is provided on the contact rod 8 so as to electrically connect the terminal 6 to the terminal 6 and a return spring 9 for returning the plunger 3 is provided on the contact rod 8 ) Can be installed.

When the start switch of the vehicle is turned on and the coil 2 is excited, the plunger 9 is pulled toward the terminal 6 by the magnetic field formed on the coil 2, and the pinion gear (not shown) of the starter motor (Not shown) is engaged with a ring gear (not shown) of an engine-side flywheel (not shown). At the same time, as the contact plate 8a provided on the contact rod 8 connects the terminals 6, the starter motor (not shown) receives the current of the battery (not shown) . As the start switch is turned off in the state where the engine is started, the current of the coil 2 is shut off. At this time, the return spring 8 returns the plunger 3 to the original state, And the ring gear (not shown).

On the other hand, the solenoid device 1, which operates using the magnetic field formed in the coil 2 through the application of the electric current, is likely to cause a failure due to moisture.

Even in the case of a magnet switch used in a starter motor (not shown), if the moisture remaining in the interior of the magnet switch is frozen around the terminal while the ambient temperature is lowered, it may fail to energize and cause a startup error.

The cap 5 is provided with a vent 10 in the form of a net that communicates between the inside and the outside of the housing 4. The solenoid device 1 is provided with a vent 10 for communicating between the inside and the outside of the housing 4. [

The vent 10 can smoothly discharge water vapor or atmospheric gas to the outside of the housing 4 without staying inside the housing 4 to effectively prevent the occurrence of a trouble in the solenoid device 1 due to freezing of moisture, .

2 to 4, the vent 10 may be integrally insert injected into the injection-molded cap 5 so that a large change in the existing process for forming the cap 5 is not required, The solenoid device 1 can be economically realized because there is no possibility that the productivity is lowered due to the addition of the vent 10.

The vent 10 may be provided in the form of a thin plate having a plurality of fine vent holes and may have a circular or polygonal thin plate shape having a circular or polygonal outer shape.

The cap 5 includes a barrel portion 5a coupled to the open end of the housing 4 and a blocking portion 5b covering one side of the barrel portion 5a and the blocking portion 5b is formed to be flat And may include a plurality of plate portions 5c and 5d. In such a structure of the cap 5, the vent 10 may be provided on the flat plate portion 5c so that the insert can be easily inserted.

In the drawing, reference numerals 5e and 5f denote a terminal installation part for installing the power supply terminal and a terminal installation hole for installing the terminal 6. [ The vent 10 may be provided on the other plate portion 5c through a stepped portion with the plate portion 5d provided therebetween so as not to interfere with the terminal 6 and the power supply terminal.

A fixing hole 5g for fixing the vent 10 is provided in the plate portion 5c and the outer circumference of the vent 10 is formed between the inner surface and the outer surface of the plate portion 5c outside the fixing hole 5g The insert 5 is inserted into the cap 5 so as to be in a buried shape so that it can be integrated into the cap 5 in a simple structure to cover the fixing hole 5g. Reference numeral 5i denotes a cover portion that covers the outer periphery of the vent 10 outside the fixing hole 5g in the plate portion 5c.

5 shows the structure of the mold 20 for injection molding the cap 5 and includes an upper core 21 and a lower core 22 which provide a molding space 20a for the cover portion 5i around the fixing hole 5g. 22 are shown.

5, when the cap 5 is injection molded, molten resin is injected into the molding space 20a formed between the upper core 21 and the lower core 22 to correspond to the shape of the cap 5 In order for the vent 10 to be buried evenly between the inner surface and the outer surface of the outer plate 5c of the fixing hole 5g while the vent 10 covers the fixing hole 5g, It is preferable that the outer diameter of the vent 10 inserted in the molding space 20a is supported during the injection of the molten resin so that the centers of the vent 10 and the fixing hole 5g are aligned with each other. The lower core 22 is provided with a support pin 23 for supporting the outer diameter of the vent 10 inserted in the molding space 20a so that the support pin 23 The support groove 5h corresponding to the shape of the support pin 23 may be provided on the inner surface of the cover portion 5i corresponding to the position of the support pin 23a.

The support pins 23 are arranged to be spaced apart from each other along the circumferential direction so as to completely block the flow of the vent 10 during the process of injecting the molten resin into the molding space 20a by evenly supporting the outer diameter of the vent 10, It is preferable that the vent 10 be provided with three support grooves 5h along the outer circumference of the vent 10 on the inner surface of the molded plate 5c have. The support pins 23 and the support grooves 5h may be configured to be two or more within a range in which stable support of the vent 10 is possible.

It is preferable that the cover portion 5i is thicker than the plate portion 5c around the periphery of the vent 10 so that the molten resin can flow around the vent 10 uniformly during injection. It is preferable that a thickness difference a of about 0.4 to 0.6 mm is formed between the cover portion 5i and the surrounding plate portion 5c in consideration of the amount of material used for forming the cap 5.

The width b of the cover portion 5i is set in the range of 1.0 to 3.0 mm so that the air can be smoothly discharged through the vent 10 while ensuring sufficient airtightness between the vent 10 and the fixing hole 5g .

In addition, the vent 10, which is provided in a net shape and is exposed to the outside of the cap 5 except for the outer circumference, can be easily damaged by an external impact, There is a fear that it will result in an inverse function of being introduced into the apparatus.

Therefore, in another embodiment, the solenoid device 1 may be configured to further include the protection member 30 covering the vent 10 in a state in which the vent 10 can communicate with the outside.

As shown in Figs. 6 to 9, the protective member 30 may be provided in the form of a thin plate which does not allow passage of fluid.

The protective member 30 can be simply assembled to the cap 5 'that has been molded separately from the cap so that the moldability of the cap 5' is not deteriorated due to the addition of the protective member 30 . At this time, the protection member 30 can be assembled to the cap 5 'through thermal fusion, ultrasonic fusion, or press fitting.

For the insulation of the cap 5 ', the protection member 30 can be injection molded separately from the cap 5' through the synthetic resin. A plurality of protrusions 40 may be provided on the outer surface of the plate 5c around the vent 10 so as to be spaced apart from each other along the circumferential direction. The cap 5 may be integrally formed.

The protruding length of the protruding portion 40 protruding from the upper surface of the plate portion 5c is set to be larger than the thickness of the protective member 30 .

The air hole 40b is formed between the protruding portions 40 in a state where the protection member 30 is pressed and fixed between the ends of the protruding portions 40 and the space between the protector 40 and the vent 10 The air passage 40a communicating with the outside can be formed through the plurality of air holes 40b formed in the periphery thereof. Therefore, the vent 10 can smoothly perform the original function of discharging the moisture to the outside even when the outside is shielded through the protective member 30.

The air hole 40b may be bent along the radial direction so that water or foreign matter from the outside can be easily guided to the vent 10 through the air passage 40a.

Therefore, the protection member 30 separately made from the cap 5 'is assembled and fixed to the injection-molded cap 5' in a state where the vent 10 is integrally inserted, and the vent 10 in this state The front surface is covered by the protection member 30 so as to be protected from external impacts. Also, in this state, since the foreign matter introduced into the direct vent 10 is blocked by the protection member 30, it is possible to suppress the inverse function of the vent 10 that allows the foreign matter to flow into the housing 4 The function of the vent 10 for discharging the moisture inside the housing to the outside can be maintained by the air passage 40a formed between the protection member 30 and the vent 10.

A stepped mounting groove 41 is provided on the inner side of the protruding direction end of the protruding portion 40 so that the outer surface of the protecting member 30 is seated. The depth of the mounting groove 41 is equal to the thickness of the protecting member 30, May be provided to be deeper than the thickness of the protection member (30). That is, the depth of the seating groove 41 may be at least equal to the thickness of the protection member 30. [

The protection member 30 once pressed between the ends of the protrusions 40 is prevented from protruding out of the protrusions 40 in a state where the outer circumference is seated in the mounting recess 41. Therefore, There is no fear of separation from the cap 5 'due to the object.

1: Solenoid device 2: Coil
3: plunger 4: housing
5: Cap 5e: Fixing hole
6: Terminal 20: Mold
20a: molding space 21: upper core
22: Lower core 23: Support pin
30: protective member 40:
40a: Air flow path 40b: Air hole
41: seat groove

Claims (7)

A cylindrical coil and a plunger reciprocally movable inside the coil;
A housing accommodating the coil and the plunger to allow the plunger to enter and exit through one end thereof and the other end thereof being opened;
A cap integrally insert-injected with a net-shaped vent which is connected to the housing so as to cover the other open end of the housing and communicates between the inside and the outside of the housing; And
And a protective member which is covered with the vent so as to be communicable with the outside and assembled to the cap in a state where the vent is inserted and injection molded. The method according to claim 1,
The cap is provided with a fixing hole for fixing the vent,
Wherein the vent is insert-injected into the cap such that an outer periphery thereof is buried between an inner surface and an outer surface of the cap at a position outside the fixing hole.

delete The method according to claim 1,
A plurality of protrusions spaced from each other along the circumferential direction are provided on the outer surface of the cap around the vent,
Wherein the protective member is coupled between the projecting direction ends of the plurality of projections,
Wherein the space between the protection member and the vent communicates with the outside through a space between the plurality of protrusions while the protection member is fixed. 5. The method of claim 4,
A stepped mounting groove is formed on an inner side of a protruding direction of the protruding portion so that an outer rim of the protecting member is seated,
Wherein the depth of the seating groove is equal to or greater than the thickness of the protective member. 5. The method of claim 4,
An air hole is formed between the projecting portions,
The air hole has a solenoid device The method according to claim 1,
Wherein the protective member is fixed to the cap by heat fusion, ultrasonic welding, or press fitting.

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