JP2008053159A - Waterproof connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a waterproof connector which can prevent an arc-discharge occurring when connector housings are detached from each other and has a simple structure. <P>SOLUTION: The waterproof connector 1 is composed of a female housing 2, a male housing 3 and a packing 4. The packing 4 is provided on a male terminal inserting face 32 of the male housing 3. The packing 4 contains an arc-discharge prevention grease. When both of housings 2, 3 are coupled and detached, an electrical contact part 71 of the male terminal 7 slides on and contacts an inner face 42 of a penetrated hole of the packing 4 and the arc-discharge prevention grease is coated on an outer face of the electrical contact part 71 to prevent an arc-discharge. The grease is made from an insulation grease containing a composition of 95 to 70 wt.% of a base oil except fluorine group oil and 5 to 30 wt.% of a thickening agent and additive. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a waterproof connector capable of applying an arc discharge suppression grease to an outer surface of a male terminal.

  A wire harness used in an automobile as a moving body is a fitting between a male connector housing (hereinafter referred to as a male housing) and a female connector housing (hereinafter referred to as a female housing) formed in a cylindrical shape ( Connector) obtained by connector connection). The male housing and the female housing described above accommodate a terminal with an electric wire. When the male housing and the female housing are fitted to each other, the aforementioned terminals with electric wires come into contact with each other and are electrically connected.

  As the above-described connector, as disclosed in Patent Document 1, a waterproof connector that prevents water droplets such as condensation from entering a contact portion where the terminals contact each other may be used. The waterproof connector disclosed in Patent Document 1 includes the above-described male housing, female housing, and packing as a seal member. The male housing has a main body that accommodates a female terminal. The female housing accommodates a male terminal formed in a rod shape inside a cylindrical portion formed in a cylindrical shape. The packing is attached to the inner wall of the cylindrical portion (refers to the inner surface of the cylindrical portion and the surface opposite to the surface on which the male terminal of the main body portion is inserted / extracted). This packing is made of an elastic synthetic resin such as rubber. In this waterproof connector, the main body portion of the male housing is inserted into the cylindrical portion of the female housing, and the male terminal of the female housing is inserted into the female terminal of the male housing, so that the male housing and the female housing are fitted together. In addition, when the housings are fitted to each other, the packing is in close contact with the surface on which the male terminal of the main body portion of the male housing is inserted and removed, and the surface on which the male terminal of the main body portion is inserted and removed and the back wall of the cylindrical portion Keep water tight.

  By the way, in recent years, it has been studied to boost the standard voltage of the automobile power supply from the usual 14V to 42V. In this way, in the waterproof connector disclosed in Patent Document 1 described above, the following voltage is increased. There is a problem. That is, the arc discharge generated between the terminals when the connector housings are detached may cause damage to the terminals, making it impossible to refit the connector housings or reducing the connection reliability between the terminals. It is a problem. Further, since the arc energy rises exponentially as the applied voltage rises, it is considered that the above-described countermeasure against arc discharge is indispensable when the waterproof connector is mounted on a high-voltage automobile.

The applicant of the present application has previously proposed a connector capable of reducing and preventing the arc discharge (see Patent Document 2). This connector is composed of a female housing and a male housing that are detachably fitted and connected, and a sponge impregnated with an arc discharge inhibitor is attached to the male terminal insertion / extraction surface of the male housing. The sponge is provided with a through hole through which the male terminal of the female housing is slidably contacted, and an arc discharge inhibitor is applied to the outer surface of the male terminal through the through hole every time the housing is inserted and removed. Is done. Such a connector reduces the arc discharge duration and protects the outer surface of these terminals by the action of an arc discharge inhibitor applied to the outer surfaces of the male terminals, that is, the electrical contacts between the male terminals and the female terminals. Thus, damage due to arc discharge can be reduced.
Japanese Patent Laid-Open No. 2001-257028 JP 2003-45555 A

  However, the connector having a sponge containing the arc discharge inhibitor (see Patent Document 2) has a problem that the space-mounting connector to which the sponge is attached becomes enlarged. Further, when the sponge containing the arc discharge inhibitor is simply combined with the waterproof connector disclosed in Patent Document 1, the packing attached to the inner wall of the cylindrical portion and the male terminal of the main body portion are inserted and removed. There is also a problem that the waterproof performance of the connector is lowered due to contact with the sponge attached to the surface to be formed.

  Accordingly, an object of the present invention is to provide a waterproof connector having a simple configuration capable of suppressing arc discharge generated between terminals when the connector housings are detached.

  In order to achieve the above-mentioned object, the invention described in claim 1 includes a first connector housing having a rod-shaped male terminal, and a cylindrical shape that houses the male terminal and is electrically connected to the male terminal. A second connector housing having a female terminal and fitted to the first connector housing; a seal attached to one of the first connector housing and the second connector housing and maintaining a watertight relationship between the male terminal And the sealing member includes a through hole through which the male terminal passes and the male terminal slides on the inner surface of the through hole. The arc discharge suppression grease is applied to the outer surface of the male terminal by contact, and the arc discharge suppression grease is free from fluorine oil. A waterproof connector, characterized in that the comprise configured insulative grease Suoiru.

  The invention described in claim 2 is characterized in that, in the invention described in claim 1, the seal member is attached to a male terminal insertion / extraction surface from which the male terminal of the second connector housing is inserted / extracted. To do.

  According to the invention described in claim 1, when the male terminal passes through the through hole of the sealing member including the insulating arc discharge suppressing grease including the base oil excluding the fluorine-based oil, and When the other connector housing abuts against the seal member and the seal member is compressed, the arc discharge suppression grease that exudes from the seal member is applied to the outer surface of the male terminal, and then the connector housings are fitted together Thus, the male terminal having the outer surface coated with the arc discharge suppression grease is electrically connected to the female terminal. When the connector housings are separated (when removed), the arc discharge suppression grease applied to the outer surface of the male terminal, that is, the electrical contact between the male terminal and the female terminal, is generated between these terminals. In addition to shortening the duration, the surface of these terminals is protected, so that the influence of arc discharge can be reduced. Further, since the sealing member has both a waterproof function and an arc discharge suppression grease application function, it is not necessary to provide a separate arc discharge suppression grease application structure, and the configuration of the connector can be simplified. . Further, since such a waterproof connector has the same configuration as the conventional waterproof connector except that the grease is included in the seal member, it can be assembled with the conventional waterproof connector assembly line and assembled at a low cost. be able to.

  According to the second aspect of the present invention, the male terminal passes through the through hole when the connector housings are fitted (inserted) and when the connector housings are detached (extracted). Arc discharge suppression grease is applied to the outer surface of the terminal. Since the arc discharge suppression grease is applied to the outer surface of the male terminal each time the connector housings are fitted and detached, the effect of suppressing the arc discharge is effective over time. It will not fade out by repeating the above. Therefore, it is possible to provide a waterproof connector that can maintain the effect of suppressing arc discharge even when the connector housings are repeatedly inserted and removed.

  A waterproof connector according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a cross-sectional view showing a state in which a female housing and a male housing of a waterproof connector according to a first embodiment of the present invention are fitted. FIG. 2 is a cross-sectional view illustrating a state where the female housing and the male housing of the waterproof connector illustrated in FIG. 1 are not fitted. FIG. 3 is a perspective view showing packing of the waterproof connector shown in FIG.

  The waterproof connector 1 shown in FIG.1 and FIG.2 comprises the wire harness routed in a motor vehicle etc. FIG. The waterproof connector 1 includes a female connector housing (hereinafter referred to as a female housing) 2 as a first connector housing, a male connector housing (hereinafter referred to as a male housing) 3 as a second connector housing, and a sealing member. The packing 4 is provided.

  The female housing 2 is made of synthetic resin, and has a main body portion 5 and a cylindrical tube portion 6. In the present specification, a connector housing that is formed in a cylindrical shape and has a cylindrical portion 6 into which a later-described main body portion 11 of the male housing 3 is inserted is referred to as a female connector housing.

  The main body 5 accommodates a plurality of male terminal fittings (hereinafter referred to as male terminals) 7. The main body 5 has a plurality of terminal accommodating chambers 8 arranged in parallel with each other. Each terminal accommodating chamber 8 extends linearly and accommodates the male terminal 7 described above.

  The male terminal 7 has a known configuration made of a copper material or the like, and is formed into a rod-like shape, and an electric contact portion 71 that comes into contact with elastic contact pieces 13a and 13b of the female terminal 13 described later, and a wire are crimped. And an electric wire connecting portion (not shown) to be connected. The male terminal 7 is assembled to the female housing 2 in a state where an arc discharge suppression grease described later is not applied.

  The cylindrical part 6 receives a body part 11 (to be described later) of the male housing 3 on the inner side. The cylindrical portion 6 is formed in a box shape (cylindrical shape) by a peripheral wall 9 connected to each outer edge of the main body portion 5. That is, the cylinder part 6 is connected to the main body part 5. An edge of the peripheral wall 9 away from the main body 5 forms an opening 10 for receiving the main body 11 of the male housing 3. Further, in the present specification, the portion 21 that forms the outer edge of the main body 5 and forms the inner surface of the cylindrical portion 6 is referred to as a “back wall”. The back wall 21 is formed flat. Further, the terminal accommodating chamber 8 communicates with a space that penetrates the inner wall 21 and is surrounded by the peripheral wall 9, that is, the inside of the cylindrical portion 6. That is, when the male terminal 7 is accommodated in the terminal accommodating chamber 8 from the main body portion 5 side, the electrical contact portion 71 protrudes inside the cylindrical portion 6.

  The male housing 3 is made of synthetic resin and has a main body 11. In the present specification, the connector housing having the main body portion 11 and the like inserted into the cylindrical female housing 2 is referred to as a male connector housing.

  The main body 11 houses a plurality of female terminal fittings (hereinafter referred to as female terminals) 13 as shown in FIG. The main body 11 has a plurality of terminal accommodating chambers 14 arranged side by side. Each terminal accommodating chamber 14 extends in a straight line and accommodates the female terminal 13 described above.

  The female terminal 13 has a known configuration made of a copper material or the like, is formed in a hollow rectangular tube shape, and receives an electrical contact portion 15 that receives the electrical contact portion 71 of the male terminal 7 inside, and an electric wire. And a wire connecting portion (not shown) to be connected by crimping. A pair of elastic contact pieces 13 a and 13 b that are opposed to each other are provided inside the electric contact portion 15. The electrical contact portion 71 of the male terminal 7 inserted into the electrical contact portion 15 is elastically contacted with the elastic contact pieces 13a and 13b by being sandwiched between the elastic contact pieces 13a and 13b. The female terminal 13 is assembled to the male housing 3 in a state in which a later-described arc discharge suppression grease is not applied.

  In the present specification, the surface 32 that is the outer wall of the main body 11 and faces the inner wall 21 of the female housing 2 is referred to as a “male terminal insertion / extraction surface”. The male terminal insertion / extraction surface 32 is provided with a through hole 31 for allowing the electrical contact portion 71 of the male terminal 7 to pass through the electrical contact portion 15 of the female terminal 13. Furthermore, a packing 4 described later is attached to the male terminal insertion / extraction surface 32, and a plurality of hooks 33 for fixing the packing 4 are formed.

  The packing 4 attached to the male terminal insertion / extraction surface 32 is made of an elastically deformable synthetic resin such as rubber or urethane, and is formed in a plate shape as shown in FIG. Further, the packing 4 has a plurality of through holes 41. These through holes 41 are provided at positions overlapping the through holes 31 in a state where the packing 4 is attached to the male terminal insertion / extraction surface 32, and the electrical contact portions 71 of the male terminals 7 are passed therethrough. Further, the through hole 41 is formed to have such a size that the inner surface 42 of the through hole 41 and the outer surface of the electric contact portion 71 are in sliding contact when the electric contact portion 71 of the male terminal 7 passes. Further, the “sliding contact” means that the contact moves while elastically contacting. Moreover, the outer peripheral part 43 surrounding the through-hole 41 is formed thicker than other parts, and when the housings 2 and 3 are fitted to each other, the outer peripheral part 43 comes into close contact with the back wall 21. Thus, the back wall 21 and the male terminal insertion / extraction surface 32 are kept watertight, and the back wall 21 and the male terminal insertion / extraction surface 32 and the male terminal 7 are kept watertight.

  In addition, the packing 4 is obtained by pouring the arc-discharge-suppressing grease (hereinafter simply referred to as “grease”) into the liquid synthetic resin and pouring it into a production mold and solidifying it into a solid. The grease contacts the inner surface 42 of the through hole 41 of the packing 4 with the electrical contact portion 71 of the male terminal 7 and the back wall 21 hits the packing 4 when the housings 2 and 3 are fitted to each other. When the packing 4 is compressed, the packing 4 oozes out from the packing 4 and is applied to the outer surface of the electrical contact portion 71. Further, when the male terminal 7 having the outer surface coated with grease is electrically connected to the female terminal 13, the grease applied to the male terminal 7 adheres to the female terminal 13, and the male terminal 7 and the female terminal Grease is applied to the electrical contacts with 13. This suppresses arc discharge that occurs between the male terminal 7 and the female terminal 13 when the housings 2 and 3 are detached.

  As the above grease, an insulating one comprising 95 to 70% by weight of base oil excluding fluorine-based oil and 5 to 30% by weight of thickener and additive (the whole grease being 100% by weight) .) Can be used.

The base oil is composed of one or more selected from paraffinic mineral oil, naphthenic mineral oil, poly-α-olefin (PAO) oil, diester oil, polyol ester oil, diphenyl ether oil, and polyalkylene glycol oil. It is preferable to use one or two kinds selected from low-viscosity polyol ester oils and low-viscosity polyalkylene glycol oils. The reason why low-viscosity oil is preferable is that even if the speed at which the terminals 7 and 13 are separated is high because the stringiness is small and the electrical contact is excellent in the wettability to the metal (that is, the surfaces of the terminals 7 and 13). This is because a sufficient oil film is formed on the metal of these electrical contacts (that is, the surfaces of the terminals 7 and 13). Then, a sufficient oil film is formed on the metal of the electrical contact (that is, the surface of the terminals 7 and 13), thereby reducing the arc discharge energy. Moreover, in this specification, it is called "it is low viscosity" that kinematic viscosity is the range of 8-100 mm < ² > / S (40 degreeC).

  As the thickener, it is preferable to use one or more selected from lithium soap, calcium soap, urea compound, aluminum soap, calcium composite soap, and organic bentonite, and more preferably. , One or two selected from organic bentonite and calcium composite soap.

  As said additive, it is preferable to use what was comprised from 1 type, or 2 or more types selected from antioxidant, antistatic agent, and a thickener. The antistatic agent may be one or more selected from nonionic surfactants, anionic surfactants, cationic surfactants, and mixed surfactants of anionic and cationic types. It is preferable to use a configured one.

  Moreover, about the compounding ratio of the said thickener and the said additive, it is preferable that the said thickener is 15 weight% or less with respect to the said base oil, and the said additive is 10 weight% or less. The reason why the above range is preferable is that when grease containing a large amount of thickener is applied to the electrical contacts between the terminals 7 and 13, the arc discharge energy is reduced compared to when no grease is applied, but between the terminals 7 and 13. This is because the energization performance deteriorates. The inventors of the present application apply various types of grease to the electrical contacts between the terminals 7 and 13, apply a load of 89 to 100 gf to the electrical contacts, and energize if the contact resistance between the electrical contacts is 40 mΩ or less. A current-carrying performance test was performed to make it favorable. According to this energization performance test, the grease containing 5 to 11% by weight of the thickener with respect to the base oil is good in energization, and the energization performance starts to decrease when the proportion of the thickener is 15% by weight. For example, it was found that a grease containing 5 to 11% by weight of a thickener with respect to the base oil deteriorates the energization performance. Moreover, the said additive does not necessarily need to be contained.

  The grease having the above-mentioned composition is basically a non-conductor and therefore does not pass electricity. However, even when grease is applied to the outer surface of the electrical contact portion 71, that is, the electrical contact between the terminals 7 and 13, electricity is applied at a location where the oil film is thin. When these terminals 7 and 13 deviate from each other (when they are disengaged from the fitted state), current concentrates at the final deviating point of each of the terminals 7 and 13, and this portion melts by Joule heat to form a bridge. To do. When the terminals 7 and 13 are further separated, the bridge is broken, and electricity is passed through the air layer and arc discharge occurs. At this time, if grease is applied to the electrical contacts between the terminals 7 and 13, the arc discharge duration time is shortened and the surfaces of the terminals 7 and 13 are protected by the oil film, thereby reducing the influence of arc discharge. The

  The reason why it is not preferable to use a fluorinated oil as the base oil constituting the grease of the present invention is that the fluorinated oil is thermally decomposed by heat generated by arc discharge and converted into hydrofluoric acid, and the generated hydrofluoric acid is arced. This is because the discharge continuation time is extended, causing corrosion and the like at the electrical contacts between the terminals 7 and 13 and in the vicinity thereof.

  In the waterproof connector 1 having the above-described configuration, the action when the female housing 2 and the male housing 3 are fitted (when inserted) and when detached (when removed) is as follows.

  When the housings 2 and 3 are fitted (inserted), the electrical contact portion 71 of the male terminal 7 passes through the through hole 41 while contacting the inner surface 42 of the through hole 41 of the packing 4. At this time, grease is applied to the outer surface of the electrical contact portion 71 of the male terminal 7 in the form of an oil film. Thereafter, the male terminal 7 whose outer surface is coated with grease is electrically connected to the female terminal 13. Further, due to this, the grease applied to the male terminal 7 adheres to the female terminal 13, and the grease is applied to the electrical contact between the male terminal 7 and the female terminal 13.

  On the other hand, when the housings 2 and 3 are detached (at the time of removal), the electrical connection between the male terminal 7 and the female terminal 13 is released, and the electrical contact portion 71 of the male terminal 7 is connected to the packing 4 as described above. The through-hole 41 passes through the through-hole 41 while being in contact with the inner surface 42 of the through-hole 41. At this time, grease is applied to the outer surface of the electrical contact portion 71 of the male terminal 7.

  As described above, the waterproof connector 1 in which grease is applied to the outer surface of the male terminal 7, that is, the electrical contact between the male terminal 7 and the female terminal 13, shortens the arc discharge duration and reduces the damage caused by the arc discharge. Is done.

  According to the waterproof connector 1 of the present embodiment, an arc generated between the terminals 7 and 13 is obtained by applying the arc discharge suppression grease to the outer surface of the male terminal 7, that is, the electrical contact between the terminals 7 and 13. The duration of discharge is shortened and the surfaces of these terminals 7 and 13 are protected to reduce the influence of arc discharge. Further, since the grease is applied to the male terminal 7 when the housings 2 and 3 are fitted and detached, that is, every time the housings 2 and 3 are inserted and removed, the effect of suppressing arc discharge is repeated with time and repeated insertion and removal. Will not fade. In other words, even if the waterproof connector 1 repeats the insertion and removal of the housings 2 and 3 in the energized state a plurality of times, the waterproof connector 1 does not become in a state where it cannot be inserted and removed as in the prior art. Further, since the packing 4 has both a waterproof function and a grease application function, it is not necessary to provide a separate grease application structure, and the configuration of the waterproof connector 1 can be simplified. Further, since such a waterproof connector 1 has the same configuration as that of a conventional waterproof connector except that the packing 4 includes grease, it can be assembled with a conventional waterproof connector assembly line and assembled at a low cost. be able to.

  Next, the inventors of the present invention measured the arc discharge energy using the test apparatus 105 shown in FIG. 4 and the test pieces 102 and 103 shown in FIG. 5, and confirmed the effect of the present invention. As shown in FIG. 4, the test apparatus 105 is an electric circuit in which a variable resistance 108 and test pieces 102 and 103 are connected in series to a DC power source 106 and an ammeter 107 and a voltmeter 109 are incorporated. As shown in FIG. 5, the test pieces 102 and 103 are provided with an indent 104 simulating the contacts of the terminals 7 and 13 of the housings 2 and 3 on one test piece 103, and contact the other plate-like test piece 102. I tried to make it. 4 and 5, reference numeral 101 denotes an electrical contact between the test pieces 102 and 103. Further, pure copper is used as the material of these test pieces 102 and 103, and no surface treatment is applied. After applying the greases 1 to 12 according to the present invention and the greases 13 to 15 of the comparative example to the electrical contact 101 and the vicinity thereof, the test pieces 102 and 103 are separated from the connected state at a speed of 500 mm / min to generate an arc. Arc discharge energy generated in the electric contact 101 was calculated by generating a discharge and measuring the voltage fluctuation and current value between the test pieces 102 and 103 at that time. The results are shown in Table 1. Moreover, although not described in Table 1, the arc discharge energy when grease was not applied to the electrical contact 101 was 6.5 J.

Grease 1 in Table 1 is a grease that includes paraffinic mineral oil 1 having a kinematic viscosity of 68 mm ² / S at 40 ° C. as a base oil.

The grease 2 in Table 1 is a grease containing a paraffinic mineral oil 2 having a kinematic viscosity of 40 mm and 66 mm ² / S as a base oil.

Grease 3 in Table 1 is a grease containing a naphthenic mineral oil having a kinematic viscosity of 235 mm ² / S at 40 ° C. as a base oil.

The grease 4 in Table 1 is a grease containing a poly-α-olefin oil 1 having a kinematic viscosity of 30 mm ² / S at 40 ° C. as a base oil.

The grease 5 in Table 1 is a grease that includes a poly-α-olefin oil 2 having a kinematic viscosity of 400 mm ² / S at 40 ° C. as a base oil.

Grease 6 in Table 1 is a grease containing a diester oil having a kinematic viscosity of 10.6 mm ² / S at 40 ° C. as a base oil.

The grease 7 in Table 1 is a grease including a polyol ester oil 1 having a kinematic viscosity of 20 mm ² / S at 40 ° C. as a base oil.

Grease 8 in Table 1 is a grease containing a polyol ester oil 2 having a kinematic viscosity of 71.7 mm ² / S at 40 ° C. as a base oil.

The grease 9 in Table 1 is a grease containing diphenyl ether oil 1 having a kinematic viscosity of 44 mm ² / S at 40 ° C. as a base oil.

The grease 10 in Table 1 is a grease containing a diphenyl ether oil 2 having a kinematic viscosity of 97 mm ² / S at 40 ° C. as a base oil.

The grease 11 in Table 1 is a grease including a polyalkylene glycol oil 1 having a kinematic viscosity of 64.5 mm ² / S at 40 ° C. as a base oil.

The grease 12 in Table 1 is a grease containing a polyalkylene glycol oil 2 having a kinematic viscosity of 351 mm ² / S at 40 ° C. as a base oil.

The grease 13 in Table 1 is a grease containing a linear fluorine-based oil 1 having a kinematic viscosity of 17 mm ² / S at 40 ° C. as a base oil.

The grease 14 in Table 1 is a grease that includes a linear fluorine-based oil 2 having a kinematic viscosity of 85 mm ² / S at 40 ° C. as a base oil.

The grease 15 in Table 1 is a grease including a branched fluorine-based oil 3 having a kinematic viscosity of 345 mm ² / S at 40 ° C. as a base oil.

  According to Table 1, when the grease is not applied to the electrical contact 101, the arc discharge energy was 6.5 J. However, when grease 1 to 12 was applied to the electrical contact, the arc discharge energy was 2.7 to It became clear that it was within the range of 4.1J. In particular, it has been clarified that arc discharge energy is lowered when polyalkylene glycol oil and polyol ester oil are used as the base oil.

  Further, according to Table 1, when greases 13 to 15 using fluorine-based oil as base oil are applied to the electrical contact 101, the arc discharge energy is in the range of 9.01 to 9.33J, and the test Since later corrosion of the electrical contact 101 was observed, it became clear that the fluorine-based oil was not preferably used as the base oil of the grease of the present invention in consideration of the suppression of damage due to arc discharge.

  Then, the waterproof connector concerning the 2nd Embodiment of this invention is demonstrated with reference to FIG. FIG. 6 is a cross-sectional view showing a state where the female housing and the male housing of the waterproof connector according to the second embodiment of the present invention are not fitted.

  As shown in FIG. 6, the waterproof connector 1 ′ according to the present embodiment includes a female housing 2, a male housing 3, and a packing 4 ′ as a seal member. This packing 4 ′ is formed in a plate shape by an elastically deformable synthetic resin such as rubber and urethane, like the packing 4 shown in the first embodiment, and is attached to the inner wall 21 of the female housing 2 by an adhesive. It is attached. Further, the packing 4 has a plurality of through holes 41 ′. These through holes 41 ′ are provided at positions where the packing 4 ′ is attached to the back wall 21 and overlaps the terminal accommodating chamber 8, and the electrical contact portion 71 of the male terminal 7 is passed therethrough. Further, the through hole 41 ′ is formed to have such a size that the inner surface 42 ′ of the through hole 41 ′ and the outer surface of the electric contact portion 71 are in sliding contact when the electric contact portion 71 of the male terminal 7 passes. ing. When the housings 2 and 3 are fitted to each other, the male terminal insertion / extraction surface 32 abuts against the packing 4 ′, so that the space between the rear wall 21 and the male terminal insertion / extraction surface 32 is kept watertight and the rear wall 21. In addition, the space between the male terminal insertion / extraction surface 32 and the male terminal 7 is kept watertight.

  Further, the packing 4 ′ of the present embodiment is also configured to include the arc discharge suppression grease shown in the first embodiment. This grease is such that when the male terminal 7 in a state where grease is not applied is assembled to the female housing 2, the electrical contact portion 71 is in sliding contact with the inner surface 42 ′ of the through hole 41 ′, and the housings 2 and 3 are mutually connected. When the fitting is performed, the male terminal insertion / extraction surface 32 abuts against the packing 4 ′ and the packing 4 is compressed, so that it oozes out from the packing 4 ′ and is applied to the outer surface of the electrical contact portion 71.

  As described above, in the present invention, the waterproof packing 4, 4 ′ including the arc discharge suppression grease may be attached to the male terminal insertion / extraction surface 32 of the male housing 3. It may be attached to the back wall 21.

  In the first and second embodiments described above, the waterproof connector 1, 1 ′ is assembled by assembling the female terminal 13 and the male terminal 7 in the state where the arc discharge suppression grease is not applied to the outer surface to the respective housings 2, 3. I'm assembling. However, in the present invention, the waterproof connector 1, 1 'may be assembled by assembling the female terminal 13 and the male terminal 7 in a state where the arc discharge suppression grease is previously applied to the outer surface to the respective housings 2, 3.

  In the first embodiment described above, the packing 4 is fixed to the male terminal insertion / extraction surface 32 by fixing with the hook 33. In the present invention, the packing 4 is inserted / extracted with an adhesive or an adhesive sheet. You may make it attach to the surface 32. FIG.

  In addition, embodiment mentioned above only showed the typical form of this invention, and this invention is not limited to embodiment. That is, various modifications can be made without departing from the scope of the present invention.

It is sectional drawing which shows the state by which the female housing and male housing of the waterproof connector concerning the 1st Embodiment of this invention were fitted. It is sectional drawing which shows the state which the female housing and male housing of the waterproof connector shown by FIG. 1 are not fitted. It is a perspective view which shows the packing of the waterproof connector shown by FIG. It is a circuit diagram which shows the test apparatus which measures the arc discharge energy for confirming the arc discharge suppression effect of this invention. It is a schematic explanatory drawing which shows the test piece connected to the test apparatus shown by FIG. It is sectional drawing which shows the state which the female housing and male housing of the waterproof connector concerning the 2nd Embodiment of this invention are not fitted.

Explanation of symbols

1,1 'waterproof connector 2 female housing (first connector housing)
3 Male housing (second connector housing)
4,4 'packing (seal member)
6 cylinder part 7 male terminal 11 body part 13 female terminal 32 male terminal insertion / extraction surface 41, 41 'through hole 42, 42' inner surface

Claims (2)

A first connector housing having a rod-shaped male terminal; a second connector housing having a cylindrical female terminal that houses the male terminal and is electrically connected to the male terminal; In the waterproof connector having a sealing member attached to one of the first connector housing and the second connector housing and keeping watertight between the male terminals,
The seal member includes an arc discharge suppression grease and has a through hole through which the male terminal passes, and the arc discharge suppression grease is brought into sliding contact with an inner surface of the through hole. Applied to the outer surface of the male terminal;
The waterproof connector, wherein the arc discharge suppression grease is an insulating grease including a base oil excluding a fluorine-based oil.   The waterproof connector according to claim 1, wherein the seal member is attached to a male terminal insertion / extraction surface from which the male terminal of the second connector housing is inserted / extracted.

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