KR101965009B1 - A connector receptacle comprising polymer settling element and a connector assembly thereof and an assembling method of receptacle lead to housing - Google Patents

Abstract

The present invention relates to an electrical connector receptacle, a terminal mounting method, and an electrical connector assembly including the same. The electrical connector receptacle includes a terminal accommodating portion 111 formed with one or more receptacle housings 110 are formed into a predetermined shape to form electrical connection contacts between the plug terminals and one or more receptacle terminals 120 functioning to electrically connect to the external substrate The polymer filling portion 118 is inserted into the internal space including the predetermined portion of the receptacle terminal 120 in a state where the receptacle terminal 120 is mounted on the terminal housing portion 111, And the receptacle terminal 120 is fixed to the terminal accommodating portion 111 by the polymer fixing member 119 which is formed in the polymer filling portion 118 And it provides the connector receptacle.

Description

Technical Field The present invention relates to an electrical connector receptacle having a polymer fixing member, a terminal mounting method, and an electrical connector assembly,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electrical connector including a receptacle and a plug, and more particularly, to an electrical connector receptacle and a terminal mounting method using a polymer to improve terminal mounting and assembly and an electrical connector assembly including the same.

The electrical connector is used for electrically connecting a circuit board, a circuit board, or a circuit board with an electronic component using a cable.

2. Description of the Related Art In recent years, a connector device has been widely applied to a circuit board such as a portable terminal, and a low profile is required to meet the trend of miniaturization of electronic devices. In addition, as the density of electronic elements mounted on the circuit board increases, the number of contacts provided in the connector apparatus increases, and densification of contact pitch pitches becomes more important.

1, a plurality of receptacle terminals 12 are provided on a receptacle 10 arranged in a receptacle housing 11, a plug 12 fitted in the receptacle 10 and in one-to-one contact with a receptacle terminal 12, A terminal (22) is comprised of a plug (20) arranged in a plug housing. The receptacle terminal 12 and the plug terminal 22 are connected to the receptacle side cable and the plug side cable, respectively, or are mounted on the circuit board. The receptacle side cable and the plug side cable or circuit of the circuit board are electrically connected when the plug 20 is fitted into the receptacle 10 and the receptacle terminal 12 and the plug terminal are in contact with each other and rendered conductive.

In the receptacle having the above structure, the receptacle terminal 12 inserted into the receptacle housing 11 may be detached from the receptacle housing 11. In order to prevent such a problem, a method of forming a wedge on the side surface of the receptacle contact 12 and inserting the wedge into the main body 11 may fix the receptacle contact 12 to the main body 11.

BACKGROUND ART Korean Patent Registration No. 10-1338219 (entitled "Receptacle Connector and Connector Assembly Having Same", hereinafter referred to as "Prior Art 1") has a receptacle housing in which an internal space for accommodating a plug is formed and a receptacle housing And a receptacle terminal extending from the fastening portion and elastically deformed by insertion of the plug, wherein when the plug is inserted, the end portion of the resiliently deformable portion comes into contact with the side surface of the plug terminal In which the receptacle connector is provided. FIGS. 2 and 3 show a wedge formed on the side surface of the receptacle terminal of the prior art, and the wedge serves to fix the receptacle terminal to the receptacle housing as described above.

KR 10-1338219 B1

A method of fixing a receptacle terminal 12 by inserting a wedge into a receptacle housing 11 by forming a wedge on a side portion of the receptacle terminal 12 as in the prior art 1 is a method of inserting the inner wall of the receptacle housing 11 There is a possibility that the receptacle terminal 12 is deformed at the time of inserting and damaging the receptacle terminal 12. This leads to a problem that the shape of the receptacle terminal is damaged and it is difficult to reliably form the electrical connection contact with the plug terminal, There is a problem that the durability of the receptacle terminal is lowered due to the occurrence of interference of the receptacle terminal.

The receptacle housing 110 formed with one or more terminal accommodating portions 111 to which the receptacle terminals 120 are fixed is processed into a predetermined shape to form electrical connection contacts between the plug terminals, The electrical connector receptacle includes at least one receptacle terminal 120 that functions as a receptacle terminal and includes a predetermined portion of the receptacle terminal 120 in a state where the receptacle terminal 120 is mounted to the terminal housing portion 111 The polymer filling portion 118 is formed in the inner space formed by the polymer filling portion 118 and the receptacle terminal 120 is fixed to the terminal accommodating portion 111 by the polymer fixing member 119 formed in the polymer filling portion 118 The electrical connector receptacle comprising:

In addition, a method of mounting the receptacle terminal 120 to the terminal accommodating portion 111 in such an electric connector receptacle is provided.

The first effect of the present invention is that the receptacle housing 110 can be mounted on the receptacle housing 110 and the receptacle housing 110 without damage to the receptacle housing 110, It is possible to minimize the clearance 130 between the receptacle terminal 120 and the inner terminal housing wall 112 and to improve the quality of the process of forming the polymer fixing member 119 and the terminal mounting process. The wedge portion is not formed on the side portion, so that the height of the terminal corresponding to the wedge portion forming portion can be lowered, thereby lowering the height of the electrical connector receptacle, thereby providing a third effect do.

Particularly, in relation to the first effect, the receptacle terminal 120 is provided with a predetermined shape capable of forming the polymer filling portion 118, and the polymer fixing member 119 is formed on the polymer filling portion 118 , Wedge portion, or the like, unexpected terminal deformation can be reduced and the electrical connection contact with the plug terminal can be reliably secured.

In relation to the second effect, the portion of the receptacle terminal 120 where the polymer filling portion 118 is formed, that is, the bending portion 130, It is possible to prevent the leakage of the polymer through the clearance 130 when the polymer fixing member 119 is formed by providing a configuration for reducing or eliminating the size of the clearance 130 around the clearance 130, The terminal 120 can be prevented from being contaminated by the polymer, thereby improving the overall quality.

1 is a perspective view of a conventional electrical connector assembly;
2 is a perspective view of a conventional receptacle terminal 120 with a wedge formed therein;
3 is a bottom view of a conventional electrical connector receptacle;
4 is a cross-sectional view taken along line aa of a conventional electrical connector receptacle;
5 is a perspective view showing a receptacle terminal with a bend 121 according to an embodiment of the present invention.
6 is a perspective view showing a configuration of an embodiment of the receptacle housing 110 of the present invention.
7 is an explanatory view showing a state in which the receptacle terminal 120 is mounted on the receptacle housing 110 in an embodiment of the present invention.
8 is a bottom view showing that a polymer fixing member 119 is formed on a polymer filling portion 118 in an embodiment of the present invention.
9 is a cross-sectional view taken along the line aa in Fig. 10, which shows that the polymer fixing member 119 is formed in the polymer filling portion 118 in the embodiment of the present invention
10 is a perspective view showing a protrusion 113 formed on a wall surface 112 of the terminal receiving portion to minimize the clearance 130 of the bending portion 121 in an embodiment of the present invention.
11 is an explanatory view showing that the clearance 130 is minimized by the protrusion 113, in an embodiment of the present invention.
12 is a bottom view showing that the polymer fixing member 119 fixes two or more receptacle terminals 120, according to one embodiment of the present invention.
Fig. 13 is a bottom view showing that the polymer fixing member 119 fixes the entire receptacle terminal arrangement, according to one embodiment of the present invention. Fig.

The electrical connector receptacle of the present invention is formed into a predetermined shape with the receptacle housing 110 in which one or more terminal accommodating portions 111 to which the receptacle terminals 120 are fixed and forms electrical connection points of the plug terminals One or more receptacle terminals 120 functioning to electrically connect to an external substrate and a predetermined portion of the receptacle terminal 120 in a state where the receptacle terminal 120 is mounted on the terminal housing portion 111, As a main component, a polymer fixing member 119 which is formed in the polymer filling portion 118.

The total number of the receptacle terminals 120 is determined according to the number of channels of the electric signals processed by the electric connectors. The receptacle terminals 120 are largely divided into a portion electrically connected to the external substrate and the receptacle housing 110 described above. And a portion for providing a contact for electrical connection with the plug terminal of the electrical connector plug. The receptacle terminal 120 should be made of an alloy with iron, nickel or the like in order to ensure rigidity because the receptacle terminal 120 should have a predetermined performance not only in terms of electrical conductivity but also in processability and rigidity. Can be considered. Particularly, in order to form a reliable electrical connection contact with the plug terminal in terms of rigidity and durability, it is necessary to have an elastic restoring force, and the molded shape beyond the elastic limit due to the moment force or repeated load applied to the receptacle terminal 120 under the operating environment The material should be determined so as not to be permanently deformed.

In addition, when the cross-sectional area is too small in determining the thickness and width of the terminal in relation to the shape and area of the end face of the receptacle terminal 120, the terminal shape is permanently deformed by the force applied to the terminal, Can fail, while if it is too large, the economy will suffer.

In the shape of the receptacle terminal 120, a portion to be connected to the external substrate is a so-called lead. Particularly, when the lead is connected to the external substrate by surface mount (SMT) And is formed in the same plane as the bottom surface of the housing 110. In order to form a contact for electrical connection with the plug terminal, the receptacle terminal 120 has to be shaped to have a predetermined shape, which may be formed in two or more points to increase the reliability of the electrical connection. In one embodiment of the receptacle terminal 120 of the present invention shown in FIG. 5, the receptacle terminal 120 is formed in a bent shape so as to form a two-point contact. Further, with respect to the receptacle housing 110, the receptacle terminal 120 is required to be capable of freely displacing the portion constituting the electrical connection contact with the plug described above, but the rest of the receptacle terminal 120 has relative movement with respect to the receptacle housing 110 Should not. As such, the receptacle terminal 120 should include a portion that provides a fixing function with respect to the receptacle housing 110. Such a portion may be a protrusion 113 having a wedge shape at a specific position of the terminal for interference fit with the receptacle housing 110 as in the prior art, but has the shape of the bent portion 121 in the present invention. The bent portion 121 is a portion in which a polymer fixing member 119 to be described later is formed. In order for the receptacle terminal 120 to be strongly supported by the polymer fixing member 119, the contact area with the polymer fixing member 119 The shape should be determined so that it can be contacted in various directions. In the embodiment shown in FIG. 5, the shape of the bent portion 121 has a 'C' shape as a whole, and when the size of the bent portion 121 is compared with the size of the entire receptacle terminal 120, it takes a considerable weight.

The receptacle terminal 120 may be formed by bending a base material having a rectangular parallelepiped shape through a press bending process or by a method such as electroforming (electroforming, hydroforming) so as to have such a shape in the beginning In addition, the size of the terminal tends to be reduced as the electrical connector is miniaturized and reduced in size. In addition, a heat treatment process or the like can be additionally provided so as to secure a predetermined rigidity in spite of the reduced cross section .

The receptacle housing 110 may be made of thermoplastic or thermosetting plastic or other synthetic resin having electrical insulation properties to accommodate a plurality of receptacle terminals 120 and may be provided with a clearance 130 with respect to the receptacle terminal 120, Since the negative shape must be precisely molded, it is preferable to manufacture by the injection molding process.

The receptacle housing 110 is formed with a number of terminal accommodating portions 111 as many as the number of the receptacle terminals 120 adopted in the receptacle housing 110. In order to prevent the shape of the receptacle terminal 120 from deforming, . The inner wall surface of the receptacle housing 110 constituting the terminal housing portion 111 is important because it constitutes a polymer filling portion 118 which will be described later as a so-called terminal housing portion inner wall surface 112, . In addition, a structure for pulling out the lead portion described above to the outside of the receptacle housing 110 should be formed at a portion adjacent to the terminal accommodating portion 111. In the embodiment shown in FIG. 6, the terminal seating portion 116 functions . The terminal seating portion 116 also serves as a guide for allowing the receptacle terminal 120 to be positioned parallel to the terminal housing portion 111 to thereby reliably form the connection terminal of the plug terminal and the receptacle terminal 120 .

The polymer filling portion 118 is formed in an inner space formed by both the bent portion 121 of the receptacle terminal 120 and the inner surface of the terminal accommodating portion 112. The polymer filling portion 118 is filled with the polymer, . In the embodiment shown in FIG. 7, the polymer filling portion 118 is formed by a total of five surfaces, that is, three inner sides of the 'C' shaped portion forming the bent portion 121 and two sides of the inner side wall 112 . Particularly, the portion of the wall surface 112 of the terminal accommodating portion 112 where the polymer fixing member 119 is to be formed is formed in the inner side of the bending portion 121 at three sides in order to form strong coupling between the receptacle terminal 120 and the receptacle housing 110. [ It is preferable that the area is set as large as possible.

In addition, one surface of the polymer filling portion 118 except for the five surfaces serves as an opening for injecting the polymer.

The polymer fixing member 119 is a product formed by curing the polymer injected into the polymer filling portion 118 described above. The polymer fixing member 119 is adhered to the receptacle housing 110 and serves to prevent relative movement of the receptacle terminal 120 to the receptacle housing 110 therethrough. An embodiment of such a polymer fixing member 119 is shown in Figs. 8 and 9. Fig.

The polymer for forming the polymer fixing member 119 is preferably a polymer which is excellent in adhesiveness to the material of the receptacle housing 110, adhesion to the metal alloy constituting the receptacle terminal 120, and viscousity do. The adhesive property of the receptacle housing 110 to the material is important for fully performing the function of the polymer fixing member 119. If the bonding strength is weak and the polymer fixing member 119 is detached from the terminal accommodating portion wall surface 112, This means that the receptacle terminal 120 and the receptacle housing 110 are moved up and down relative to each other, that is, they are separated from each other. The adhesion with the metal alloy serves to prevent relative movement of the receptacle terminal 120 relative to the receptacle housing 110. However, when the receptacle terminal 120 is prepared for adhesion with the receptacle housing 110, Hit. The viscosity then relates to the spacing between the receptacle terminal 120 and the terminal retention wall 112 which will be described below, that is, the clearance 130. If the viscosity is too low, This can contaminate the surface of the terminals, such as electrical connection contacts. However, if the viscosity becomes too high, the discharge from the discharge nozzle may not be easy, which may cause deterioration in workability. In the present invention, it is proposed that the viscosity of the polymer constituting the polymer fixing member 119 is 20 Pa · s or more.

Further, since the polymer fixing member 119 is used in contact with a terminal through which an electric signal is conducted, it must have heat resistance basically. Therefore, even if heated by the heat generated in the terminal, the adhesiveness of the adhesive surface should not be deteriorated.

As the polymer having the above-mentioned properties and physical properties, it is possible to use one or more polymers selected from a heat-resisting polymer resin, a poly-olefin resin, a silicone resin and an acrylic copolymer Materials can be used.

The heat-resisting polymer resin is preferably a thermosetting resin selected from the group consisting of bisphenol-F type epoxy, phenoxy resin, naphthalene type epoxy resin, Epoxy resin, cresol novolac epoxy, phenol novolac epoxy, bisphenol-A type epoxy, urea resin, phenol resin, and melamine resin.

The polyolefin resin may be composed of one or more selected from among high density polyethylene (HDPE), ultra high molecular weight polyethylene (UHMWPE), polypropylene, and polymethylpentene.

The polyolefin resin is prepared by mixing 40-60% by weight of ultra high molecular weight polyethylene (UHMWPE), 10-20% by weight of high density polyethylene (HDPE), 10-20% by weight of polypropylene %.

The acrylic copolymer may be selected from the group consisting of n-butyl methacrylate, n-hexyl methacrylate, acrylic acid, metha acrylic acid, 2-ethylhexyl Acrylate, 2-ethyl hexyl acrylate, butyl acrylate monomer, methyl acrylate, ethyl acrylate monomer, methyl metha acrylate, maleic anhydride, Maleic acid, itaconic acid, and 2-hydroxyethyl methacrylate (2-HEMA).

The receptacle terminal 120 is fixed to the terminal accommodating portion 111 so that a clearance 130 having a predetermined size can be formed between both sides of the receptacle terminal 120 and the wall surface 112 of the both- have. When the plug terminal is coupled with the receptacle terminal 120, the receptacle terminal 120 is deformed in a predetermined range of motion. The allowance step between the receptacle terminal 120 and the terminal accommodating portion wall 112, The receptacle terminal 120 is deformed to cause interference with the terminal accommodating portion inner wall 112. This causes damage to the wall 112 in the terminal housing portion and damage to the shape of the receptacle terminal 120, It may be a problem in forming an electrical connection contact with the electrode. If the size of the clearance 130 is too large, there is a problem in that the polymer filling portion 118 for forming the polymer fixing member 119 described above has a large gap for leakage of the polymer, and if the clearance 130 becomes too small, The possibility of damage to the shape of the body 120 is increased. As shown in the embodiment of FIG. 8, it is a principle that both clearances 130 are set to be the same, and in reality, the receptacle terminal 120 is formed so as to have the same clearance 130 as the inside terminal- It is the role of the terminal seating portion 116 described above. That is, the center line of the width of the terminal seating portion 116 exists on the center line of the width of the terminal housing portion 111 and the width of the terminal seating portion 116 is smaller than the width of the terminal housing portion 111, Half of the difference between the width of the lead portion 111 and the width of the terminal seating portion 116 can be the size of the clearance 130. [

Further, the clearance 130 may be provided as described above to reduce the possibility of interference between the receptacle terminal 120 and the terminal accommodating portion 111, thereby preventing the terminal shape damage. In the polymer filling, the polymer may leak through the clearance 130 It is possible to reduce or eliminate the size of the clearance 130 on both sides of the bending portion 121 by forming the protruding portion 113 on a predetermined portion of the wall surface 112 inside the terminal storage portion on both sides. The clearance 130 related to the bending portion 121 constituting the polymer filling portion 118 can be influenced by the clearance 130 while maintaining the size of the clearance 130 for the terminal portion forming the electrical connection contact with the plug terminal The quality can be improved. This is because the receptacle terminal 120 is fixed at the bent portion 121, so that there is no meaning of the clearance 130. 10 shows an embodiment of a protrusion 113 for minimizing the clearance 130 associated with the bend 121 of the present invention. Here, the protruding portion 113 is formed as a protruding surface with a step height increased by the size of the clearance 130 with respect to the wall surface 112 of the terminal accommodating portion, but it is not limited to this shape. In FIG. 11, it is explained that the influence of the clearance 130 in the bending portion 121 is minimized by placing such a protrusion 113.

The polymer fixing member 119 is applied to one terminal accommodating unit 111 to fix one receptacle terminal 120. The polymer fixing member 119 may be extended by applying one polymer fixing member 119, It may be considered to fix two or more receptacle terminals. The receptacle terminal 120 is formed to include a bent portion 121 having a predetermined shape and the receptacle housing 110 is formed with two or more terminal accommodating portions 111 formed in a vertical direction And the polymer filling portion 118 is formed in the inner space formed by the rectangular openings 117 and the two or more bent portions 121. [ 12 shows a configuration for fixing a total of five receptacle terminals 120. In particular, the inner wall surface of a predetermined portion of five terminal accommodating portions 111 is broken to form a rectangular opening 117, And the polymer fixing member 119 is formed in the polymer filling portion 118 after the receptacle terminals 120 are inserted into the terminal accommodating portion 111, respectively. In this case, the polymer fixing member 119 for fixing the receptacle terminal 120 is formed in the terminal accommodating portion 111 of the five terminal accommodating portions 111, The five receptacle terminals 120 are fixed only by the contact force with the outermost terminal housing portion internal wall 112 of the housing portion, so that the fixation force may be insufficient. Therefore, in order to increase the fixation force, in the injection molding of the receptacle housing 110 , It is desirable to design the mold so as to fill the end faces of the respective portions. 13 shows an embodiment in which the entire row of the receptacle terminals 120 is fixed by one polymer fixing member 119. [ In this embodiment as well, since the fixing force of the terminal may be insufficient as described above, it is preferable that the receptacle housing 110 has a full cross section when it is molded.

Next, the terminal mounting method of the electrical connector receptacle having the above-mentioned configuration will be described for each stage. First, the receptacle terminal 120 is mounted on the terminal accommodating portion 111. 6 to 8 are mounted by mounting the lead portion of the receptacle terminal 120 on the terminal seating portion 116. The process of applying the force to bring the receptacle terminal 120 into close contact with the receptacle housing 110 Can be added. The terminal seating portion 116 is designed so that the clearance 130 between the both side surfaces of the terminal housing portion 111 and the receptacle terminal 120 is the same even when the receptacle terminal 120 is attached to the terminal seating portion 116 . Second, the nozzle portion of the polymer discharger is approached to the polymer filling portion 118 to prepare for discharging. Third, the polymer is discharged by a predetermined amount. Polymer ejection should be changed in accordance with the viscosity of the polymer, such as the injection speed at the nozzle. When the viscosity of the polymer is high, the discharge speed should be lowered so that the discharged polymer can fill the polymer filling portion 118 from the bottom surface. Optionally, the discharger may be reciprocated in the longitudinal direction of the polymer filling portion 118, So that the polymer can be evenly filled on the bottom surface of the portion 118. It is preferable that the total filling amount of the polymer be determined so as to fill all of the polymer filling portions 118. This maximizes the contact area between the polymer fixing member 119 and the wall surface 112 in the both- Is as described above. Fourth, the discharge of the polymer discharger is terminated while being separated from the polymer filling portion 118. Fifth, the surface of the discharged polymer is leveled. If the viscosity of the discharged polymer is large, the surface of the cured polymer may not be smooth, and in this case, the merchantability of the unhardened product may deteriorate. The leveling may be performed to adjust the roughness of the surface of the polymer fixing member 119 while further polishing the surface. Sixth, the polymer that is discharged and filled in the polymer filling portion 118 is cured to form the polymer fixing member 119. Such curing can be selected from natural curing, UV curing, optical curing or heat curing. In the case of the miniaturized electrical connector, since the size of the polymer filling portion 118 is small, the curing time will not be too long even with natural curing. Otherwise, a considerable time is required for curing, , So that a special process can be set up to facilitate this. However, for photo-curing or UV curing processes, the polymer used should contain a photoinitiator. In the case of natural curing, it is also conceivable to ventilate the surrounding air around the work site with a predetermined temperature. In the case of heat curing, the operating temperature should be determined so that cracks are not formed in the polymer due to rapid curing.

When the electrical connector plug including the plug terminal having a predetermined shape so as to form the electrical connection contact with the receptacle terminal 120 is connected to the electrical connector receptacle having the above-mentioned polymer fixing member 119, Electrical connector assembly. An embodiment of such an electrical connector plug can be made to have the same or similar shape as that shown in Fig. 1 in connection with the prior art 1.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications will be apparent to those skilled in the art. It is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which fall within the scope of equivalence by alteration, substitution, substitution, Range. In addition, it should be clarified that some configurations of the drawings are intended to explain the configuration more clearly and are provided in an exaggerated or reduced size than the actual configuration.

10: Conventional electric connector receptacle
11: Receptacle housing
12: Receptacle terminal
13: Wedge portion
14: play
20: Plug
21: Plug housing
22: Plug terminal
100: Receptacle
110: Receptacle housing
111: Terminal accommodating portion
112: Terminal wall portion
113: protrusion
116: Terminal seating portion
117: Rectangular opening
118: polymer filling section
119: Polymer fixing member
120: receptacle terminal
121: Bend
130: Charge

Claims (12)

The receptacle housing 110 is made of an insulator and has one or more terminal accommodating portions 111 to which the receptacle terminal 120 is fixed. The receptacle housing 110 is processed into a predetermined shape to form electrical connection points between the plug terminals, And at least one receptacle terminal (120) functioning to electrically connect the receptacle terminal (120)
A polymer filling portion 118 is formed in an inner space including a predetermined portion of the receptacle terminal 120 in a state where the receptacle terminal 120 is mounted on the terminal housing portion 111,
The receptacle terminal 120 is fixed to the terminal accommodating portion 111 by the polymer fixing member 119 formed in the polymer filling portion 118,
The receptacle terminal 120 is formed to include a bent portion 121 formed in a shape of a C shape and the polymer filling portion 118 is formed in a shape of a ' (112) on both sides of the terminal accommodating portion (111)
The receptacle terminal 120 is fixed to the terminal accommodating portion 111 such that a clearance 130 having a predetermined size is formed between both sides of the receptacle terminal 120 and the wall 112 of the terminal accommodating portion Characterized by an electrical connector receptacle.
delete The method according to claim 1,
Wherein the polymer fixing member (119) is made of a polymer having a viscosity. The method according to claim 1,
The polymer fixing member 119 may be formed of one or more materials selected from a heat-resisting polymer resin, a poly-olefin resin, a silicone resin, and an acryl copolymer. Wherein the electrical connector receptacle is molded. The method of claim 4,
The heat-resisting polymer resin may include a thermosetting resin such as bisphenol-F type epoxy, phenoxy resin, naphthalene type epoxy resin, An epoxy resin, a cresol novolac epoxy, a phenol novolac epoxy, a bisphenol-A type epoxy, an urea resin, a phenol resin, and a melamine resin. Receptacle. The method of claim 4,
Characterized in that the polyolefin resin is composed of at least one selected from high density polyethylene (HDPE), ultra high molecular weight polyethylene (UHMWPE), polypropylene, and polymethylpentene. Receptacle. The method of claim 6,
Wherein the polyolefin resin comprises 40 to 60% by weight of ultra high molecular weight polyethylene (UHMWPE), 10 to 20% by weight of high density polyethylene (HDPE), 10 to 20% by weight of polypropylene, 0.0 > 20%. ≪ / RTI > The method of claim 4,
The acrylic copolymer may be selected from the group consisting of n-butyl methacrylate, n-hexyl methacrylate, acrylic acid, metha acrylic acid, 2- ethyl Ethyl acrylate, 2-ethyl hexyl acrylate, butyl acrylate monomer, methyl acrylate, ethyl acrylate monomer, methyl metha acrylate, Wherein the copolymer is a copolymer of two or more monomers selected from maleic acid, itaconic acid and 2-hydroxyethyl methacrylate (2-HEMA). delete The method according to claim 1,
Wherein protrusions (113) are formed on predetermined portions of the wall surfaces (112) of both the terminal accommodating portions to reduce or eliminate clearances (130) on both sides of the bent portions (121).
The method according to claim 1,
The receptacle terminal 120 is formed to include a bent portion 121 having a predetermined shape and the receptacle housing 110 includes a rectangular opening portion formed to vertically cross the two or more terminal accommodating portions 111 117,
The polymer filling portion 118 is formed in the internal space formed by the rectangular openings 117 and two or more bending portions 121 so that the polymer fixing member 119 can connect two or more receptacle terminals 120 Wherein the electrical connector receptacle can be fixed. An electrical connector receptacle as claimed in any one of the preceding claims, 3 to 8 and 10 to 11; And
An electrical connector plug including a plug terminal having a predetermined shape so as to form an electrical connection contact with the receptacle terminal;
The electrical connector assembly comprising:

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