KR20100019839A - Terminal for micro coaxial cable connector - Google Patents

Abstract

PURPOSE: A terminal for a micro coaxial cable connector is provided to prevent the movement of a connection cable by stably being fixed to a slot through a dual structure fixing protrusion. CONSTITUTION: A connection terminal(130) protrudes from the both sides of a rear terminal body in the predetermined distance from a fixing protrusion(138), and forms a dual structure with the fixing protrusion of a central unit. When the connection terminal is coupled to a slot(120) of a connector housing(110) includes a rear fixing protrusion(140). The rear fixing protrusion burrows into the both sides of the slot along a recessed line, and fixes the connection terminal to the slot of the connector housing.

Description

Terminal for micro coaxial cable connector {Terminal for Micro Coaxial Cable connector}

The present invention relates to a connection terminal for a micro coaxial cable connection connector, and more particularly, to the connection terminal of the micro coaxial cable connection connector to which the connection end of the micro coaxial cable tip is electrically connected on the connector housing The present invention relates to a connecting terminal for a micro coaxial cable connecting connector of one structure so that this can be prevented.

In general, the need for nanowires due to the proliferation of portable multimedia devices has led to the emergence of next-generation wires, which greatly increase the eco-friendliness of wires with nanotechnology (NT), which means one billionth the size. This nanotechnology applied wire is an even spray of nanoparticle-sized inorganic material on the wire coating material, which is more flame retardant than conventional products. In general, high flame retardant wire conditions should not conduct or burn to the 2.5 m high sample when the cable is burned for 20 minutes at 816 ° C.

As described above, nanowires applied with nanotechnology reduce strength of flame retardant materials by more than 30% compared to existing products, while meeting the conditions of high flame-retardant wires and also reducing the strength of the products that do not use halogens to increase environmental friendliness. It can be improved. In other words, nanowires applied with nanotechnology enable the use of eco-friendly wires that maintain mechanical strength without burning well.

On the other hand, the thickness of wires is becoming thinner for portable multimedia devices that are increasing in type and use. Micro coaxial cable (MCX Cable) is a new product exceeding 0.25mm wall, the minimum thickness that existing wires can realize, and twisted copper wire of 1/4 thickness (0.08mm) of hair is combined with Teflon, a flame retardant material. These ultra-fine coaxial cable products offer high flexibility and large data rates, and are increasingly used for internal wiring of high-performance and thin home appliances such as mobile phones and digital cameras.

The aforementioned micro coaxial cable (MCX Cable, Micro Coaxial Cable) refers to a very thin coaxial cable having a quarter of the thickness of hair, and such a micro coaxial cable has a large amount of multimedia data by twisting a copper conductor and insulated by flame retardant Teflon. It can be used for portable multimedia devices such as mobile phones and digital cameras. Such micro coaxial cable is a product having low weight, minimum volume, flexibility, and excellent electrical characteristics required for miniaturization of various personal digital communication devices.

Looking at the configuration of the ultra-fine coaxial cable as described above consists of a copper wire inner conductor, an insulator surrounding the outer circumferential surface of the inner conductor, an outer conductor having a ground function wrapped around the outer circumferential surface of the insulator and a sheath surrounding the outer circumferential surface of the outer conductor. The inner conductor of such a micro coaxial cable is manufactured by twisting a copper wire having a quarter thickness (0.08 mm) of hair over a 0.25 mm wall, which is the minimum thickness that an existing wire can realize.

On the other hand, when looking at the configuration of the connector for the micro coaxial cable to which the micro coaxial cable is electrically connected as described above, the connector for the micro coaxial cable connector is inserted into the connection end of the end of the microaxial coaxial cable (MCX Cable) Consists of a connector housing formed through the front and rear, a slot formed in a plurality of slots at regular intervals on the connection port of the connector housing and a connection terminal made of a thin plate of a predetermined length electrically connected to the connection end of the micro coaxial cable tip.

In the configuration of the connecting connector for a micro coaxial cable configured as described above, the connecting terminal has a terminal body made of a thin plate that is fixedly coupled to the slot of the connector housing, and a terminal body that is electrically connected to the connecting end of the micro coaxial cable. The first connection terminal, the second connection terminal on the rear end of the terminal body which is electrically connected to the connection terminal of the connecting socket and protruding on both sides of the terminal body, and the connection terminal is inserted into the slot of the connector housing, It consists of a configuration of the fixing projections to allow the terminal body to be fixed to the slot.

However, since the connection terminal of the micro-axial cable connector according to the prior art configured as described above is fixed to the slot of the connector housing through the fixing projections protruding on both sides of the center of the terminal body, the front and rear ends of the terminal body. This causes a problem that the left and right flow on the basis of the fixing projections cause the connection terminal is fixed and fixed when the connection terminal is aligned.

Therefore, as described above, in the related art, a flow of the connection terminal occurs when the connection terminal is fixed to the connector housing, thereby causing a problem in that the electrical connection is unstable when connecting the ultra-fine coaxial cable on the connector for the micro coaxial cable. In addition, such a conventional technology is that when the connecting terminal is fixedly aligned by aligning the connecting terminal in the connector housing, when the connecting terminal is fixed and fixed, the first connecting end of the connecting terminal and the ultra-fine coaxial cable connecting end when connecting the micro coaxial cable on the connector for the micro coaxial cable There is a problem that the connection is not made.

The present invention has been made to solve the problems of the prior art, forming a rear end fixing projection formed on the both sides of the center of the terminal body with a larger width than the width of the fixing projections on both sides of the rear end of the connection terminal protruding the fixing projections; By improving the connection terminal with one double structure, the improved connection terminal can be firmly supported and fixed to the slot by the double structure fixing protrusions formed at both sides of the center and rear ends of the connection terminal when the improved connection terminal is fixed to the slot of the connector housing. Its purpose is to provide a connection terminal for a micro coaxial cable connection connector.

In addition, another object of the technique according to the present invention by the fixed structure of the dual structure by the fixed structure of the dual structure formed on both sides of each of the center and rear ends of the connection terminal when fixing the connection terminal improved to the slot of the connector housing It is possible to prevent the flow of the connection terminal by being firmly supported and fixed to the slot so that the stable electrical connection can be made during the electrical connection of the micro coaxial cable and the micro coaxial cable connecting connector.

The present invention configured to achieve the above object is as follows. That is, the connecting terminal for the micro coaxial cable connecting connector according to the present invention is a terminal body made of a thin plate of a predetermined length, the first connecting end on the side of the terminal body that is electrically connected to the connecting end of the micro coaxial cable, and the connecting terminal of the connecting socket. The second coaxial end of the terminal body that is electrically connected to the rear end of the terminal and the center of the terminal body protruding from the micro-axial shaft including a fixing projection to penetrate both sides of the slot of the connector housing for fixing the terminal body to the slot In the connecting terminal for cable connection connector, the connecting terminal protrudes on both sides of the terminal body at the rear end of a certain distance from the fixing protrusion in the center and is formed in a double structure with the fixing protrusion in the center. Along the line where the protrusions penetrate both sides of the slot, the slots penetrate both sides Those made of a structure including the rear end fixing protrusion for fixing on the slot of the connector housing.

In the configuration of the present invention as described above, the width of both ends of the rear end fixing protrusion formed at the rear end of the connecting terminal has a larger width than the width of both ends of the fixing protrusion formed at the center of the connecting terminal. Therefore, it is better to dig into both sides of the slot to be fixed.

On the other hand, in the configuration according to the present invention, the first connection end of the connection terminal may be formed thinner than other portions of the terminal body, but the upper surface of the first connection end may be formed low.

According to the technique according to the present invention by improving the connection terminal in a dual structure formed a rear end fixing projection formed on both sides of the center of the terminal body with a larger width than the width of the fixing projection on both sides of the rear end of the connecting terminal protruding the fixing projections When the improved connection terminal is coupled to the slot of the connector housing, the effect of being firmly supported and fixed to the slot is expressed by a double structure fixing protrusion formed on both sides of the center and rear ends of the connection terminal.

In addition, the technique according to the present invention is firmly secured to the slot by a double structure fixing protrusion formed on both sides of the center and rear ends of the connection terminal when the connection terminal improved by the fixed structure of the double structure to the slot of the connector housing By allowing the support to be fixed, there is an effect of preventing the flow of the connection terminal to make a stable electrical connection when the electrical connection of the micro coaxial cable and the connector for the micro coaxial cable.

Hereinafter, a connection terminal for a micro coaxial cable connection connector according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective configuration diagram showing a connecting terminal for a micro coaxial cable connecting connector according to the present invention, Figure 2 is a plan view showing a connecting terminal for a micro coaxial cable connecting connector according to the present invention, Figure 3 is an ultrafine according to the present invention 4 is a side cross-sectional view showing a connection terminal for a coaxial cable connection connector according to the present invention, and FIG. 5 is a side cross-sectional view showing a connection terminal for a coaxial cable connection connector according to the present invention. A plan view showing the connector.

Referring to the configuration of the micro coaxial cable connecting connector 100 to which the connecting terminal 130 according to the present invention is applied as shown in Figures 1 to 5 is a micro coaxial cable ( 10) a plurality of slots 120 and slots formed at a predetermined interval on the connector housing 110 through which the connection port 112 into which the connection end 12 of the front end is inserted and inserted through the connector port 110 and the connection port 112 of the connector housing 110 is formed. Is inserted into and fixed to each of the 120 is electrically connected to the connecting end 12 of the tip of the micro coaxial cable 10 is made of a configuration of the connecting terminal 130 made of a thin plate of a predetermined length.

On the other hand, looking at the configuration of the connection terminal 130 according to the present invention in the configuration of the ultra-fine coaxial cable connecting connector 100 as described above, the terminal body 132 made of a thin plate of a certain length, the connection of the micro coaxial cable 10 Rear end side of the terminal body 132 electrically connected to and fixed to the first connection end 134 on the front end side of the terminal body 132 electrically connected to the end 12 and the connection terminal 152 of the connection socket 150. The second connecting end 136 of the terminal body 132 is formed protruding from both sides of the center portion of the connector housing 110 to penetrate both sides of the slot 120 and the terminal body 132 can be fixed to the slot 120. The fixing protrusion 138 and the rear end of the terminal body 132 is formed so as to protrude from the rear end fixing protrusions 140 formed.

In the configuration of the ultra-fine coaxial cable connecting connector connection terminal 130 according to the present invention configured as described above, the rear end fixing protrusion 140 is located on both sides of the terminal body 132 at a rear end of a predetermined distance from the fixing protrusion 138 in the center. Protruding to form a dual structure with the fixing projections 138 of the central portion, when the connecting terminal 130 is coupled to the slot 120 of the connector housing 110, the fixing projections 138 of the central portion both sides of the slot 120 The inner side of the slot 120 is dug along the line into which the connection terminal 130 is fixed on the slot 120 of the connector housing 110.

In other words, the rear end fixing protrusion 140 as described above forms a dual structure with the fixing protrusion 138 in the center, so that the connection terminal 130 is coupled to each of the slots 120 of the connector housing 110. 4) to support the four points on both sides of the inside to function to prevent the flow of the connection terminal 130. At this time, the width of both ends of the rear end fixing protrusion 140 has a larger width than the width of both ends of the fixing protrusion 138 formed in the center of the connecting terminal 130, the fixing protrusion 138 of the central portion is dug into both sides of the slot 120. It is made of a configuration that is dug into both sides of the slot 120 along the line.

As described above, forming the rear end fixing protrusion 140 in a width larger than the width of both ends of the fixing protrusion 138 formed at the center portion of the connecting terminal 130 makes the connecting terminal 130 the slot 120 of the connector housing 110. When coupled to each of the inner side of the slot 120, the fixing protrusions 138 of the center portion of the connection terminal 130 is dug into the line is formed, the rear end fixing protrusions (140) are followed, so that the rear end fixing The width of both ends of the protrusion 140 is larger than the width of both ends of the fixing protrusion 138 formed in the center portion.

In other words, when the connection terminal 130 is fixed to each of the slots 120 of the connector housing 110, the fixing protrusions 138 of the central side of the connection terminal 130 of the connection terminal 130 are connected to both sides of the inside of the slot 120. Since the rear fixing protrusion 140 is followed by the groove-shaped line formed by digging, if the width of both ends of the rear fixing protrusion 140 is smaller than or equal to the width of both ends of the center fixing protrusion 138, the connection terminal 130 ) There is a problem that the rear end can flow. Therefore, the width of both ends of the rear end fixing protrusion 140 may be formed to have a larger width than the width of both ends of the fixing protrusion 138 formed at the center portion.

In addition, the connection terminal 130 for a micro coaxial cable connection connector according to the present invention constitutes a front end portion of the connection terminal 130 as shown in FIGS. The first connection end 134 electrically connected to the connection end 12 of 10) is configured to have a thinner thickness than other portions of the terminal body 132. That is, the upper surface of the first connecting end 134 constituting the front end of the connecting terminal 130 is formed lower than the other parts of the terminal body 132.

As described above, the upper surface of the first connection end 134, which is formed lower than the other parts of the terminal body 132, is connected through the connector 112 of the connector housing 110, as shown in FIG. The connecting end 12 of the coaxial cable 10 is located and electrically connected. That is, the connection end 12 of the micro coaxial cable 10 inserted through the connection port 112 of the connector housing 110 is on the upper surface of the first connection end 134 constituting the front end of the connection terminal 130. It is located in the electrical connection is made.

As described above, the connection terminal 130 for the micro coaxial cable connection connector according to the present invention has a larger width than the width at both ends of the center fixing protrusion 138 of the terminal body 132 on both rear ends of the terminal body 132. The rear end fixing protrusion 140 is formed to have a dual structure with the central fixing protrusion 138 to be fixed to each of the slots 120 of the connector housing 110 through four-point support so that the connection terminal 130 flows. It is a technique to prevent.

As described above, the connection terminal 130 for the micro coaxial cable connection connector is fixed to each of the slots 120 of the connector housing 110 through four-point support, respectively, of the center fixing protrusion 138 and the rear fixing protrusion 140. Stable electricity at the time of electrical connection of the micro coaxial cable 10 and the micro coaxial cable connection connector 100 by preventing the flow of the connection terminal 130 coupled to the slot 120 of the connector housing 110 by improving to a dual structure The connection can be made.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

1 is a perspective configuration diagram showing a connection terminal for a micro coaxial cable connection connector according to the present invention.

Figure 2 is a plan view showing a connecting terminal for a micro coaxial cable connection connector according to the present invention.

Figure 3 is a side configuration view showing a connection terminal for a micro coaxial cable connection connector according to the present invention.

Figure 4 is a side cross-sectional view showing a connection terminal for a micro coaxial cable connection connector according to the present invention.

Figure 5 is a plan view showing a micro coaxial cable connecting connector to which the connecting terminal according to the present invention.

[Description of Symbols for Main Parts of Drawing]

10. Micro Coaxial Cable 12. Connection

100. Connector 110. Connector housing

112. Port 120. Slot

130. Terminal 132. Terminal body

134. First connection end 136. Second connection end

138. Fixed protrusion 140. Rear fixed protrusion

Claims (3)

A terminal body made of a thin plate of a predetermined length, a first connecting end of the terminal body tip side electrically connected to the connecting end of the micro coaxial cable, and a second connecting end of the rear end side of the terminal body electrically connected to the connecting terminal of the connecting socket. And a fixing protrusion protruding from both sides of the center portion of the terminal body to penetrate both sides of the slot of the connector housing so that the terminal body can be fixed to the slot. The connection terminal protrudes on both sides of the terminal body at a rear end of a predetermined distance from the fixing protrusion of the center, and is formed in a double structure with the fixing protrusion of the central portion. When the connection terminal is coupled to the slot of the connector housing, the fixing protrusions of the central portion are both sides of the slot. And a rear end fixing protrusion for digging the both sides of the slot along the line into which the terminal is fixed and fixing the connection terminal on the slot of the connector housing. According to claim 1, wherein the width of both ends of the rear end fixing projections formed on the rear end of the connection terminal has a larger width than the width of both ends of the fixing projections formed in the center of the connection terminal is a line where the fixing projections in the center of the two sides of the slot According to claim 2, wherein both sides of the slot are fixed. According to claim 1 or claim 2, wherein the first connection end of the connection terminal is characterized in that the thickness is thinner than other parts of the terminal body, but the upper surface of the first connection end is formed very low Connector for coaxial cable connector.

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