KR200451688Y1 - Bayonette Neil-Concelman connector - Google Patents

Abstract

The present invention is a pipe-shaped connector body made of a metal material; A center conductor part made of a metal material and installed inside the connector body to transmit a signal; And an insulation portion provided between the inner surface of the connector body and the outer surface of the center conductor portion so as to insulate the connector body and the center conductor portion, wherein the connector body is processed through die casting casting to form a through hole, A first member made of a metal material to be connected and a second member made of a metal material having a higher electrical conductivity than the first member and injection molded to be inserted into and fixed to one side of the through hole and connected to a receptacle of a communication device; A BNC connector characterized by comprising two members of different processing methods, whereby a member connected to a receptacle of a communication device can be formed of a brass material having high electrical conductivity, thereby transmitting and receiving a high frequency signal. It is effective to provide accurate signal transmission without loss of signal.

BNC Connectors, Die Casting, Injection, Electrical Conductivity

Description

BNC connector {Bayonette Neil-Concelman connector}

The present invention relates to a BNC connector used in communication equipment, in particular, a CC camera (unmanned camera), and more particularly, the member connected to the receptacle of the communication equipment can be formed of a brass material with high electrical conductivity, so that a high frequency signal The present invention relates to a BNC connector capable of providing accurate signal transmission without losing a signal of communication equipment to be transmitted and received.

In general, an RF cable is connected to facilities and components, such as an exchange station apparatus, a base station equipment, a repeater, and an Internet-related apparatus that perform wired or wireless communication, to transmit and receive specific signals such as high frequency RF signals.

Many kinds of connectors are used for these RF cables depending on the purpose and frequency of the signals, and they are adopted for each component by using connectors made to fit the structural characteristics of the connecting components.

Connectors used for coaxial cable include N-type, BNC-type, TNC-type, SMA-type, and the like, and this classification is made by the type of connector used, the type of cable, the frequency range of the signal, and the coupling method.

Here, the N-type connector is used for the medium coaxial cable, coupled to each other by a screw tightening method, mainly used as NJ antenna connector, BNC-type connector is a small, lightweight, quick detachable outlet pin (Bayonet) Tightening method and mainly used for PCB.

In addition, TNC-type is widely used for wireless mobile communication devices, and is made of a small screw tightening method, SMA-type is a connector having an impedance of 50Ω, mainly used for the thin cable of a specific automatic equipment, push-on ( It is divided into push-on method and screw tightening method.

On the other hand, Bayonet Neil-Concelman (BNC) connector is a very common form of the RF connector used for the termination of the coaxial cable, Figures 1 and 2 shows the BNC connector and its structure.

The BNC connector 10 according to FIGS. 1 and 2 includes a connector body 11 having a cylindrical shape with both sides open, a connection terminal 12 installed inside the connector body 11, a connector body 11 and It is made up of a pipe-shaped insulating portion 13 provided between the connecting terminals 12 so as to electrically insulate the connector body 11 and the connecting terminal 12.

The connector body 11 and the connection terminal 12 are made of a brass material of a high electrical conductivity material, the connector body 11 is mainly made through a cutting process.

This cutting process is also called lathe cutting method, and has the advantage of good surface precision because it is produced by cutting and grinding the front and the back with the correct cutting rate, but there is a problem that mass production is difficult because it is produced by manual labor and the manufacturing cost increases. There was a problem.

On the other hand, a technique for manufacturing the connector body 11 using die casting casting rather than cutting has been proposed to improve the above-mentioned problem of cutting.

Die-casting casting is a mold casting method in which zinc, aluminum, tin, and lead are melted and pressed into a formwork made of steel. The die-casting casting is a process in which molten metal is pressed under a mold or a mold to produce metal products. Mass production is possible with casting method.

Therefore, by mass-producing the connector body 11 using die casting casting, the manufacturing cost of the connector can be reduced.

However, materials such as zinc and aluminum used in die-casting castings have lower electrical conductivity compared to copper, and in communication equipment where high frequency signals are transmitted and received, signal loss occurs due to low electrical conductivity and thus cannot provide accurate signal transmission. There is a problem.

The present invention is designed to solve the above problems, and improves the electrical conductivity of the part connected to the receptacle of the communication equipment to improve the electrical conductivity of the BNC connector that can accurately transmit the signal without loss of signal even in communication equipment that transmits and receives a high frequency signal The purpose is to provide.

According to an aspect of the present invention for achieving the above object, a pipe-shaped connector body made of a metal material; A center conductor part made of a metal material and installed inside the connector body to transmit a signal; And an insulation portion provided between the inner surface of the connector body and the outer surface of the center conductor portion so as to insulate the connector body and the center conductor portion, wherein the connector body is processed through die casting casting to form a through hole, A first member made of a metal material to be connected and a second member made of a metal material having a higher electrical conductivity than the first member and injection molded to be inserted into and fixed to one side of the through hole and connected to a receptacle of a communication device; Characterized in that.

Preferably, it is formed of a metal material, characterized in that it further comprises a pipe-shaped outer conductor portion in close contact with the inner surface of the connector body to improve the electrical conductivity of the connector body.

More preferably, the second member is made of a brass material.

In addition, the distal end of the second member is characterized in that it has a plurality of bent parts bent inward.

In addition, the second member is characterized in that coupled to the inside of the first member by interference fit method.

Preferably, the inner periphery of the first member is provided with a stepped protruding in the circumferential direction, characterized in that the second member is fitted to the inside of the first member by a predetermined length.

Since the BNC connector according to the present invention is formed of two members having different processing methods, the member connected to the receptacle of the communication equipment can be formed of brass material having high electrical conductivity, so that the signal of the communication equipment to which the high frequency signal is transmitted and received There is an effect that can provide accurate signal transmission without loss of.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the BNC connector according to the present invention.

3 is an exploded perspective view showing a BNC connector according to the present invention, Figure 4 is an exploded perspective view showing another form of the BNC connector according to the present invention, Figure 5 is a cross-sectional view of the coupling of the BNC connector of FIG.

As shown in FIGS. 3 to 5, the BNC connector according to the present invention has a pipe-shaped connector body 100, a center conductor portion 200 and a center conductor portion 200 installed inside the connector body 100. ) And an insulation part 300 insulated between the connector body 100.

The connector body 100 includes a first member 110 and a second member 120 which are manufactured through individual processing.

The first member 110 is a portion connected to the coaxial cable (not shown), the through-hole 111 is formed inside, die casting casting so that the uneven portion 112 for the connection with the coaxial cable is formed outside Processed through. Here, the first member 110 is made of a metal material, preferably made of zinc or aluminum.

The second member 120 is a part connected to a receptacle (not shown) of the communication equipment, and has a pipe shape having a through hole 121 formed therein, and is inserted into the through hole 111 at one side of the first member 110. It is injection molded to have a substantially similar outer diameter but smaller than the inner diameter of the through hole 111 to be fixed.

Here, the second member 120 is made of a metal material having a higher electrical conductivity than the first member 110, preferably made of brass.

As such, the connector body 100 includes the first member 110 and the second member 120, and the first member 110 and the second member 120 are processed through die casting casting and injection molding, respectively. Therefore, the second member 120 may be manufactured of brass, which was difficult to process through die casting casting.

Thus, the electrical conductivity of the second member 120 connected to the receptacle of the communication equipment can be further improved, thereby providing accurate signal transmission without loss of the signal of the communication equipment through which the high frequency signal is transmitted and received.

In addition, the second member 120 is coupled to the through hole 111 of the first member 110 in an interference fit manner. At this time, the stepped portion 113 protruding in the circumferential direction is formed on the inner circumference of the first member 110, the stepped portion 113 has a second length 120 is a predetermined length inside the first member 110. Only insert as much as possible.

The center conductor part 200 is installed inside the connector body 100 in a pin shape and transmits a signal. The center conductor part 200 penetrates through the first member 110 and the second member 120 in a relief chuck. Located inside the connector body 100, a predetermined length protrudes to the outside of the first member (110). In addition, the center conductor portion 200 is made of a pin-shaped metal material, preferably copper.

The insulating part 300 is installed between the inner surface of the connector body 100 and the outer surface of the central conductor part 200 so that insulation is maintained between the connector body 100 and the center conductor part 200.

In addition, the insulating part 300 is preferably configured to surround all of the outer surface of the central conductor part 200 using Teflon having a low dielectric constant.

The BNC connector according to the present invention configured as described above is fastened to the receptacle of the BNC connector of the communication device having a shape corresponding to the BNC connector.

Meanwhile, as shown in FIG. 4, the BNC connector according to the present invention further includes an outer conductor portion 400 installed between the connector body 100 and the insulation portion 300.

The outer conductor part 400 is formed of a metal material having a high electrical conductivity, and is in close contact with the inner surface of the connector body 100, precisely, the first member 110 to improve the electrical conductivity of the first member 110. It is a structure, Preferably it is a pipe shape.

In addition, the outer conductor part 400 is coupled to the through-hole 111 of the first member 110 through the through-hole 121 of the second member 120 in a fitting manner so as to be fixed to the connector body 100. do.

In addition, the outer conductor portion 400 has a flange 410 protruding outward at one end, and the flange 410 is seated on the stepped portion 113 formed at the inner circumference of the first member 110.

In addition, the outer conductor portion 400 is made of any one of a metal material of silver, copper, aluminum, magnesium, zinc, nickel, iron, lead, antimony, preferably, the outer conductor portion 400 is made of copper.

In addition, when the outer conductor portion 400 is made of any one of the material of the aluminum, magnesium, zinc, nickel, iron, lead, antimony having a relatively low electrical conductivity compared to silver or copper of the outer conductor portion 400 The outside may be further provided with a coating layer coated with copper (not shown) to improve the electrical conductivity.

On the other hand, the distal end portion of the second member 120, which is a portion connected to the resectorle of the communication equipment, is provided with a plurality of bent portions 122 bent inward. These multiple bends 122 increase the connection area of the connector body 100 and the receptacle, thereby increasing the electrical conductivity so that accurate signals can be transmitted without loss of signal.

The embodiments of the present invention described above are merely illustrative of the technical idea of the present invention, and the protection scope of the present invention should be interpreted by the following claims. In addition, one of ordinary skill in the art to which the present invention belongs will be able to various modifications and variations without departing from the essential characteristics of the present invention, all technical ideas within the scope equivalent to the present invention of the present invention It should be interpreted as being included in the scope of rights.

1 is a perspective view showing a typical BNC connector,

2 is an exploded cross-sectional view showing the configuration of a BNC connector according to the prior art;

3 is an exploded perspective view showing a BNC connector according to the present invention;

Figure 4 is an exploded perspective view showing another form of the BNC connector according to the present invention,

5 is a cross-sectional view of the BNC connector shown in FIG.

-Explanation of symbols for the main parts of the drawings-

100: connector body 110: first member

111: through hole 112: uneven portion

113: step 120: second member

121: through hole 122: bent portion

200: center conductor portion 300: insulation portion

400: outer conductor portion 410: flange

Claims (4)

A pipe-shaped connector body made of a metal material; A center conductor part made of a metal material and installed inside the connector body to transmit a signal; An insulation portion provided between an inner surface of the connector body and an outer surface of the center conductor portion to insulate the connector body and the center conductor portion; And Is formed of a metal material, and in close contact with the inner surface of the connector body includes a pipe-shaped outer conductor portion to improve the electrical conductivity of the connector body, The connector body is made of a metal material having a higher electrical conductivity than the first member and the first member of the metal material is processed through die casting casting to be connected to the coaxial cable to form a through hole is inserted into one side of the through hole And a second member which is injection molded to be fixed and connected to the receptacle of the communication equipment. delete The method of claim 1, BNC connector, characterized in that the distal end of the second member has a plurality of bent parts bent inward. The method of claim 1, The second member is coupled to the inside of the first member by a force fitting method, the inner periphery of the first member is provided with a step protruding in the circumferential direction so that the second member is a predetermined length inside the first member BNC connector, characterized in that the interference as much as possible.

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