KR20110014268A - Connector for connectting data cable - Google Patents

Abstract

PURPOSE: A plug connector for connecting data cable is provided to prevent the breakage of the data cable by connecting a connector fixing member from top part to bottom part. CONSTITUTION: An insertion protrusion(122) is formed in both side terminals of a terminal fixing member(120). An insertion protrusion inserts the terminal fixing member through the fixing member insertion groove(114) from the top to the lower part. A position fixing protrusion(132) is protruded at a lower surface of a shell cover(130) as the predetermined length. The position fixing protrusion connects both sides of the plug housing(110), and both sides of the terminal insertion groove(112) via a position fixing groove(146) of the data cable.

Description

Plug connector for data cable connection {Connector for connectting data cable}

The present invention relates to a plug connector for data cable connection, and more particularly, to more secure the coupling of the data cable and the terminal fixing member through the formation of fixing protrusions on the lower surfaces of both sides of the shell cover as well as assembly to prevent damage to the data cable. And a plug connector for data cable connection.

In general, a printed circuit board (PCB) is a thin film plate made of epoxy or phenol resin, printed with copper foil to connect the circuits of each electronic device. It means the board which can operate the circuit after the power is applied, and it has the conduction function, insulation function and support function. Therefore, the design of the PCB is directly related to the operation, performance, lifespan, and reliability of the product, and therefore is a very important position in the manufacture of electronic related products.

As mentioned above, PCBs can be used to insert various components such as semiconductors, capacitors, and resistors. These PCBs serve as an interconnection between components such as TVs, VTRs, audio, DVD players, and other home appliances. It is used in all electronic devices up to satellites.

On the other hand, the above-described PCB includes FPCB (Flexible Printed Circuits Board) and RPCB (Rigid Printed Circuits Board). Unlike conventional RPCBs, FPCBs are thinner and more flexible than conventional RPCBs. Therefore, demand for FPCBs is rapidly increasing due to the multimedia and light weight of electronic products. The FPCB is an electronic component developed to cope with the trend of miniaturization and complexity of electronic products. The FPCB has the advantages of good workability, excellent heat resistance, high resistance to chemicals, chemical resistance, low dimensional change, and strong heat.

The plug connector employing the FPCB (hereinafter referred to as a "data cable") as described above has a connection terminal formed at one end and a data cable having a ground plate formed at the rear of the upper surface of the connection terminal, and a terminal insert into which the connection terminal is inserted. Plug housing with groove, terminal fixing member for fixing the connecting terminal on the lower surface to fix on the terminal insertion groove of the plug housing, and a metal shell covering and closing the upper surface of the plug housing to which the terminal fixing member is coupled The cover is provided with a configuration.

The present applicant has described the structure of the plug connector employing the data cable as described above, in the technique of the "plug connector for data cable connection" of the patent application No. 2008-118867, the data through the terminal position fixing means on the lower surface of the terminal fixing member. In the state where the connection terminal of the cable is fixed, insert the terminal fixing member and the connection terminal of the data cable into the terminal insertion groove of the plug housing, and then insert the terminal fixing groove into the terminal insertion groove until the fixing member is separated. The technique of the structure which combined the shell cover of a metal material to the upper part of the housing was proposed.

However, in the technique proposed by the present applicant as described above, the configuration of the data cable (FPCB) is made of a very thin film structure to fix the position of the connection terminal of the data cable through the terminal position fixing means on the lower surface of the terminal fixing member When the terminal fixing member and the data cable connecting terminal are inserted into the terminal insertion groove of the plug housing in the state of being inserted, damages such as crushing or tearing of both sides of the connecting terminal by the terminal position fixing means on the lower surface of the terminal fixing member are prevented. The problem is exposed to the problem that the data cable connection or electrical connection is a problem.

Therefore, due to the problems of the prior art as described above, there is a problem that the quality of the product may be degraded when the plug connector is assembled, and the problem of the defective rate of the product and the deterioration of the work efficiency occurs.

The present invention has been made to solve the problems of the prior art, the structure of the terminal fixing member to improve the structure that can be combined from the top to the bottom of the structure to prevent the breakage of the data cable in the data cable coupling process It is an object to provide a plug connector for connecting a data cable.

In addition, the technology according to the present invention is made by coupling the shell of the structure having the fixing projections on both sides of the lower surface by connecting the upper portion of the plug housing to which the data cable is coupled by the terminal fixing member. The purpose of the present invention is to provide a more robust and easy coupling and fixing of the data cable and the terminal fixing member.

Furthermore, the technique according to the present invention is better to assemble the product through a structure that can prevent the breakage of the data cable and a structure that makes it possible to more firmly and easily fix the combination of the data cable and the terminal fixing member. Its purpose is to make it possible to improve the quality of the product.

The present invention configured to achieve the above object is as follows. That is, the plug connector for data cable connection according to the present invention has a connection terminal formed at one end and a data cable having a ground plate formed at the rear side on the upper surface of the connection terminal, a plug housing having a terminal insertion groove into which the connection terminal is inserted, and a connection. A plug connector for fixing the terminal on the bottom surface to fix the terminal on the terminal insertion groove of the plug housing so that the circuit can be operated by connecting the electronic devices to each other or applying power through a data cable. A position fixing groove which is formed at least one depth on the same line of the both ends of the connection terminal of the data cable; A fixing member insertion groove formed at a predetermined depth on the same line at both ends of the terminal insertion groove of the plug housing; An insertion protrusion formed at both ends of the terminal fixing member to correspond to the fixing member insertion groove to insert and couple the terminal fixing member from the top to the bottom through the fixing member insertion groove; A predetermined length is projected downwardly on both sides of the bottom surface of the shell cover in correspondence with the position fixing grooves on both sides of the connection terminal, but the position fixing grooves on both sides of the data cable pass through both sides of the terminal fixing member and the terminal insertion grooves of the plug housing. It consists of a configuration including a position fixing projection for fixing the position of the data cable through.

On the other hand, in the configuration of the present invention as described above, the terminal fixing member is inserted into the terminal insertion groove of the plug housing is pressed into the front side of the center of the insert is inserted from the top of the fixing member insertion groove to the lower through the insertion projection formed on both sides It may be configured to press the connection terminal of the cable to the lower side.

And, in the configuration according to the present invention, the assembly of the plug connector is inserted into the terminal fixing member from the top of the fixing member insertion groove to the front side in the state in which the connection terminal of the data cable is inserted into the terminal insertion groove of the plug housing. Pressing the connection terminal of the data cable inserted into the terminal insertion groove of the plug housing to the lower side by pressing, and then the shell cover is coupled to the upper portion of the plug housing to fix the position of the terminal fixing member and the connection terminal by a positioning protrusion. It can be made in one configuration to be made.

The technology according to the present invention is improved to the structure that can be coupled to the terminal fixing member from the top to the bottom is the effect that can prevent the breakage of the data cable in the data cable coupling process.

In addition, the technology according to the present invention is made by coupling the shell of the structure having the fixing projections on both sides of the lower surface by connecting the upper portion of the plug housing to which the data cable is coupled by the terminal fixing member. By making it possible, the fixing of the data cable and the terminal fixing member can be made more robust and easy.

Furthermore, the technique according to the present invention is better to assemble the product through a structure that can prevent the breakage of the data cable and a structure that makes it possible to more firmly and easily fix the combination of the data cable and the terminal fixing member. To improve the quality of the product.

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

1 is an exploded perspective view showing a separate plug connector for data cable connection according to the present invention, FIG. 2 is an exploded perspective view showing a bottom surface of the plug connector for data cable connection according to the present invention, and FIG. 3A is a data cable connection according to the present invention. 3B is a rear view illustrating the plug housing of the plug connector for data cable connection according to the present invention, and FIG. 4 is a first view illustrating the coupling of the plug connector for connecting the data cable according to the present invention. 5 is a second process diagram showing the coupling of the data connector plug connector according to the present invention, Figure 6 is a third process diagram showing the coupling of the plug connector for data cable connection according to the present invention, Figure 7 Plane showing a structure of preventing push of the lever by the shell cover of the plug connector for data cable connection according to the present invention Report, Figure 8 is a cross section showing the configuration Doi advance prevention structure of the lever by a shell cover of the plug connector for a data cable connection according to the invention.

First, as shown in FIGS. 1 to 6, the plug connector 100 according to the present invention also has a connection terminal 142 and one end connected to the upper surface of the connection terminal 142, similar to the plug connector according to the related art. Data cable 140 having a ground plate 144 formed at the rear, a plug housing 120 having a terminal insertion groove 112 into which the connection terminal 142 is inserted, and fixing the connection terminal 142 on the lower surface thereof. Shell cover made of metal to cover and close the upper surface of the plug housing 110 to which the terminal fixing member 120 and the terminal fixing member 120 are coupled to the terminal insertion groove 112 of the plug housing 110. The configuration of the 130 is the same.

However, the configuration of the plug connector 100 according to the present invention, in addition to the structure of the plug housing 110, the terminal fixing member 120, the shell cover 130 and the data cable 140 as described above, the data cable 140 Position fixing groove 146 formed at least one depth on the same line on both sides of the connecting terminal 142, the fixing member formed on the same line on both sides of the terminal insertion groove 112 of the plug housing 110 It is formed at both ends of the terminal fixing member 120 to correspond to the insertion groove 114, the fixing member insertion groove 114 is inserted and coupled to the terminal fixing member 120 from the top to the bottom through the fixing member insertion groove 114 Corresponding to the insertion projection 122, the position fixing groove 146 on both sides of the connecting terminal 142, the predetermined length protrudes downward on both sides of the lower surface of the shell cover 130, but fixing the position of both sides of the data cable 140 Both sides of the terminal fixing member 120 and the plug housing 110 via the groove 146. The terminal comprises a groove (112) on both sides of configurations, including the location fixed stone group 132 to secure the position of the data cable 140 through the perforated combine.

The configuration of the plug connector 100 according to the present invention configured as described above is a shell cover to the top of the plug housing 110 in which the data cable 140 is coupled on the plug housing 110 by the terminal fixing member 120. By combining the 130, the position fixing protrusion 132 is formed to project a predetermined length downward on both sides of the lower surface of the shell cover 130, the terminal fixing member 120 via the position fixing grooves 146 on both sides of the data cable 140. It is a technology of the structure that penetrates both sides and both sides of the terminal insertion groove 112 of the plug housing 110 to fix the data cable 140 and the terminal fixing member 120 on the plug housing 110.

On the other hand, the assembly of the plug connector 100 according to the present invention also unlike the prior art, first, as shown in Figure 4, the connection of the data cable 140 on the terminal insertion groove 112 of the plug housing 110 In the state in which the terminal 142 is inserted and coupled, the insertion protrusions 122 formed at both ends of the terminal fixing member 120 are formed at both ends of the terminal insertion groove 112 of the plug housing 110 as shown in FIG. 5. Match with the upper side of the fixing member insertion groove 114 is pressed from the top to the bottom to insert.

Next, as described above, the insertion protrusion 122 formed at both ends of the terminal fixing member 120 has an upper side of the fixing member insertion groove 114 formed at both ends of the terminal insertion groove 112 of the plug housing 110. 6 and then inserted into the terminal insertion groove 112 of the plug housing 110 by pressing the terminal fixing member 120 to the front side again as shown in FIG. The connection terminal 142 of 140 is fixed in a state in which it is pressed to the lower side by the coupling force of the terminal fixing member 120.

In addition, as described above, the connection terminal 142 of the data cable 140 is fixed to the terminal insertion groove 112 of the plug housing 110 while being pressed downward by the coupling force of the terminal fixing member 120. In one state, the shell cover 130 is coupled to the upper portion of the plug housing 110 to position the terminal fixing member 120 and the connection terminal 142 by the position fixing protrusions 132 formed on both sides of the lower shell cover 130. Allow fixing to take place.

Each component constituting the plug connector 100 according to the present invention will be described in detail as follows. First, the position fixing groove 146 is fixed through the position fixing protrusion 132 protruding downward from both sides of the lower shell cover 130 to be described later is inserted and coupled to the terminal insertion groove 1120 of the plug housing 110 To fix the position of the connection terminal 142 of the data cable 140, the position fixing groove 146 is a predetermined depth at both ends of the connection terminal 142 of the data cable 140 as shown in FIG. Is formed.

In other words, the position fixing groove 146 as described above is configured to be formed to be cut in a predetermined depth on the same line on both ends of the connection terminal 142 of the data cable 140. At this time, one or more position fixing grooves 146 which are formed to be cut in a predetermined depth on the same line on both sides of the connection terminal 142 are formed at each of both side ends of the connection terminal 142. In the present invention, two position fixing grooves 146 are formed at equal intervals in each of both ends of the connection terminal 142.

The fixing member insertion groove 114 constituting the present invention allows the terminal fixing member 120, which will be described later, to be inserted and coupled at the upper side of the terminal insertion groove 1120 of the plug housing 110 rather than the rear of the plug housing 110. To this end, the fixing member insertion groove 114 is formed in a predetermined depth on the same line on both sides of the terminal insertion groove 112 of the plug housing 110, as shown in Figs.

In other words, as described above, the fixing member insertion groove 114 is formed in a structure having a depth outward on the same line on both sides of the terminal insertion groove 112 of the plug housing 110 as shown in FIGS. 1 and 3. do. At this time, the fixing member insertion groove 114 is formed larger than the insertion protrusion 122 so as to be guided up and down the insertion protrusion 122 of the terminal fixing member 120 to be described later, but the plug housing 110 The terminal insertion groove 112 is formed smaller than the length of both ends.

Next, the insertion protrusion 122 constituting the present invention is to allow the terminal fixing member 120 to be inserted up and down on the fixing member insertion groove 114 of the plug housing 110 as described above. The insertion protrusion 122 is formed at both ends of the terminal fixing member 120 to correspond to the fixing member insertion groove 114, as shown in FIGS. 1 and 2, and is connected to the terminal through the fixing member insertion groove 114. The fixing member 120 is inserted into and coupled from the top to the bottom.

Meanwhile, as described above, the insertion protrusions 122 formed at both ends of the terminal fixing member 120 in correspondence to the fixing member insertion groove 114 are formed at both ends of the front end of the terminal fixing member 120, respectively. That is, since the tip of the terminal fixing member 120 should be inserted into the fixing member insertion groove 114 in a state where the tip of the terminal fixing member 120 is spaced apart from the tip of the terminal insertion groove 112 of the plug housing 110, as shown in FIGS. 1 and 2. As such, the insertion protrusions 122 formed at both ends of the terminal fixing member 120 should be formed on the same line as both ends of the front end of the terminal fixing member 120.

Insertion protrusion 122 configured as described above may be formed in a size corresponding to the fixing member insertion groove 114 of the plug housing 110, but as shown in Figures 1 and 2 to facilitate the insertion coupling As described above, the present invention is formed in a smaller size than the fixing member insertion groove 114 of the plug housing 110.

Position fixing protrusion 132 constituting the present invention is for fixing the position of the data cable 140 and the terminal fixing member 120 coupled on the plug housing 110 when the shell cover 130 is coupled, such As shown in FIG. 2, the position fixing protrusion 132 protrudes downward at a predetermined length from both sides of the lower surface of the shell cover 130 in response to the position fixing grooves 146 on both sides of the connection terminal 142. 140) the data cable 140 and the terminal fixing member 120 through the position fixing grooves 146 on both sides of the via terminal fixing member 120 and both terminals of the terminal insertion groove 114 of the plug housing 110. ) Will be fixed.

On the other hand, the position fixing protrusion 132 of the shell cover 130, as described above, the plug housing 110 when the coupling between the both sides of the terminal fixing member 120 and the terminal insertion groove 114 of the plug housing 110 through It is inserted through the through grooves 112a formed on both sides of the terminal insertion grooves 112 and through holes 124 formed on both sides of the terminal fixing member 120. At this time, the through grooves 124 formed on both sides of the terminal fixing member 120 are formed by reference with the terminal fixing member 120 being completely inserted into the terminal insertion groove 112 of the plug housing 110. It is matched with the through groove (112a) formed on both sides of the terminal insertion groove 112 of the housing (110).

In other words, the position fixing protrusion 132 configured as described above is a plug that matches in a state where the data cable 140 and the terminal fixing member 120 are completely coupled on the terminal insertion groove 112 of the plug housing 110. It is formed on both sides of the bottom of the shell cover 130 in response to the matching state of the through grooves 112a and 124 of the housing 110 and the terminal fixing member 120 and the position fixing groove 146 of the data cable 140. When the shell cover 130 is coupled to the upper portion of the plug housing 110, the through grooves 112a and 124 of the plug housing 110 and the terminal fixing member 120 and the position fixing groove 146 of the data cable 140 are connected. Through-coupled to fix the position of the data cable 140 and the terminal fixing member 120 coupled on the plug housing 110.

Of course, as described above, the plug housing 110 and the through hole 112a and 124 of the terminal fixing member 120 and the position fixing groove 146 of the data cable 140 are penetrated through the plug housing 110. Fixing the position of the combined data cable 140 and the terminal fixing member 120 means that the separation of the data cable 140 and the terminal fixing member 120 coupled on the plug housing 110 is prevented. .

As described above, the plug connector 100 according to the present invention improves the structure capable of coupling the terminal fixing member 120 from the top to the bottom to prevent breakage of the data cable in the process of coupling the data cable 140. Of course, the shell cover 130 of the structure having the positioning protrusions 132 formed on both lower surfaces thereof is coupled to the upper portion of the plug housing 110 to which the data cable 140 is coupled by the terminal fixing member 120. The coupling of the cable 140 and the terminal fixing member 120 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.

Figure 1 is an exploded perspective view showing the separation of the plug connector for data cable connection according to the present invention.

Figure 2 is an exploded perspective view showing the bottom of the plug connector for data cable connection according to the present invention.

3A is a plan view showing the plug housing of the plug connector for data cable connection according to the present invention;

3B is a rear view showing the plug housing of the plug connector for data cable connection according to the present invention;

Figure 4 is a first process diagram showing the coupling of the plug connector for data cable connection according to the present invention.

Figure 5 is a second process diagram showing the coupling of the plug connector for data cable connection according to the present invention.

Figure 6 is a third process showing the coupling of the plug connector for data cable connection according to the present invention.

[Description of Symbols for Main Parts of Drawing]

100. Plug connector 110. Plug housing

112. Terminal insertion groove 114. Fixing member insertion groove

120. Terminal fixing member 122. Insertion protrusion

130. Housing cover 132. Positioning protrusion

140. Data cable 142. Connection terminal

144. Ground plate 146. Position fixing groove

Claims (3)

A data cable having a ground plate formed at a rear end on the upper surface of the connection terminal and a connection terminal formed at one end thereof, a plug housing having a terminal insertion groove into which the connection terminal is inserted, and fixing the connection terminal on the lower surface In the plug connector is provided with a terminal fixing member for fixing on the terminal insertion groove of the plug housing so that the circuit can be operated by connecting each other of the electronic elements or applying power through the data cable, Position fixing grooves formed at least one depth on the same line on both ends of the connection terminal of the data cable; A fixing member insertion groove formed at a predetermined depth on the same line at both ends of the terminal insertion groove of the plug housing; Insertion protrusions formed at both ends of the terminal fixing member to correspond to the fixing member insertion groove to insert and couple the terminal fixing member from the top to the bottom through the fixing member insertion groove; A predetermined length protrudes downward on both sides of the lower surface of the shell cover to correspond to the position fixing grooves on both sides of the connection terminal. Plug connector for data cable connection, characterized in that consisting of a configuration including a position fixing projection for fixing the position of the data cable through the through. The data cable of claim 1, wherein the terminal fixing member is pressed toward the front side while being inserted from the upper side to the lower side of the fixing member insertion groove through insertion protrusions formed at both sides and inserted into and coupled to the terminal insertion groove of the plug housing. Plug connector for data cable connection, characterized in that to press the connection terminal of the lower side. The terminal assembly of claim 1 or 2, wherein the assembly of the plug connector is performed by inserting the terminal fixing member from the top of the fixing member insertion groove in a state in which the connection terminal of the data cable is inserted into the terminal insertion groove of the plug housing. Press the connection terminal of the data cable inserted into and coupled to the terminal insertion groove of the plug housing to the lower side by pressurizing to the front side, and then coupling the shell cover to the upper portion of the plug housing to the positioning protrusion. Plug connector for data cable connection characterized in that the position fixing of the terminal fixing member and the connecting terminal can be made.

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