KR101667301B1 - Connector of flexible Plate Cable - Google Patents

Abstract

The present invention relates to a connector for a flexible pallet cable for transmitting an electric signal, and more particularly, to a connector for a flexible pallet cable configured to be easily detachable and easy to attach and detach without anyone having an expert opinion,
A concrete solution means of the present invention is that,
The insertion groove is formed at one side of the insertion groove so that the insertion connector having a latching protrusion can be inserted into the center of one side of the upper surface of the insertion groove, The first incision part is formed so that the ash is locked and the second incision part is slidably inserted into the center of the upper surface of the insertion groove and the center shaft is integrally joined to the end of the second incision part, And a locking connector integrally provided with a plate-shaped locking bar so that a seizing phenomenon is generated around the central axis of the locking connector, wherein the locking protrusion is integrally formed with the locking protrusion, So that the insertion connector and the upper In the connector for a flexible pallet cable according to the present invention,
The insertion connector is provided with protruding jaws on both sides of the center of the other side of the upper surface, and a plurality of insertion holes are drilled in the other front surface so that the first connection pin can be inserted, and through holes corresponding to the insertion insertion hole are formed in the upper side of the rear side And a plurality of through-holes formed on both sides of the through-holes corresponding to the through-holes, the through-holes having through-holes corresponding to the through-holes are formed on the rear wall of the insertion groove, A plurality of through holes are formed in a lower portion of the through hole so as to correspond to the through holes, a fastening groove is formed at a predetermined upper portion of the through hole, and an insertion hole into which the second connection pin is inserted is drilled A connector for a flexible pallet cable,
Wherein an auxiliary groove is formed in the lower end of the insertion insertion hole and the upper end of the insertion hole, respectively,
The first connection pin is formed integrally with the first connection hole, and the second connection hole is formed in the vertical direction on the upper side of the first connection pin, and the first curve is formed on the other side of the first connection pin. A second bend portion is elastically formed on the upper side of the first bend portion, a first incision protrusion is formed on a lower bottom, and the second bend portion and the first incision protrusion are formed in a rectangular frame shape A connector for a flexible pallet cable,
The second connecting pin is formed integrally with the first connecting hole and has an arch shape at one side and a third slit hole at the lower lateral direction. A fourth slit hole is formed at the lower side in the vertical direction and a pin is formed at the other side. And a second cutting protrusion is provided at a predetermined position on the upper surface of the flexible pallet cable connector.
It is a flexible pallet cable connector for transmitting electric signals. It is easy to attach and detach, so that anyone can attach and detach even if there is no expert opinion.

Description

Connector for flexible pallet cable {Connector of flexible plate cable}

The present invention relates to a connector for a flexible pallet cable for transmitting an electric signal, and more particularly, to a connector for a flexible pallet cable which is easy to attach and detach and which is easy to attach and detach without any expert knowledge.

Various flexible electronic devices such as a TV, a refrigerator, a set-top box, a monitor, a smart phone, a smart pad, and a notebook have pallet-shaped flexible cables for transmitting data (electric signals)

One end and the other end of the flexible cable are connected to the pair of cable connectors so that signals can be transmitted between the cable connectors.

In the conventional connector, a terminal insertion space portion is provided at equal intervals inside the housing, and a cable connection portion insertion space is formed at one side of each terminal insertion space portion so as to communicate the respective terminal insertion space portions. In the bottom of the housing, A divided supporting piece for dividing the space portion is formed in each terminal insertion space, and both ends thereof have a supporting piece for supporting the housing, and a terminal is mounted in each of the terminal insertion spaces.

Such a conventional connector is pointed out as a disadvantage as follows.

The conventional connector has a limited range of use because the terminal can not be deformed because the support piece positioned on the main PCB is formed only on one side of the main PCB. When the auxiliary PCB is inserted into the cable connection portion insertion space of the terminal insertion space portion, The connection portion of the connection cable can not be easily inserted. In the terminal, since the contact portion contacting the connection portion of the connection cable is simply bent by the bent portion, there is a problem that the contact failure occurs , There is a problem that the connection cable is easily removed.

At this time, a separate connector for coupling with the cable connector is provided at one end and the other end of the flexible cable, respectively. In this case, since the separate connector itself occupies a large volume, it is difficult to design a thin electronic device. Further, the manufacturing cost is increased by using a separate connector.

Conversely, when the cable connector is connected without providing a separate connector at one end and the other end of the signal cable, the signal cable can be easily separated from the cable connector.

Particularly, a communication device uses a cable as a path (PATH) for transmitting an electrical signal, and since the number of paths constituted according to purposes and purposes and the types of signals transmitted through each path are different , Directional or polarity is very important, and a standardized connector is used to facilitate accurate connection and disconnection.

The communication equipment has a plurality of independent circuit boards inserted into a mother board or a back board and a cable is connected to the back board to input and output the corresponding signals. do.

As described above, a cable serving as a path through which a signal is transmitted is required to be easily connected and disconnected, while at the same time requiring a small connection resistance.

Hereinafter, a conventional cable connector structure of a communication system includes a printed circuit board (PCB) having a plurality of electronic components fixedly arranged on a corresponding pattern (PATTERN)

A circuit card connector fixedly connected to a corresponding pattern of the printed circuit board and adapted to input a signal to be processed in the printed circuit board or to output a processed signal,

A back board having a mother board function to which the printed circuit board is connected and fixed; a circuit mail connector integrally provided on the back board and having a plurality of projecting pins connected to the circuit female connector;

A cable mail connector integrally provided on the back board and having a plurality of protruding pins corresponding to the circuit mail connector and having a polarity slot integrally therewith; And a cable feed connector for electrically connecting the cable, which is a path through which the signal is transmitted by being inserted into the slot of the cable mail connector so as to be polarized, and the projecting pin of the cable mail connector, do.

Hereinafter, the structure of the backboard cable connector according to the related art will be described in detail.

And a circuit feed connector for outputting a signal to be processed by the printed circuit board. The printed circuit board is connected to a backboard and inputs / outputs signals through the backboard. Therefore, a male and a female connectors are provided between the backboard and the printed circuit board, CONNECTOR) are respectively provided.

That is, a circuit mail connector is integrally provided on the printed circuit board, and a circuit mail connector corresponding to the circuit mail connector is integrally provided on the back board.

Further, the back board has a cable mail connector to which a cable is connected on the opposite side to which the printed circuit board is connected.

The circuit mail connector and the cable mail connector each have a protruding pin (PIN) protruding from the cable mail connector. The cable mail connector has a polarity slot, so that the cable mail connector is inserted into the slot .

To be more specific, the backboard cable connector structure according to the related art has a structure in which a plurality of projecting pins, which linearly pass through between a circuit mail connector and a cable mail connector integrally provided on a back board, are integrally formed, The mail connector and the cable connector are electrically connected.

However, when the types of the printed circuit boards connected to the back board in one system equipment are various, the types of the signals input / output to / from the respective printed circuit boards differ from each other, and thus the structures of the connectors are different.

That is, since the structure of signals processed for each printed circuit board differs, the size of the cable female connector becomes different, and the number of the plurality of projecting pins passing through the backboard becomes different.

The circuit mail connector and the cable mail connector are provided with a plurality of protruding fins, and the circuit female connector is connected to one side of the protruding pin and the cable mail connector is connected to the other side.

Since the plurality of protruding pins provided on the backboard are relatively expensive, unnecessary ones are not used and there is a problem that the number of models to be managed by the backboard increases according to the type of the printed circuit board to be used.

Also, since the circuit female connector is connected to one side of the plurality of projecting pins provided on the back board and the cable female connector is connected to the opposite side, a two-point contact type, When a high-speed signal is transmitted, there is a problem that the quality of a transmission signal is deteriorated.

Korean Patent Registration No. 10-0299632 Korean Patent No. 10-1008302 Korea Patent No. 10-1291215 Korean Patent Registration No. 10-1422788

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a flexible pallet cable connector for transmitting an electrical signal, which is easy to attach and detach, The object of the present invention is to provide a connector for a pallet cable.

In order to accomplish the above object, according to a first aspect of the present invention,

The insertion groove is formed at one side of the insertion groove so that the insertion connector having a latching protrusion can be inserted into the center of one side of the upper surface of the insertion groove, The first incision part is formed so that the ash is locked and the second incision part is slidably inserted into the center of the upper surface of the insertion groove and the center shaft is integrally joined to the end of the second incision part, And a locking connector integrally provided with a plate-shaped locking bar so that a seizing phenomenon is generated around the central axis of the locking connector, wherein the locking protrusion is integrally formed with the locking protrusion, So that the insertion connector and the upper In the connector for a flexible pallet cable according to the present invention,
The insertion connector is provided with protruding jaws on both sides of the center of the other side of the upper surface, and a plurality of insertion holes are drilled in the other front surface so that the first connection pin can be inserted, and through holes corresponding to the insertion insertion hole are formed in the upper side of the rear side And a plurality of through-holes formed on both sides of the through-holes corresponding to the through-holes, the through-holes having through-holes corresponding to the through-holes are formed on the rear wall of the insertion groove, A plurality of through holes are formed in a lower portion of the through hole so as to correspond to the through holes, a fastening groove is formed at a predetermined upper portion of the through hole, and an insertion hole into which the second connection pin is inserted is drilled A connector for a flexible pallet cable,
Wherein an auxiliary groove is formed in the lower end of the insertion insertion hole and the upper end of the insertion hole, respectively,
The first connection pin is formed integrally with the first connection hole, and the second connection hole is formed in the vertical direction on the upper side of the first connection pin, and the first curve is formed on the other side of the first connection pin. A second bend portion is elastically formed on the upper side of the first bend portion, a first incision protrusion is formed on a lower bottom, and the second bend portion and the first incision protrusion are formed in a rectangular frame shape A connector for a flexible pallet cable,
The second connecting pin is formed integrally with the first connecting hole and has an arch shape at one side and a third slit hole at the lower lateral direction. A fourth slit hole is formed at the lower side in the vertical direction and a pin is formed at the other side. And a second cutting protrusion is provided at a predetermined position on the upper surface of the flexible pallet cable connector. The above-described object can be achieved by providing a connector for a flexible pallet cable.

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According to the present invention configured as described above, the flexible pallet cable connector for transmitting an electric signal is easy to attach and detach, so that anyone can attach and detach even if there is no expert opinion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Various changes and modifications may be made by those skilled in the art.

1 is an exploded perspective view of a connector for a flexible pallet cable according to the present invention,
FIG. 2 is an exploded perspective view of a connector and a second connecting pin in a connector for a flexible pallet cable according to the present invention,
3 is an exploded perspective view showing an insertion connector and a first connection pin in a connector for a flexible pallet cable according to the present invention,
Fig. 4 is a perspective view showing a combination of an insertion connector and a connector in a connector for a flexible pallet cable according to the present invention, Fig.
FIG. 5 is a sectional view of a connector for a flexible pallet cable according to the present invention, in which the first connector pin is engaged with the second connector pin in a state in which the second connector pin is coupled to the connector connector.
FIG. 6 is a cross-sectional view of a connector for a flexible pallet cable according to the present invention, in which two components are coupled to each other in a state where a first connection pin is coupled to a coupling connector and a second connection pin is coupled to the insertion connector.

Hereinafter, a connector for a flexible pallet cable according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a perspective view showing a connector for a flexible pallet cable according to the present invention, FIG. 2 is an exploded perspective view of a connector and a second connection pin in a connector for a flexible pallet cable according to the present invention, 4 is a perspective view showing an insertion connector and a coupling connector in a connector for a flexible pallet cable according to the present invention. FIG. 5 is a perspective view showing a connector for a flexible pallet cable according to the present invention, The connector is an exploded cross-sectional view of the first connection pin before the two components are coupled with the second connection pin coupled to the coupling connector. FIG. 6 is a cross-sectional view of a connector for a flexible pallet cable according to the present invention, in which two components are coupled to each other in a state where a first connection pin is coupled to a coupling connector and a second connection pin is coupled to the insertion connector.

As shown in Fig. 1, an indicator 10 indicates an insertion connector

As shown in FIG. 3, the insertion connector 10 is provided with a grip-and-holding gap holding protrusion member 100 having an elastic force on both sides in a rectangular shape. A latching jaw 101 is provided at one center of the upper surface, A plurality of insertion holes 103 are formed in the other side of the other side so that the first connection pin 110 can be inserted. On the upper side of the rear side of the insertion hole 103, A through hole 104 corresponding to the through hole 104 corresponding to the through hole 104 is formed in the through hole 104. The through hole 104 corresponds to the through hole 104 on the lower side, 106 are formed.

1, 2, and 5, an insertion groove 200 is formed on one side of the coupling connector 20 so that the insertion connector 10 can be inserted therein, And a first cut portion 202 is formed on both sides of the insertion groove 200 to lock the protruding member 100. The engagement protrusion 101 is slid in the center of the upper surface of the insertion groove 200 And the center shaft 204 is integrally coupled to an end of the second cutout 203 to allow the center shaft 204 to be positioned at the center of the second cutout 203, A plurality of through holes 205 through which the second connecting pins 220 corresponding to the through holes 104 are passed are formed in the rear wall of the insertion groove 200, And a groove 206 corresponding to the through hole 205 is formed on the lower side of the through hole 205, And an insertion hole 208 into which the second connection pin 220 is inserted is formed in the other side of the coupling hole 207.

5 and 6, the locking bar 210 is provided at its lower end with a locking protrusion 211 so as to be locked to the locking protrusion 101, And a seesaw phenomenon is generated in the shaft,

2 and 3, auxiliary grooves 120 are formed at the lower end of the insertion insertion hole 103 and at the upper end of the insertion hole 208, respectively.

3, the first connection pin 110 is formed integrally with the first connection pin 110. The first connection pin 110 is formed in an arch shape at one side and has a first cut-out hole 111 in the upper lateral direction, A second bending portion 112 is formed and a first bending portion 113 is formed on the other side of the first bending portion 113 so that a second bending portion 114 is elastically formed on the upper side of the first bending portion 113, A first incision protrusion 115 is formed and the second incision protrusion 115 and the second incision protrusion 115 are surrounded by a rectangular frame 116. [

As shown in FIG. 2, the second connection pin 220 is integrally formed, and an arch shape is formed at one side thereof, a third cutting hole 221 is formed at a lower side in the lateral direction, A fourth incision hole 222 is formed on the other side and a second incision protrusion 223 is provided on a predetermined position on the upper surface while the other side is formed into a long pin shape.

The operation of the present invention will now be described.

The first and second connecting pins 110 and 220 are connected to each other by using the insertion connector 10 and the connecting connector 20 which are components of the present invention as shown in FIG. In the state where the first connection pin 110 and the second connection pin 220 are coupled to the cable C as shown in FIG. 1, first, as shown in FIG. 3, 1 connection pin 110 is inserted into the insertion insertion hole 103 with the first bend section 113 forward and the first incision projection 120 is inserted into the auxiliary groove 120 integrally provided on the lower side of the insertion insertion hole 103 The second connection pin 220 is inserted into the insertion hole 208 as shown in FIG. 5, and the second connection pin 220 is inserted into the insertion hole 208 as shown in FIG. 5, The protrusions 223 are inserted into the auxiliary grooves 120 integrally formed on the upper side of the insertion holes 208.

6, when the protruding member 100 of the insertion connector 10 is held in such a state and the second connection pin 220 is inserted into the insertion groove 200 of the first connector 20 as shown in FIG. 6, Is grounded with the elastic second bend section (114) of the connection pin (110) to allow the connection.

In order to separate the insertion connector 10 and the connector 20 from each other in this state, when the rear surface of the locking bar 210, which is one side of the locking bar 210, is pressed, the locking bar 210 The latching protrusion 211 of the insertion connector 10 is caught by the latching protrusion 211 of the latching protrusion 101 and the latching protrusion 211 of the latching protrusion 211 of the insertion connector 10 It is possible to easily separate the insertion connector 10 and the coupling connector 20 from the insertion groove 200. [

A connector for a flexible pallet cable for transmitting an electric signal by operating as described above is easy to attach and detach and is easy to attach and detach even if there is no expert opinion.

10: insertion connector 20: coupling connector
100: protruding member 101:
102: protruding jaw 103:
104: Through hole 105:
106: penetrating groove portion 110: first connecting pin
111: first incision ball 112: second incision ball
113: 1st bend section 114: 2nd bend section
115: first incision projection 116: frame
120: auxiliary groove 200: insertion groove
202: first incision section 203: second incision section
204: center shaft 205: through hole
206: groove 207: fastening groove
208: insertion hole 210: locking bar
211: locking protrusion 220: second connecting pin
221: third incision ball 222: fourth incision ball
223: second incision projection C: cable

Claims (5)

A holding and protruding member 100 having both sides of a rectangular shape and having an elastic force is provided on one side of the upper surface and an insert connector 10 having a latching protrusion 101 formed at the center of one side of the upper surface thereof, And a first cut portion 202 is formed on both sides of the insertion groove 200 to lock the protruding member 100. The engagement protrusion 101 is formed at the center of the upper surface of the insertion groove 200 The second cutout 203 is slidably inserted into the second cutout 203 and the central axis 204 is integrally coupled to the end of the second cutout 203 to center the center axis 204 And a locking protrusion 211 is provided at one end of the locking protrusion so as to be fastened to the locking protrusion 101 so that the plate locking bar 210 is integrally formed with the center shaft 204 And a connector 20, 1 is detachably attached to the locking protrusion 101 so that the insertion connector 10 and the coupling connector 20 can be easily detached from each other. In the connector for a conventional flexible pallet cable,
A plurality of insertion holes 103 are formed in the other side of the insertion connector 10 so that the first connection pins 110 can be inserted into the insertion hole 10, A through hole 104 corresponding to the inlet hole 103 is drilled and a through hole 104 corresponding to the through hole 104 is penetrated downward and a through hole 106 having protrusions 105 on both sides And a plurality of electrodes are formed,
A plurality of through holes 205 through which the second connection pins 220 corresponding to the through holes 104 are passed are formed on the rear wall of the insertion groove 200 and correspond to the through holes 205 on the bottom side, A groove 206 is formed at a predetermined position on the inner side of the through hole 205 and an insertion hole 208 into which the second connection pin 220 is inserted is formed at the other side And a coupling connector (20) which is provided on the flexible pallet.
delete The method according to claim 1,
Wherein an auxiliary groove (120) is formed in a lower end of the insertion insertion hole (103) and an upper end of the insertion hole (208), respectively.
The method according to claim 1,
The first connection pin 110 is integrally formed and has an arch shape at one side, a first incision hole 111 is formed in an upper transverse direction and a second incision hole 112 is formed in a longitudinal direction at an upper side of the side A first bend section 113 is formed on the other side of the first bend section 113 and a second bend section 114 is formed on the upper side of the first bend section 113 and a first cutout protrusion 115 is formed on the lower side And the second bend section (114) and the first cutout protrusion (115) are wrapped by a rectangular frame (116). The method according to claim 1,
The second connection pin 220 is integrally formed with an arch shape at one side, a third cut-out hole 221 in the lower horizontal direction, and a fourth cut-out hole 222 in the longitudinal direction at the lower side And the other end is formed in a plate-like shape having a long fin shape and a second cut-away projection (223) provided at a predetermined position on the upper surface.

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