KR20010001031A - Connector for testing connection jack of digital signal distributor - Google Patents

Abstract

PURPOSE: A connector for testing a connection jack of a digital signal distributor is provided to prevent errors of a communication system by measuring correctly a waveform of an input signal. CONSTITUTION: A connector for testing a connection jack of a digital signal distributor comprises a main body(110), an input plug(120), an output plug(130), a plug pin(140), and a waveform meter jack pin(150). The main body(110) is contacted with one side of a connection jack of a digital signal distributor. The input and the output plugs(120,130) is projected to one side of the main body(110). The plug pin(140) is installed within the input and the output plugs(120,130). The waveform meter jack pin(150) is installed at the input plug side within the main body(110).

Description

CONNECTOR FOR TESTING CONNECTION JACK OF DIGITAL SIGNAL DISTRIBUTOR}

The present invention relates to a connection jack test connector for digital signal distribution, and in particular, it is possible to accurately and easily measure the waveform of the input high-frequency signal, and to prevent connection defects between input and output inside the connection jack. The present invention relates to a connection jack test connector capable of digital signal distribution.

In general, as the signal transmission method has been developed from asynchronous to synchronous optical transmission, a coaxial code digital signal divider is used, and the input and output signals from the coaxial cable of the multiplex device side are used for the splitter. A connection jack is provided for transmission to the network.

As shown in FIG. 1, the connection jack of the digital divider includes a housing 1 having a ground connected to one side, an input terminal 2 connected to a coaxial cable on the multiplexing device side, and the input terminal 2. It is provided with an output terminal (3) for transmitting the signal input to the optical terminal side coaxial cable, the input terminal (2) and the output terminal (3) are arranged in parallel.

The input and output jack pins 4 and 5 of the hollow shape are connected to the rear of the input and output terminals 2 and 3, respectively, and are connected to the two conductive rods 4 and 5, respectively. Jack bodies 6 and 7 are respectively provided to protrude from the housing 1.

A switch spring 8 having a predetermined elasticity is mounted between the two jack pins 4 and 5, and the switch spring 8 electrically connects the input and output side jack pins 4 and 5 to an input terminal ( Transfers the signal input to 2) to the output terminal (3). The thickness of the switch spring 8 is as thin as about 0.2 mm, and the contact surface between the switch spring 8 and the jack pins 4 and 5 is as small as about 1 mm 2.

On the other hand, a signal monitoring circuit is provided on a circuit connecting the input terminal 2 and the input jack pin 4 to transmit a high frequency signal (for example, 44.736 MHz) transmitted from the input terminal 2 to the output terminal 3. ) Signal. The signal monitoring circuit includes a circuit 9 for extracting a high frequency signal input to a connection jack, a hollow monitoring conductor bar 11 connected to the circuit 9 via a resistor 10 of 760 kV, and the It consists of a guide terminal 12 for guiding the housing 1 and the conductor rod 11 side. Accordingly, when a conventional connector is inserted and operated in a connection jack of a digital signal distribution multiplier, the waveform of the high frequency signal can be monitored while the high frequency signal is input, but the high frequency signal input to the oscilloscope is a resistor of 760 kHz (10 It is difficult to accurately monitor the waveform of the input high frequency signal.

Moreover, the connection jack of the digital divider having the above configuration has a poor connection between the input and output terminals 3.2 when the switch spring 8 is contracted or expanded due to the surrounding environment such as temperature and humidity. This will occur. In addition, when a high frequency signal of about 44.736 MHz flows through the input and output jack pins 4 and 5, and the switch spring 8 contracts or expands, between the switch spring 8 and the jack pins 4 and 5. There is a spark (spark) occurs in the dust is generated, the dust is a case that interferes with the flow of the signal current.

In order to temporarily repair the connection defects occurring in the connection jack of the digital divider, or to test the quality before opening the communication system, a predetermined section of the multiple input and output terminals of the digital signal divider is looped and tested. Connectors have been developed and used.

Next, with reference to the accompanying Figure 2 will be briefly described a conventional connector for testing the connection of digital signal distribution.

As shown in Fig. 2, the conventional connector for testing jacks for digital signal distribution has a body 13 and a hollow input and output plug 14 mounted to protrude about 31 mm on one side of the body 13. And 15) and an integral conductor rod 16 disposed inside the input and output plugs 14 and 15. At this time, the length of both ends of the conductor rod 16 protruding out of the housing 1 is about 26.5mm.

In order to recover the connection failure generated in the digital distribution jack, the input and output plugs 14 and 15 are connected when the conventional connector is connected to the digital jack. It is fitted to the input and output side guide terminals 6 and 7 of the jack, respectively, and both ends of the conductor rod 16 are drawn into the housing 1 and connected to the input and output side jack pins 4 and 5, respectively.

In this case, one end of the input and output plugs 14 and 15 pushes the switch spring 8 of the connecting jack so that the switch spring 8 is separated from the input and output side jack pins 4 and 5, so that the input The signal input through the terminal 2 flows only through the conductor rod of the connector.

Accordingly, the connection between the input and output terminals 2 and 3 can be maintained and the connection jack can be repaired.

On the other hand, if you want to check the quality of the communication before the opening of the communication system using the connection jack of the digital distribution, or in the event of a system failure during operation after opening, the connector input and output side guide terminals (6, 7) only for a certain time And is removed after the stability of the system is ensured by maintenance work.

However, in the conventional connector as described above, the connector is horizontally inserted in the connection jack in order to maintain a poor connection of the connection jack (insert the connector vertically) or check the communication quality of the communication system before opening. After the elapse of time, the connector is removed, so that the spring is loosened, and there is a problem in that a poor connection occurs between the input and output conductor rods of the connection jack during the impact test.

In addition, even with the connector described above, since the waveform of the input / output signal cannot be measured accurately, there is another problem in that the communication system cannot prevent the occurrence of a large disturbance.

Accordingly, the present invention has been made to solve the above problems, and implements a secondary connection between the input and output terminal of the connection jack for digital signal distribution, the connection between the input and output terminal of the connection jack It is an object of the present invention to provide a connector for testing a connection jack of a digital signal distributor that maintains the signal stably.

In addition, the connector according to the present invention has a further object to provide a connector for testing the connection jack of the digital signal distribution that can be implemented to reliably measure the waveform of the input high-frequency signal, to prevent the occurrence of a large disturbance in the communication system. .

1 is a configuration diagram schematically showing a connection jack of a general digital signal distributor.

Fig. 2 is a block diagram showing a connector for testing a connection jack of a conventional digital signal distributor.

3 is a state in which the connector of FIG. 2 is inserted into a connection jack of a digital signal distributor;

Figure 4 is a block diagram showing a connector for testing the connection jack of the digital signal distribution according to the present invention.

Fig. 5 is a state in which the connector of Fig. 4 is inserted into a connection jack of a digital signal distributor.

* Explanation of symbols for main parts of the drawings

110: body 120: input plug

130: output plug 140: conductor pin (Plug pin)

150: Jack pin for waveform measurement 160: Grounding terminal

The present invention for achieving the above object, the digital signal distribution body is in contact with one surface of the connection jack; A pair of plugs protruding to one side of the body by a predetermined length and fitted to the input and output jack terminals of the jack, respectively; a plug body embedded in the pair of plug bodies; A conductor rod functioning as an input / output signal line by being connected to an input / output jack pin of the terminal; And a corrugated measurement terminal having a through hole formed in the longitudinal direction through the body and the plug and connected to the conductive rod, and having a longitudinal through hole for guiding an external measuring device to the conductive rod. to provide.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the connector for protecting the connection jack of the digital signal distribution according to the present invention in detail, in the description of one embodiment of the present invention, a portion similar to the prior art, that is, the connection The same reference numerals are used for the components of the jack, and description thereof is omitted.

The present invention is implemented to prevent a bad connection in the connection jack, and to measure the waveform of the input high-frequency signal reliably, as shown in Figure 4 the body 110, the body 110 Input and output plugs 120 and 130 protruding at one end of the), integral conductor rods 140 disposed at both ends of the input and output plugs 120 and 130, and the inside of the body 110 Waveform measurement jack pin 150 provided on the input plug 120 side. The input and output plugs 120 and 130 protrude by a length (about 26.5 mm) that does not contact the switch springs of the connection jacks when the connector in this embodiment is coupled to the connection jacks of the digital divider. Both ends of the conductor rod 140 protrude from the body 110 by the same length as the input and output plugs 120 and 130.

Here, the waveform measuring jack pin 150 is disposed upright with respect to the input plug 120 so as to protrude to the upper surface of the body 110, the through-hole in the vertical direction extending to the conductor rod 140 is formed in the center thereof. do. And, one side of the output plug 130 is provided so that the ground terminal 160 protrudes from the body (110).

When the connector of the present invention having the above configuration is coupled to a digital signal distribution jack, the input and output plugs 120 and 130 of the connector are connected to the input and output side guide terminals of the jack ( 6 and 7) and both ends of the conductor rod 140 are inserted into the input and output jack pins 4 and 5, respectively. At this time, since the input and output plugs 120 and 130 are not in contact with the switch spring 8 of the connection jack, the switch spring 8 maintains a constant position and performs signal connection of the input and output terminals.

Accordingly, the high frequency signal input through the input terminal 2 of the connection jack is transmitted along the conductor rod 140 of the connector via the input side jack pin 4, and then through the output terminal conductor rod 130 of the connection jack. It is sent out through (3).

In addition, since the transmission of signals is maintained through the existing switch spring 8, the connection redundancy is realized.

On the other hand, in order to measure the waveform of the high frequency signal input through the input terminal 2, the probe of the oscilloscope 200 in the through hole of the waveform measuring jack pin 150 provided on the input plug 120 side of the connector By connecting the other terminal of the oscilloscope to the ground terminal 160, it is possible to accurately and easily measure the waveform of the input high frequency signal.

In addition, the connector is used semi-permanently fitted to a pair of input and output terminals.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

Since the connector according to the present invention as described above is used in a semi-permanently inserted state into the connection jack of the digital signal distribution ratio, the input / output terminals of the connection jack holding the connection are secondarily connected by the switch spring. Since the connection of the connection jack can be kept stable and the waveform of the input signal can be measured easily and accurately, there is an effect of preventing the occurrence of a large disturbance of the communication system.

Claims (4)

A body in which the digital signal distribution is in contact with one surface of the connection jack; A pair of plug bodies protruding to one side of the body by a predetermined length and fitted to the input and output side jack terminals of the jack, respectively; A conductor rod embedded in the pair of plug bodies and connected to an input / output jack pin of the jack to function as an input / output signal line; And It is connected to the conductor rod through the body and the plug, the waveform measurement terminal formed therein a longitudinal through hole for guiding an external measuring device to the conductor rod. Connector for protecting the connection jack digital signal distribution comprising a. The method of claim 1, The waveform measuring terminal is a connector for protecting a digital signal distribution jack, characterized in that an insulator (insulator) is inserted into the jack pin (insack) made of a conductive member therein. The method according to claim 1 or 2, The pair of plugs is a connector for protecting the digital signal distribution jack, characterized in that the length is not in contact with the switch spring connecting the input and output jack pin (jack jack) of the jack. The method of claim 3, wherein And a connector rod protruding from the body by the same length as the plug.