KR890002098Y1 - Overvoltage arresters for communication lines - Google Patents

Abstract

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Description

Communication security device

1 and 2 is an exemplary view showing a state of use of the present invention,

Figure 1 is a perspective view of one embodiment showing a combined state of the present invention.

Figure 2 (a) (b) is a partial state inserted the security jack of the present invention.

Figure 3 (a) (b) is a perspective view of the security jack housing of the present invention.

Figure 4 (a) (b) is an exploded perspective view of the security jack of the present invention.

5 (a) (b) is a circuit diagram showing a security jack operating state of the present invention.

6 (a) (b) is a circuit diagram showing an operating state of the overcurrent protection device of the present invention.

Figure 7 (a) (b) is a cross-sectional view showing the operating state of the overvoltage protection device of the present invention.

8 is a perspective view of the security jack outlet port of the present invention.

Figure 9 (a) (b) is a state diagram to control the current of the security jack using the outlet of Figure 12.

FIG. 10 is a perspective view of a state in which the housing of the security jack is drawn out using the outlet of FIG.

11 is a test flux perspective view for checking the circuit of the present invention.

12 is a state diagram of checking the line of the security jack using the test plug of FIG.

The present invention protects communication equipment by installing overcurrent and overvoltage (in case of lightning or contact with high voltage line) generated on the outer shaft by installing it between outer line and inner line in various communication lines. The present invention relates to a security device for a communication device.

In the security jack of the communication security device widely used in general, a protruding rod is inserted in a cylindrical tube in which a heat coil is installed on the upper part of the insertion terminal, and the upper surface is fixed with lead molten at low temperature. At the same time, the upper part of the tanger spring is connected to the earth terminal.In the case of overcurrent, the overcurrent applied to the insertion terminal heats the heat coil outside the cylindrical tube to protrude to a certain temperature. The lead on the outer surface of the rod melts so that the protruding rod of the cylindrical tube flows into the cylindrical tube by elasticity of the natural spring.

Therefore, since the lower end of the grounding tube is connected to the insertion terminal and the applied overcurrent is connected to the ground and the grounding terminal through the grounding tube, the communication device can be protected from the overcurrent. The overvoltage applied through the discharge tube is discharged from the discharge tube and grounded through the earth tub, spring, and earth terminals, which can protect the communication device from the overvoltage in this case, and reoperation is possible, but the discharge tube itself only corresponds to both terminals in the ceramic body. As self-discharge generates high heat (for example, about 1600 ℃ or less), it was not possible to eliminate the risk of fire, and the high temperature melted the lead sticking in the cylindrical tube, which causes the earth to break. The operation is made to be lowered. Once the overvoltage and overcurrent are applied, it is necessary to secure the security jack or Ipdanja had to replace the parts.

However, whether or not such an operation is not displayed externally, so it is very inefficient because the user must check the fixation according to the user's failure report of the corresponding communication device, and the administrator who manages it must always reside. There was also.

Therefore, in view of the above, it has been proposed that the overcurrent protection device of the security jack is self-recovered like a discharge tube as a current interruption by a resistance. Therefore, if it is used for a long time, the set resistance rise rate tends to increase to about 15% after 1 year and 24% after 10 years, so that the sensitivity of communication equipment is lowered and the security jack itself due to the discharge heat of discharge tube (about 1600 ℃ or less). Because of the high risk of ignition, the lack of stability could not be excluded.

The present invention solves the above-mentioned general drawbacks, and the contact point between the overcurrent protection device and the overvoltage protection device is earthed by bimetal, so once the factors of overcurrent or overvoltage are eliminated after operation, the overcurrent protection device or overvoltage The bimetal of the protection device is quickly restored to its original shape so that normal operation can be performed again. This will be described in detail with reference to the accompanying drawings.

In the accompanying drawings, 1 is inserted into the upper surface between the connecting terminals 102 and 103 and the earth terminal 104 protruding from the upper surface of the jack board 101 to protect the communication equipment on the extension side from the overcurrent and overvoltage generated on the outer side. This is a security jack of the present invention in which the overcurrent protection element (2) and the overvoltage protection element (3) is inserted so that the security jack (1) is composed of a housing (4) and a case (5), the housing (4) The upper and lower separator plates 6 and 6a are provided at the upper and lower sides so that they are divided into two sides, and the appropriate number of separating walls 7 are provided at both sides of the separator 6a at the lower side to provide a connection hole (8). (9) and (10) are configured, respectively, and overcurrent protection elements 2 are inserted in both sides of the upper separator 6, respectively.

In addition, the insertion hole 11 of the overvoltage protection device 3 is drilled in the middle of the housing 4 of the security jack 1.

12, 13, and 14 are between input and output earth terminals inserted in the housing 4 of the security jack 1, and between the input terminals 12 is inserted into one connection hole 8 so as to contact one side of the overvoltage protection element 3. 15, the upper contact 16 of the overcurrent protection element 2 is connected, and the output terminal 13 is inserted into another connection hole 9, and is connected to the lower contact 16a of the overcurrent protection element 2, The earth terminal 14 is inserted into the intermediate connecting hole 10 and is connected to the other contact 15a of the overvoltage protection device 3 and the bottom earth contact 17 of the overcurrent protection device 2.

18 is a through hole formed in the upper portion of the housing 4 of the security jack 1, the insertion hole 20 of the outlet opening 19 is inserted into the through hole 18, and the over current protection element ( 2) the connection between the upper contact 16 and the input terminal 12 is interrupted, and a coupling groove 20a is formed at one end of the outlet 19 so that the housing 4 of the security jack 1 can be drawn out. will be.

In addition, when the internal structure of the main body of the overcurrent protection device 2 is specifically shown in FIG. 6, the heat coil 22 is laid on the outer circumference of both bimetals 21 and 21a having the contact S on the upper side. The coil 22 is connected to the main body upper contact 16 of the overcurrent protection element 2 and one bimetal 21 connected to the inner line side, and the lower earth contact 17 of the other bimetal 21a is the earth terminal. It is connected to the liver 14.

In addition, as shown in FIG. 7, the internal structure of the main body of the overvoltage protection device 3 is formed on both sides of the overvoltage protection device 3 connected to the input terminal 12. The terminal rod 24 in the center is connected to the other contact point 15a of the overvoltage protection element 3 connected to the earth terminal 14, and bimetal is provided on both sides of the terminal rod 24. (25) (25a) is attached.

Reference numeral 26 denotes a circuit test plug, which includes an insertion terminal portion 27 composed of an output terminal 27a, an insulator 27b, and an input terminal 27c.

According to the present invention configured as described above, a line and an extension of a communication line are connected to an input terminal and an output terminal of the jack panel 101, and a security jack is disposed on the upper end between the connection terminal 102 and the earth terminal 104. The connection holes 8, 9, and 10 of (1) are inserted, and the security jack 1 of the present invention has two connection holes 8 between the input terminals 12 between the input terminals 12 and the output terminal. Two connection holes 10 fitted with the lower end of 13 are drilled, and the connection state of the input terminals 12 is that the one-side contact 15 of the overvoltage protection device 3 and the overcurrent protection device 2 are connected. The output terminal 13 is connected to the lower contact 16a of the overcurrent protection device 2, and the earth terminal 14 is connected to the other contact point of the overvoltage protection device 3. 15a) and the earth contact 17 of the overcurrent protection element 2 are connected.

In this state, when an overcurrent occurs in the external line, the overcurrent is applied to the input terminal and the connection terminal of the jack board 101 to the input terminals 12 of the security jack 1 and to the upper contact 16 of the overcurrent protection device 2. It is pulled in.

Therefore, the overcurrent flows into the heat coil 22 in FIG. 6 through the upper contact 16 of the overcurrent protection element 2, and the bimetals 21 and 21a rapidly generate heat as the heat coil 22 is heated. Since the contact (S) is expanded and the contact (S) is in contact, the introduced overcurrent is not applied to the internal side through the output terminals (13) without applying the lower contact (16a) of the bimetal (21) and the overcurrent protection element (2). Since the earth terminal 104 of the jack board 101 is earthed through the tabby metal 21, the bottom earth contact 17, and the earth terminal 14, the communication device on the extension side is protected.

In addition, when an overvoltage is applied from the outside line, the same is introduced into the input terminal 12 of the security jack 1 through the input terminal and the connection terminal of the jack panel 101 in the same way as the introduction of the overcurrent, but the overvoltage is input between the input terminals 12 Is applied to both ends of the overvoltage protection element 3 in contact with the c) so that the overvoltage protection element 3 initiates a discharge and is earthed as usual. In this case, the discharge lasts for at least 1 second as a 60 mA 5A current. When the discharge is continued and the heat of discharge is generated by a predetermined value or more, the bimetals 25 and 25a installed on both sides of the earth rod 24 are rapidly expanded due to the heat of discharge, so that the natural nickel rods 23 and 23a are expanded. Since the overvoltage is directly earthed through the bimetals 25 and 25a, the resistance between the nickel rods 23 and 23a as the electrodes and the terminal rod 24 becomes almost " 0 ", and the adverse effect of the overvoltage is on the communication device side. It will not go crazy.

Once the bimetals 21, 21a, 25, and 25a of the overcurrent protection element 2 and the overvoltage protection element 3 are operated by the overcurrent and the overvoltage, the factor of overcurrent and overvoltage is quickly resolved. 21) (21a) (25) (25a) has been restored to normal operation so that they can resume normal operation.

In addition, as shown in FIGS. 8 to 16, the current interruption insertion port 20 having one side with a current interruption intervening 20 is provided, and the other end has a locking groove 20a for drawing out the security jack 1 for the current interruption opening 19. When the insertion part is inserted into the housing 4 of the security jack 1 through the through hole 18 perforated in the upper part, the insertion part 20 between the upper contact 16 and the input terminal of the overcurrent protection element 2 is inserted. Since the circuit of (12) is cut off and the outlet 19 is pulled out so that it can be quickly connected, it is possible to arbitrarily control the interruption of the current circuit when necessary (for example, when the call is stopped and released), and the other side of the outlet 19 is coupled. The groove 20a was inserted into the upper portion of the housing 4 of the security jack 1 to easily pull out the housing 4.

In addition, as shown in FIG. 11 and FIG. 12, the insertion terminal 27 of the rotation test plug 26 was inserted into the through hole 18 in the upper portion of the housing 4 of the security jack 1 to test the circuit.

That is, the current of the input terminal, the connection terminal, and the incoming line of the jack board 101 is between the input terminals 12 of the security jack 1, the input terminal 37c of the test plug 26, and the line tester (not shown). ), So that the internal and external separation test can be easily carried out by flowing into the upper contact 16 of the overcurrent protection device 2 through the output terminal 27a of the test plug 26.

Here 27b is an insulator which electrically disconnected the input / output terminals 27a and 27c of the test plug 26.

As described above, in the present invention, when the security jack 1 is used in combination with the jack panel 101, the input and output terminals 12 and 13 and the earth terminal are connected to the housing 4 of the security jack 1. The overcurrent protection device 2 and the overvoltage protection device 3 having the interior 14, bimetals 21, 21a, 35, and 35a contacts are assembled to prevent overheating. 2) and the overvoltage protection element 3 are self-repairing, there is no need to check every day as in the prior art, and the operation is also accurate, so the operation is very convenient because no check-in is necessary, and the overcurrent protection element 2 And since the self-recovery can be performed 500 times or more after the operation of the overvoltage protection device 3, the lifespan is semi-permanent and at the same time, the production cost is low, and there is an economical advantage.

Claims (4)

A communication security device in which a jack jack having a unit basis in which an input / output terminal, a connection terminal, and an earth terminal is installed in a housing is combined with a security jack including an overcurrent protection device and an overvoltage protection device, the housing being separated on both sides. The terminal 102, 103 and the earth terminal 104 of the jack panel 101 are inserted into (4), and the self-repair is performed by the contact of the bimetals 21, 21a, 35 and 35a. The current is interrupted by inserting into the security jack 14 provided with the overcurrent protection element 2 and the overvoltage protection element 3 and the upper through hole 18 of the housing 4 of the security jack 1, A communication security device provided with a drawout port (19) having a drawout groove (20a) for drawing out the housing (4) of the security jack (1) on one side. 2. The contact terminal (12) of claim 1, wherein the input terminal (12) inserted into one connection hole (8) of the security jack housing (4) is connected to the one side contact (15) of the discharge tube made of a magnetic element and the upper contact (16) of the overcurrent protection element (2). Is connected to the other terminal 9, and the output terminal 12 is connected to the lower contact 16a of the overcurrent protection element 2, and the earth terminal 14 inserted into the intermediate connecting hole 10 is the overcurrent. A communication security device provided with a security jack (1) by being connected to the other contact point (15a) of the protection element (3) and the bottom earth contact point (17) of the overcurrent protection element (2). The heat coil 22 is formed on the outer circumference of both bimetals 21 and 21a having a contact S at the upper end, and the heat coil 22 is formed on the inner side of the upper contact 16 of the main body. On the line side, one bimetal 21 is connected, and the lower earth contact 17 of the other bimetal 21a is connected to the earth terminals 14 of the security jack 1 to self-recover the overcurrent protection device 2. Communication security device provided. 2. The method according to claim 1, wherein both nickel rods 23 and 23a and terminal rods 24 are installed in the discharge tube made of a magnetic material, and both nickel rods 23 and 23a are connected to the main body one contact point 15. The terminal rod 24 is provided with bimetals 25 and 25a on both sides thereof, and the lower part thereof is connected to the other contact point 15a of the main body and between the earth terminals 14 so that the overvoltage protection element 3 is provided. Communication security device.