JP2012084321A - Protector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce load on an operator by making insertion/removal of an SPD plug to a jack board easy.SOLUTION: A protector 1 comprises an SPD plug 40 and a jack board 10. The SPD plug 40 and the jack board 10 are electrically connected by engaging plug terminals 49-1 and 49-2 on the SPD plug 40 side with jack contacts 34-1 and 34-2 on the jack board 10. When the SPD plug 40 is inserted to the jack board 10, engaging recesses 47-1 and 47-2 on the SPD plug 40 side are engaged with engaging protrusions 29-1 and 29-2 on the jack board 10 side, therefore the SPD plug 40 is fixed, keeping a stable installation state with a stopper function due to such engagement.

Description

  The present invention is, for example, a surge protection device (Surge Protective Device, hereinafter referred to as “Surge Protective Device”) for protecting power supply equipment and the like from abnormal voltage and current such as lightning and surge induced in an AC 380V power supply circuit used in railways and the like. SPD "), and more particularly, to a connector structure of a connection portion between an SPD plug and a jack board.

  2. Description of the Related Art Conventionally, a power protector includes, for example, a jack board having terminals connected to a power line and a ground line, and an SPD plug in which a protection element is housed, as described in Patent Document 1 below. The SPD plug can be inserted into and removed from the jack board. The protective element housed in the SPD plug is composed of a varistor for flowing an abnormal voltage or current such as lightning or surge entering from the power line to the ground line side.

  For example, a plug terminal made of a metal piece protrudes from the SPD plug. The jack board is provided with a jack contact made of a pair of metal pieces at a position facing the plug terminal. When the plug terminal on the SPD plug side is inserted into the jack contact on the jack board side, the plug terminal is sandwiched by a pair of metal pieces constituting the jack contact, and the plug terminal and the jack contact are electrically connected. The

  This type of power protector operates when an abnormal voltage or abnormal current enters from the power line and protects the power supply device. When the protective element in the SPD plug is deteriorated, maintenance or the like is performed by removing the deteriorated SPD plug from the jack board and inserting a new SPD plug into the jack board.

JP 2008-283065 A

However, the conventional protector has the following problems.
It is necessary to flow a large impulse current at the contact point between the plug terminal and the jack contact. If the contact state of the contact point is insufficient, the contact point may be sparked and welded when the impulse current is energized. . In order to prevent such a situation, the conventional protector has a structure in which a plug terminal made of a metal piece is strongly held from both sides by a jack contact made of a pair of metal pieces.

  Therefore, when replacing the SPD plug, hold the SPD plug by hand and pull it out from the jack board. At that time, since a plurality of protectors are usually arranged side by side, the places where the SPD plug is held by hand are limited. Moreover, since the size of the protector is made as small as possible in order to reduce the size, the place where the finger is hung is narrow and the SPD plug cannot be grasped greatly. For this reason, it has been difficult to remove the SPD plug from the jack board during maintenance or the like, which has been quite difficult.

  The protector of the present invention includes a jack board connected to the line, and a plug that is inserted and removed from the jack board so as to be inserted and removed, and suppresses an abnormal voltage and an abnormal current that propagates to the line. Yes.

  The jack board includes a jack case having a plug housing portion for housing the plug so as to be inserted and removed, a jack contact provided on a bottom surface of the plug housing portion and connected to the track, and the plug housing portion. And a first engaging portion provided on the side surface of the.

  The plug is provided on a side surface of the plug case so as to be inserted and removed from the plug housing portion, and engages with the first engagement portion so as to be attached and detached. A second engagement portion; a plug terminal provided on a bottom surface of the plug case; and inserted into and removed from the jack contact; and connected to the plug terminal in the plug case; And a protective element that suppresses the abnormal voltage and abnormal current entering from the plug terminal.

  The jack contact includes a cylindrical portion having a spring property with one end opened and the other end closed, a first attachment portion extending from the other end of the cylindrical portion, and the one end of the cylindrical portion from the one end. And a plurality of split grooves extending to the other end side.

  Further, the plug terminal has a columnar portion that is inserted into and removed from the cylindrical portion, and a second attachment portion that extends from the columnar portion.

The protector of the present invention has the following effects (1) and (2).
(1) The plug and the jack board are configured to be electrically connected by inserting a plug terminal on the plug side into a jack contact on the jack board side. Since the cylindrical portion on the plug terminal side and the cylindrical portion on the jack contact side are electrically connected by fitting, a surface current path for an impulse current having high frequency characteristics is large. Therefore, the impulse current can flow smoothly even if the contact portion between the cylindrical portion and the cylindrical portion is lightly touched, and the plug can be inserted into and removed from the jack board without fusing due to poor contact as in the prior art. It becomes easy.

  Particularly, since the contact portion between the plug terminal and the jack contact is lightly touched, the plug can be easily pulled out by hand, and the burden on the operator can be reduced.

  In addition, in the state where the plug is inserted into the jack board, the second engagement portion on the plug side and the first engagement portion on the jack board side are engaged and the plug is fixed. A stable mounting state of the plug can be maintained by the function of the stopper function by the engagement.

  (2) Since the plug and the jack panel are electrically connected by fitting the plug terminal and the jack contact, the size of the protector can be reduced by reducing the plug terminal and the jack contact. It becomes easy.

FIG. 1 is a perspective view showing the overall appearance of the protector in Embodiment 1 of the present invention. FIG. 2 is a perspective view showing a separated state of the jack board 10 and the SPD plug 40 in the protector 1 of FIG. FIG. 3 is a perspective view of the SPD plug 40 in FIG. 2 as viewed from the bottom. 4A is a front view of the protector 1 of FIG. 4B is a plan view of the protector 1 of FIG. FIG. 4C is a left side view of the protector 1 of FIG. 4D is a right side view of the protector 1 of FIG. 4E is a bottom view of the protector 1 of FIG. FIG. 5A is a front view of the jack board 10 in FIG. FIG. 5B is a plan view of the jack board 10 in FIG. FIG. 5C is a left side view of the jack board 10 in FIG. FIG. 5D is a right side view of the jack board 10 in FIG. FIG. 5E is a bottom view of the jack board 10 in FIG. 6A is a front view of the SPD plug 40 in FIG. 6B is a plan view of the SPD plug 40 in FIG. 6C is a left side view of the SPD plug 40 in FIG. 6D is a right side view of the SPD plug 40 in FIG. FIG. 6E is a bottom view of the SPD plug 40 in FIG. FIG. 7A is a perspective view showing a state where the plug terminal 49-1 and the jack contact 34-1 are separated. FIG. 7B is a cross-sectional view showing a joined state between the plug terminal 49-1 and the jack contact 34-1 in FIG. 7A. FIG. 8 is a circuit diagram of the protector 1 of FIG. FIG. 9 is a schematic circuit diagram showing an example of use of the protector 1 of FIG. FIG. 10A is a perspective view showing a plug terminal 149 on the SPD plug side and a jack contact 134 on the jack board side in Embodiment 2 of the present invention. 10B is a cross-sectional view showing a joined state between the plug terminal 149 and the jack contact 134 of FIG. 10A. FIG. 11A is a perspective view showing a plug terminal 149 on the SPD plug side and a jack contact 134A on the jack board side in Embodiment 3 of the present invention. FIG. 11B is a cross-sectional view showing a joined state between the plug terminal 149 and the jack contact 134A of FIG. 11A.

  Modes for carrying out the present invention will become apparent from the following description of the preferred embodiments when read in light of the accompanying drawings. However, the drawings are only for explanation and do not limit the scope of the present invention.

(Configuration of Example 1)
FIG. 1 is a perspective view showing the overall appearance of the protector in Embodiment 1 of the present invention. Further, FIG. 2 is a perspective view showing a separated state of the jack board 10 and the SPD plug 40 in the protector 1 of FIG.

  The protector 1 is a power protector for protecting a power supply device by suppressing abnormal voltage and current such as lightning and surge entering a line (for example, a power line). (For example, an SPD plug) 40, and as shown by an arrow in FIG. 2, the SPD plug 40 is inserted into and removed from the jack board 10.

  FIG. 3 is a perspective view of the SPD plug 40 in FIG. 2 as viewed from the bottom. 4A to 4E are five views of the protector 1 shown in FIG. 4A is a front view of the protector 1, FIG. 4B is a plan view of the protector 1, FIG. 4C is a left side view of the protector 1, and FIG. The right side view and FIG. 4E are bottom views of the protector 1. 5A to 5E are five views of the jack board 10 shown in FIG. 5A is a front view of the jack board 10, FIG. 5B is a plan view of the jack board 10, FIG. 5C is a left side view of the jack board 10, and FIG. A right side view and FIG. 5E are bottom views of the jack board 10. 6A to 6E are five views of the SPD plug 40 in FIG. 6A to 6E, FIG. 6A is a front view of the SPD plug 40, FIG. 6B is a plan view of the SPD plug 40, FIG. 6C is a left side view of the SPD plug 40, and FIG. A right side view and FIG. 6E are bottom views of the SPD plug 40.

  As shown in FIGS. 2, 4A to 4E, and 5A to 5E, the jack board 10 includes a jack case 20 having a plug housing portion 20a for housing the SPD plug 40 so that the SPD plug 40 can be inserted and removed. ing. The jack case 20 includes a substantially box-shaped base portion 21 and a pair of side wall portions 22-1 and 22-2 extending upward from both side surfaces of the base portion 21. A plug housing portion 20a is formed by a region surrounded by the base portion 21 and the side wall portions 22-1 and 22-2. As shown in FIGS. 5A and 5E, a fixed claw 23 and a moving claw 24 that is a rail stopper are provided on the bottom surface of the base portion 21 so as to face each other with a certain distance therebetween. The moving claw 24 is biased toward the fixed claw 23 by a spring (not shown). For example, a DIN rail (not shown) is sandwiched between the fixing claw 23 and the moving claw 24, and the jack board 10 is detachably fixed to the DIN rail. The DIN rail is a device mounting bracket having a width of 35 mm, for example, defined by the DIN standard.

  As illustrated in FIG. 5C, for example, four cable introduction holes 25-11 to 25-14 are provided on the outer surface of the one side wall 22-1. As shown in FIG. 5B, two screw opening holes 26-11 and 26-12 are formed on the upper surface of one side wall portion 22-1. Terminal screws 27-11 and 27-12 are attached to the respective screw opening holes 26-11 and 26-12. A terminal portion of a cable (not shown) inserted into the cable introduction hole 25-11 or 25-12 is fixed by a terminal screw 27-11. Similarly, a terminal portion of a cable (not shown) inserted into the cable introduction hole 25-13 or 25-14 is fixed by a terminal screw 27-12.

  As illustrated in FIG. 5D, for example, four cable introduction holes 25-21 to 25-24 are provided on the outer surface of the other side wall part 22-2. As shown in FIG. 5B, two screw opening holes 26-21 and 26-22 are formed on the upper surface of the other side wall portion 22-2. Terminal screws 27-21 and 27-22 are respectively attached in the screw opening holes 26-21 and 26-22. A terminal portion of a cable (not shown) inserted into the cable introduction hole 25-21 or 25-22 is fixed by a terminal screw 27-22. Similarly, a terminal portion of a cable (not shown) inserted into the cable introduction hole 25-23 or 25-24 is fixed by a terminal screw 27-21.

  As shown in FIG. 5A, FIG. 5B, FIG. 5D, and FIG. 5E, on the outer side surface of the other side wall portion 22-2, a replacement identification terminal 28 protrudes at a position below the cable introduction hole 25-24. Has been.

  As shown in FIGS. 2 and 5B, on one side surface of the plug housing portion 20a (that is, the inner side surface of one side wall portion 22-1, the first engaging portion (for example, , Engaging convex part) 29-1 is projected. Guide rails 30-11 and 30-12 having a convex section extending in the vertical direction are provided on both sides of the engaging convex portion 29-1. Similarly, on the other side surface of the plug accommodating portion 20a (that is, the inner side surface of the other side wall portion 22-2), a first engaging portion (for example, engaging convex portion) 29 is provided at the center upper position. -2 is projected. On one side of the engaging convex portion 29-2, a guide rail 30-21 having a convex cross section extending in the vertical direction is projected.

  Two circular jack contact insertion holes 31-1 and 31-2 are formed on the bottom surface of the plug housing portion 20a (that is, the top surface of the base portion 21) so as to face each other with a certain distance therebetween. In the center of the upper surface of the base portion 21, a rectangular separation connecting member insertion hole 32 is formed. Further, a rectangular erroneous insertion preventing insertion hole 33 is formed in the vicinity of the jack contact insertion hole 31-1 and the separating member insertion hole 32.

  As shown in FIGS. 2, 3, and 6 </ b> A to 6 </ b> E, the SPD plug 40 has a substantially cubic plug case 41. The upper surface and four side surfaces of the plug case 41 are closed, and an opening 41a is provided on the bottom surface. A plurality of fitting holes 42 are formed in the lower part of the side surface of the plug case 41. The opening 41 a is closed by a substantially square substrate 43. A plurality of protrusions (not shown) are formed on the side surface of the substrate 43, and the protrusions are fitted into the fitting holes 42, whereby the substrate 43 is detachably fixed to the opening 41a.

  A display window 44 for displaying the deterioration state of the internal circuit is formed on the upper surface of the plug case 41.

  As shown in FIG. 6C, the left side surface of the plug case 41 corresponds to the inner side surface of one side wall portion 22-1 in the jack case 20. A substantially U-shaped cutout groove 45-1 is formed in the upper half of the left side surface of the plug case 41, and the cutout groove 45-1 provides elasticity that can move in a direction substantially perpendicular to the side surface. A movable part 46-1 having the above is formed. A second engaging portion (for example, engaging concave portion) 47-1 is provided at the lower portion of the movable portion 46-1. The engaging concave portion 47-1 receives the engaging convex portion 29-1 on the jack case 20 side when the SPD plug 40 is inserted into the jack board 10, and is fitted to the engaging convex portion 29-1. And detachably engaged.

  In the lower half of the left side surface of the plug case 41, a guide groove 48-1 is formed in the central vertical direction. The guide groove 48-1 receives and guides the engagement convex portion 29-1 on the jack case 20 side when the SPD plug 40 is inserted into and removed from the jack board 10. On both sides of the guide groove 48-1, a pair of guide grooves 48-11 and 48-12 are formed in the vertical direction. The guide grooves 48-11 and 48-12 receive and guide the guide rails 30-11 and 30-12 on the jack case 20 side when the SPD plug 40 is inserted into and removed from the jack board 10.

  As shown in FIG. 6D, the right side surface of the plug case 41 corresponds to the inner side surface of the other side wall portion 22-2 in the jack case 20. A substantially U-shaped cutout groove 45-2 is formed in the upper half portion of the right side surface of the plug case 41, and the cutout groove 45-2 allows the elasticity to move in a direction substantially perpendicular to the side surface. A movable portion 46-2 having the above is formed. A second engagement portion (for example, engagement recess) 47-2 is provided at the lower portion of the movable portion 46-2. The engaging concave portion 47-2 receives the engaging convex portion 29-2 on the jack case 20 side when the SPD plug 40 is inserted into the jack board 10, and is fitted to the engaging convex portion 29-2. And detachably engaged.

  In the lower half of the right side surface of the plug case 41, a guide groove 48-2 is formed in the central vertical direction. The guide groove 48-2 receives and guides the engaging protrusion 29-2 on the jack case 20 side when the SPD plug 40 is inserted into and removed from the jack board 10. A guide groove 48-21 is formed in the vertical direction on one side of the guide groove 48-2. The guide groove 48-21 receives and guides the guide rail 30-21 on the jack case 20 side when the SPD plug 40 is inserted into and removed from the jack board 10.

  As shown in FIGS. 3 and 6E, the substrate 43 on the bottom surface of the plug case 41 corresponds to the top surface of the base portion 21 in the jack case 20. Two plug terminals 49-1 and 49-2 are provided on the substrate 43 so as to face each other with a predetermined distance therebetween. The plug terminals 49-1 and 49-2 are inserted into the jack contact insertion holes 31-1 and 31-2 on the jack case 20 side. A square through hole 50 is formed in the center of the substrate 43. In the through hole 50, a lower end portion 51b of the separating connecting member is inserted so as to protrude and retract. The lower end portion 51 b of the disconnecting connecting member is inserted into the disconnecting connecting member insertion hole 32 on the jack case 20 side when the SPD plug 40 is inserted into and removed from the jack board 10.

  In the vicinity of the plug terminal 49-1 and the through hole 50, an erroneous insertion preventing piece 52 is projected. The erroneous insertion preventing piece 52 is colored in a different shape or different color for each model of the SPD plug 40 that is compatible with the jack board 10, and when the SPD plug 40 of the appropriate model is inserted into the jack board 10, It is inserted into the insertion hole 33 for erroneous insertion prevention on the panel 10 side. If the erroneous insertion prevention piece 52 is inserted into the insertion hole 33 and the erroneous insertion prevention piece 52 and the insertion hole 33 are fitted, the type of the jack board 10 and the type of the SPD plug 40 are matched. Thereby, it has the structure which can prevent incorrect mounting | wearing with the jackboard 10 and SPD plug 40 from which types differ.

  A measuring terminal 53 is attached in the vicinity of the through hole 50. The measurement terminal 53 is a terminal used for measuring the quality of the internal circuit.

  7A is a perspective view showing a separated state between the plug terminal 49-1 in FIGS. 3, 6A and 6C to 6E and the jack contact provided in the insertion hole 31-1 in FIG. FIG. 7B is a cross-sectional view showing a joined state between the plug terminal 49-1 and the jack contact in FIG. 7A.

  Since the two plug terminals 49-1 and 49-2 in FIG. 3, FIG. 6A and FIGS. 6C to 6E have the same structure, the structure of one plug terminal 49-1 and the corresponding jack contact is the same. explain.

  The jack contact 34-1 includes a cylindrical portion 34a having spring properties, a plurality of split grooves 34c formed in the cylindrical portion 34a, and a first attachment portion (for example, a first screw portion) 34d. It is formed of a metal member.

  The cylindrical portion 34a is a member having one end opened and the other end closed, and is mounted in the insertion hole 31-1 so that the opening is exposed from the insertion hole 31-1 on the jack case 20 side. Has been. The outer diameter of the opening part in the cylindrical part 34a is smaller than the outer diameter of the blocking part. A taper 34b is formed inside the tip of the opening in the cylindrical portion 34a. The plurality of split grooves 34c are elongated grooves extending from an opening portion at one end of the cylindrical portion 34a to a closing portion at the other end. The plurality of split grooves 34c provide elasticity in the caliber direction of the cylindrical portion 34a to exhibit springiness. The screw portion 34d is a member extending from a closed portion at the other end of the cylindrical portion 34a, and is screwed and fixed to a metal fitting (not shown) in the jack case 20.

  The plug terminal 49-1 includes a cylindrical portion 49a and a second attachment portion (for example, a flange 49b and a second screw portion 49c) extending from the cylindrical portion 49a, and is formed of a metal member. Yes.

  The columnar portion 49a has a substantially same outer diameter as the inner diameter of the cylindrical portion 34a, and is a member that can be inserted into and removed from the cylindrical portion 34a as shown by an arrow in FIG. 7A. The flange 49b is a member extended to the cylindrical portion 49a. The screw portion 49 c is a member extending from the flange 49 b and is inserted into a through hole formed in the substrate 43 and fixed by being screwed into a metal fitting (not shown) provided inside the substrate 43.

FIG. 8 is a circuit diagram of the protector 1 shown in FIG.
A changeover switch 35 such as a microswitch is provided in the base portion 21 of the jack case 20. The changeover switch 35 is disposed directly below the disconnecting and connecting member insertion hole 32, and includes a normally closed terminal 35a, a normally open terminal 35b, a common terminal 35c, and a movable spring piece 35d. The movable spring piece 35d has one end connected to the common terminal 35c and the other end provided with a contact. When the movable spring piece 35d is pushed down by the lower end portion 51b of the connecting member 51, the contact on the other end side always comes into contact with the contact on the open circuit terminal 35b side, and when the connecting member 51 rises, as shown by the arrow in FIG. In addition, the contact on the other end side is raised by the spring force so as to contact the contact on the normally closed terminal 35a side. The changeover switch 35 is connected to the exchange identification terminal 28.

  The exchange identification terminal 28 has three terminals 28-1 to 28-3. The terminal 28-1 is always connected to the open circuit terminal 35b, the terminal 28-2 is connected to the common terminal 35c, and the terminal 28- 3 is connected to the normally closed terminal 35a. Therefore, it is possible to transmit the electrical signal in the connection state in the changeover switch 35 from the terminals 28-1 to 28-3 to the outside.

  In the plug case 41, line (L / N) side terminal screws 27-11 and 27-12, jack contacts 34-1 and plug terminals 49- are connected from a cable connected to a line (for example, a power line). 1 is provided with a protective element for suppressing or absorbing abnormal voltage and current such as lightning and surge entering through 1. For example, the protective element includes a lightning arrester (ie, arrester (Ar)) 60 and a varistor part 61. These arrester 60 and varistor part 61 are connected to the line (L / N) side plug terminal 49-1. It is connected in series with the ground (PE) side plug terminal 49-2. The line (L / N) side plug terminal 49-1 is connected to the power supply line side via a jack contact 34-1 and line (L / N) side terminal screws 27-11 and 27-12. The ground (PE) side plug terminal 49-2 is connected to the ground GND side via a jack contact 34-2 and ground (PE) side terminal screws 27-21 and 27-22.

  The arrester 60 is discharged by abnormal voltage or abnormal current such as lightning or surge entering from the jack contact 34-1 and the plug terminal 49-1. The varistor part 61 has, for example, two varistors (Va) 61-1 and 61-2, and these varistors 61-1 and 61-2 are connected in parallel. When an abnormal voltage or abnormal current is input to the varistors 61-1 and 61-2, the resistance value between the input and output becomes small and the input and output become short-circuited. After the abnormal voltage and abnormal current disappear, This is an element in which the resistance value between the input and output increases and the input and output are insulated.

  The reason why the arrester 60 and the varistors 61-1 and 61-2 are used in combination as protective elements is as follows.

  That is, when only the arrester 60 is used in the power supply circuit, after the arrester 60 is discharged by an abnormal current (that is, impulse current), a continuation phenomenon occurs in which the discharge continues due to the alternating current even after the impulse current disappears. The life of the battery may be shortened or burnt out. The arrester 60 and the varistors 61-1 and 61-2 are combined in series in order to interrupt such a continuous flow. In addition, when only the varistors 61-1 and 61-2 are used in the power supply circuit, if the characteristics deteriorate as the number of operations increases due to the impulse current, the leakage current increases and eventually burnout may occur. Since it can be considered, the arrester 60 is connected in series with the varistors 61-1 and 61-2 in order to cut off the leakage current. The number of varistors 61-1 and 61-2 is set according to the magnitude of the impulse current.

  Between the arrester 60 and the varistor part 61, a measuring terminal 53 and a separating part 62 are connected. As shown by the arrow in FIG. 8, before the varistor part 61 generates heat and burns out due to deterioration or the like, the separation part 62 is provided to separate the varistor part 61 from the circuit and prevent smoke and ignition. . The separation part 62 includes a female contact 62a connected to the varistor part 61 by a metal fitting and a male contact 62b connected to the arrester 60 by a metal fitting. The female contact 62a has, for example, a cylindrical portion, and a plurality of split grooves are formed along the longitudinal direction at openings of the cylindrical portion. The male contact 62b has, for example, a cylindrical portion, and the cylindrical portion is configured to be inserted into and removed from the cylindrical portion of the female contact 62a. A joining portion between the female contact 62a and the male contact 62b is fixed by a joining material (for example, a solder material) that melts by heating.

  The male contact 62 b is connected to the disconnecting connecting member 51. The connecting member 51 has a substantially elongated plate shape, and has an upper end 51a and a lower end 51b. The connecting member 51 is arranged so as to be vertically movable in the vertical direction, and is urged upward by a coil spring 63 as indicated by an arrow in FIG. When the varistor portion 61 generates heat due to deterioration or the like, this heat is transmitted to the joint portion between the female contact 62a and the male contact 62b through the metal fitting, and the solder material at the joint portion is melted. When the solder material is melted, the connecting member 51 is lifted by the coil spring 63, and the male contact 62b comes out of the female contact 62a. Thereby, between the arrester 60 and the varistor part 61 is electrically interrupted | blocked, and the varistor part 61 is cut off from a circuit.

  When an abnormality such as deterioration occurs in the varistor portion 61, the lower end portion 51b of the connecting member 51 rises, so that the connection state of the changeover switch 35 is switched, and an electrical signal in the connection state is transmitted from the replacement identification terminal 28 to the outside. Is done.

  An indicator 64 is provided directly above the upper end portion 51 a of the connecting member 51. The indicator 64 has a structure in which, for example, when the upper end portion 51a of the connecting member 51 rises, the coloring member or the like moves in conjunction with this to change the color of the colored portion, and this color change is exposed from the display window 44. It has become.

FIG. 9 is a schematic circuit diagram showing an example of use of the protector 1 of FIG.
For example, a protected device 71 such as a power supply device is connected to a power supply line 70-1 to 70-3 for a three-phase three-wire AC 400V without a ground phase. In order to protect the protected device 71 from abnormal voltage and current such as lightning and surge, three protectors 1 shown in FIG. 8 are used. The three protectors 1-1 to 1-3 are attached to a DIN rail (not shown). In the protector 1-1, the terminal screws 27-11 on the line (L / N) side are connected to the power supply line 70-3 using a cable, and the terminal screws 27-22 on the ground (PE) side are It is connected to the ground GND using a cable. Similarly, other protectors 1-2 and 1-3 are connected between the power supply lines 70-2 and 70-1 and the ground GND, respectively.

(How to install the protector)
A method for attaching the protector 1 of the first embodiment to a DIN rail (not shown) will be described.

  As shown in FIG. 5A, the moving claw 24 on the bottom surface of the jack board 10 is moved rightward by hand against the biasing force of a spring (not shown), and the DIN is interposed between the fixed claw 23 and the moving claw 24. Insert the top of the rail. When the hand is released from the moving claw 24, the moving claw 24 moves to the left by the biasing force of a spring (not shown). Thereby, the upper part of the DIN rail is clamped by the fixed claw 23 and the moving claw 24, and the jack board 10 is fixed on the DIN rail.

  As shown in FIG. 5C, FIG. 5D, and FIG. 9, in the jack board 10, the terminal part of the cable (not shown) connected to the power line 70-3 is connected to the cable introduction hole 25-12 on the line (L / N) side. And tighten the terminal screw 27-11 to connect the cable. Further, a cable terminal (not shown) connected to the ground GND is inserted into the cable introduction hole 25-22 on the ground (PE) side, and the terminal screw 27-22 is tightened to connect the cable.

A method for inserting the SPD plug 40 into the jack board 10 will be described.
As shown in FIGS. 2, 5A, 5B, and 6A to 6E, in the SPD plug 40, the vicinity of the movable parts 46-1 and 46-2 on both sides is grasped by hand, and the guide on the jack board 10 side The rails 30-11, 30-12, and 30-21 are inserted into the guide grooves 48-11, 48-12, and 48-21 on the SPD plug 40 side, and the SPD plug 40 is pushed down. Then, the engaging projections 29-1, 29-2 on the jack board 10 side slide in the guide grooves 48-1, 48-2 on the SPD plug 40 side, and the SPD plug 40 descends. When the bottom surface of the SPD plug 40 is lowered to the top surface of the base portion 21 on the jack board 10 side, the engagement convex portion 29 on the jack board 10 side is placed in the engagement concave portions 47-1 and 47-2 on the SPD plug 40 side. -1,29-2 are inserted.

  At the same time, the plug terminals 49-1, 49-2 projecting from the bottom surface of the SPD plug 40, the lower end portion 51b of the connecting member 51, and the erroneous insertion preventing piece 52 are inserted into the jack contact insertion hole 31-1 on the jack board 10 side. , 31-2, the separation connecting member insertion hole 32, and the erroneous insertion prevention insertion hole 33, respectively.

  When the plug terminals 49-1 and 49-2 are inserted into the jack contact insertion holes 31-1 and 31-2, for example, as shown in FIG. 7A and FIG. The jack contact 34-1 attached in the insertion hole 31-1 is inserted into the cylindrical portion 34a. As a result, the plug terminals 49-1 and 49-2 are electrically connected to the jack contacts 34-1 and 34-2 attached in the insertion holes 31-1 and 31-2.

  Next, a case where the SPD plug 40 inserted into the jack board 10 deteriorates and is replaced with a new SPD plug 40 will be described.

  As shown in FIGS. 2, 5B, and 6A to 6E, in the SPD plug 40 inserted into the jack board 10, the movable parts 46-1 and 46-2 on both sides are pressed inward by hand, and the jack The engagement concave portions 47-1 and 47-2 on the SPD plug 40 side are detached from the engagement convex portions 29-1 and 29-2 on the panel 10 side. When the SPD plug 40 is pulled upward, the guide grooves 48-1, 48-2, 48-11, 48-12, and 48-21 on the SPD plug 40 side are engaged with the engaging protrusions 29- on the jack board 10 side. 1, 29-2, and guide rails 30-11, 30-12, and 30-21, and the bottom ends of the SPD plug 40 side plug terminals 49-1 and 49-2 and the lower end of the connecting member 51. The part 51b and the erroneous insertion preventing piece 52 are pulled out from the insertion holes 31-1, 31-2, 32, 33 on the jack board 10 side, and the SPD plug 40 is detached from the jack board 10.

  Thereafter, a new SPD plug 40 is inserted into the jack board 10.

(Operation of protector)
In FIG. 9, for example, when an abnormal voltage or abnormal current such as lightning or surge is applied to the power supply line 70-3, the protector 1-1 operates to absorb the abnormal voltage or abnormal current. 71 is protected from abnormal voltage and abnormal current. This protection operation will be described with reference to the protector 1 shown in FIGS.

  When an abnormal voltage or current such as lightning or surge is applied to the power supply line 70-3 in FIG. 9, in the protector 1 shown in FIG. 8, the jack contact 34-1 and the plug terminal 49 from the terminal screw 27-11 side. The abnormal voltage or abnormal current enters into -1.

  As shown in FIGS. 7A and 7B, the cylindrical portion 49a of the male-side plug terminal 49-1 and the cylindrical portion 34a of the female-side jack contact 34-1 are positioned concentrically. Since it is electrically connected by fitting, the surface current path in the case of high-frequency current is large. The abnormal current (that is, the impulse current) that has entered reaches the maximum value in a short time and is attenuated, and the time width of the pulse is as short as several tens of μ, and thus has high frequency characteristics. The impulse current having high frequency characteristics flows in the vicinity of the surfaces of the cylindrical portion 34a and the cylindrical portion 49a due to the skin effect. In the case of the first embodiment, since the contact point between the columnar part 49a and the cylindrical part 34a has a large surface current path, the impulse current can flow smoothly even if the contact part is lightly touched. Therefore, fusing due to poor contact as in the conventional case does not occur, and the impulse current can flow smoothly.

  Due to the impulse current flowing through the jack contact 34-1 and the plug terminal 49-1, the arrester 60 is discharged, and the varistors 61-1 and 61-2 in the varistor section 61 are conducted through the separation section 62, and the impulse current Flows to the ground GND side via the plug terminal 49-2, the jack contact 34-2, and the terminal screw 27-22. Thereby, the to-be-protected apparatus 71 connected to the power supply lines 70-1 to 70-3 is protected.

  When the varistor portion 61 generates heat due to deterioration, excessive impulse current, or the like, this heat is transmitted to the joint portion between the female contact 62a and the male contact 62b in the separation portion 62, and the solder material at the joint portion is melted. When the solder material is melted, the upper end 51a and the lower end 51b of the connecting member 51 are raised by the coil spring 63, and the male contact 62b connected to the connecting member 51 comes out of the female contact 62a. Thereby, between the arrester 60 and the varistor part 61 is electrically interrupted | blocked, the varistor part 61 is cut off from a circuit, and smoke generation ignition is prevented.

  When the upper end portion 51 a and the lower end portion 51 b of the connecting member 51 are raised, the connection state of the changeover switch 35 is switched in conjunction with the lower end portion 51 b of the connecting member 51, and an electrical signal in this connected state is sent from the exchange identification terminal 28. Sent to the outside. Further, the indicator 64 operates in conjunction with the rise of the upper end 51a of the connecting member 51, and the coloring member or the like in the indicator 64 moves to change the color of the colored portion (for example, from the normal green color). It turns red when it deteriorates.) Since the color change of the display 64 can be visually observed from the outside through the display window 44, it is possible to know the replacement time of the SPD plug 40.

(Effect of Example 1)
The protector 1 according to the first embodiment has the following effects (1) and (2).

  (1) The SPD plug 40 and the jack board 10 are electrically connected by inserting the plug terminals 49-1 and 49-2 on the SPD plug 40 side into the jack contacts 34-1 and 34-2 on the jack board 10 side. It is configured to connect to. Since the cylindrical portion 49a of the plug terminal 49-1 and the cylindrical portion 34a of the jack contact 34-1 having springiness are located concentrically and are electrically connected by fitting, an impulse having high frequency characteristics. Large surface current path for current. Therefore, even if the contact portion between the cylindrical portion 49a and the cylindrical portion 34a is lightly touched, the impulse current can be smoothly flowed, and the SPD plug 40 with respect to the jack board 10 is not caused by fusing due to poor contact as in the prior art. Can be easily inserted and removed.

  In particular, since the contact points between the plug terminals 49-1, 49-2 and the jack contacts 34-1 and 34-2 are lightly touched, the SPD plug 40 can be easily pulled out by hand, The burden can be reduced.

  Moreover, in a state where the SPD plug 40 is inserted into the jack board 10, the engagement recesses 47-1 and 47-2 on the SPD plug 40 side, and the engagement protrusions 29-1 and 29-2 on the jack board 10 side, However, since the SPD plug 40 is fixed by being engaged, a stable mounting state of the SPD plug 40 can be maintained by the action of the stopper function by the engagement.

  (2) Since the SPD plug 40 and the jack board 10 are electrically connected by fitting the plug terminals 49-1, 49-2 and the jack contacts 34-1 and 34-2, By reducing the plug terminals 49-1 and 49-2 and the jack contacts 34-1 and 34-2, the protector 1 can be easily downsized.

  FIG. 10A is a perspective view showing a plug terminal on the SPD plug side and a jack contact on the jack board side in Embodiment 2 of the present invention. Further, FIG. 10B is a cross-sectional view showing a bonding state between the plug terminal and the jack contact of FIG. 10A.

  The jack contact 134 on the jack board side in the second embodiment corresponds to the jack contact 34-1 of the first embodiment, and has a cylindrical portion 134a having spring properties and a plurality of split grooves formed in the cylindrical portion 134a. It is comprised by 134c and the 1st attaching part (for example, 1st screw part) 134d, and is formed with the metal member.

  The cylindrical portion 134a is a member having one end opened and the other end closed, and the opening is exposed from the insertion holes 31-1 and 31-2 on the jack case 20 side shown in FIG. It is mounted in each of the insertion holes 31-1, 31-2. In the cylindrical portion 134a, the outer diameter of the opening portion and the outer diameter of the closing portion are the same. A taper 134b is formed inside the tip of the opening in the cylindrical portion 134a. The plurality of split grooves 134c are elongated grooves extending from an opening portion at one end of the cylindrical portion 134a to a closing portion at the other end. The plurality of split grooves 134c provide elasticity in the caliber direction of the cylindrical portion 134a to exhibit springiness. The screw part 134d is a member extending from a closed portion at the other end of the cylindrical part 134a, and is screwed and fixed to a metal fitting (not shown) in the jack case 20 shown in FIG.

  The plug terminal 149 on the SPD plug side in the second embodiment includes a cylindrical portion 149a and a second attachment portion (for example, a flange 149b and a second screw portion 149c) extending from the cylindrical portion 149a. It is formed of a metal member.

  The columnar portion 149a has a substantially same outer diameter as the inner diameter of the cylindrical portion 134a, and is a member that can be inserted into and removed from the cylindrical portion 134a as indicated by an arrow in FIG. 10A. The flange 149b is a member extended to the cylindrical portion 149a. The screw portion 149c is a member extending from the flange 149b, and is inserted into a through-hole formed in the substrate 43 shown in FIG. 3 and screwed and fixed to a metal fitting (not shown) provided inside the substrate 43. Yes. An annular recess 149d is formed on the end surface of the flange 149b on the side of the columnar portion 149a. As shown in FIG. 10B, the annular recess 149d is a groove that fits the tip of the opening in the cylindrical portion 134a and prevents the tip from opening in the direction of the arrow.

  In the second embodiment, when the plug terminal 149 is inserted into the jack contact 134 and electrically connected, the cylindrical portion 149a on the plug terminal 149 side is fitted into the cylindrical portion 134a on the jack contact 134 side. At this time, the tip of the cylindrical portion 134a on the jack contact 134 side is fitted into the annular recess 149d on the plug terminal 149 side.

  In a state where the plug terminal 149 is inserted into the jack contact 134, an abnormal current (that is, impulse current) entering from the power supply line 70-3 shown in FIG. 9 flows through the surface current path of the jack contact 134 and the plug terminal 149. . At this time, the tip of the cylindrical portion 134a on the jack contact 134 side is subject to a force to open in the direction of the arrow in FIG. However, since the distal end portion of the cylindrical portion 134a is fitted in the annular recess 149d on the plug terminal 149 side, the opening of the distal end portion of the cylindrical portion 134a in the direction of the arrow is prevented, and contact failure can be prevented. Therefore, a stable contact state between the plug terminal 149 and the jack contact 134 can be maintained.

  FIG. 11A is a perspective view showing a plug terminal on the SPD plug side and a jack contact on the jack board side in Embodiment 3 of the present invention. Further, FIG. 11B is a cross-sectional view showing a joined state between the plug terminal and the jack contact of FIG. 11A.

  In FIGS. 11A and 11B, elements common to those in FIGS. 10A and 10B showing the second embodiment are denoted by common reference numerals.

  The third embodiment includes a jack contact 134A having a shape different from the jack contact 134 on the jack board side in the second embodiment and a plug terminal 149 on the plug terminal side similar to the second embodiment. The jack contact 134A according to the third embodiment has two cylindrical portions 134a-1 and 134b-2 having stepped portions instead of the cylindrical portion 134a according to the second embodiment.

  One cylindrical portion 134a-1 is a member that is fitted into the annular recess 149d on the plug terminal 149 side. The other cylindrical portion 134a-2 is connected to the one cylindrical portion 134a-1, has a larger outer diameter than the cylindrical portion 134a-1, and is a member that contacts the end face of the flange 149b on the plug terminal 149 side. . The two cylindrical portions 134a-1 and 134a-2 have the same inner diameter. A taper 134b is formed on the inner side of the tip of one cylindrical portion 134a-1. A plurality of split grooves 134c are formed from the tip of one cylindrical portion 134a-1 toward the other cylindrical portion 134a-2. By the plurality of split grooves 134c, the elasticity of the cylindrical portions 134a-1 and 134a-2 in the caliber direction is given to exhibit springiness. Other configurations are the same as those of the jack contact 134 of the second embodiment.

  In the third embodiment, as shown by an arrow in FIG. 11A, when the plug terminal 149 is inserted into the jack contact 134A and electrically connected, the cylindrical portion 149a on the plug terminal 149 side is connected to the jack contact 134A side. It fits in cylindrical part 134a-1 and 134a-2. At this time, the cylindrical portion 134a-1 on the jack contact 134A side is fitted into the annular recess 149d on the plug terminal 149 side, and the end surface of the cylindrical portion 134a-2 contacts the end surface of the flange 149b on the plug terminal 149 side. .

  In a state where the plug terminal 149 is inserted into the jack contact 134A, an abnormal current (that is, an impulse current) entering from the power supply line 70-3 shown in FIG. 9 flows through the surface current path of the jack contact 134A and the plug terminal 149. . At this time, since the end face of the cylindrical portion 134a-2 on the jack contact 134A side is in contact with the end face of the flange 149b on the plug terminal 149 side, the surface current path becomes larger than that in the second embodiment. Therefore, the impulse current can flow more smoothly than in the second embodiment, and the conventional fusing due to poor contact can be prevented more accurately.

(Modification)
The present invention is not limited to the above-described embodiments, and various usage forms and modifications are possible. For example, the following forms (a) to (d) are used as the usage form and the modified examples.

  (A) The plug terminals 49, 149 and the jack contacts 34, 134, 134A may be changed to shapes and structures other than those illustrated.

  (B) The engagement protrusions 29-1 and 29-2 on the jack board 10 side and the engagement recesses 47-1 and 47-2 on the SPD plug 40 side to be engaged therewith have other shapes and structures. It may be changed. For example, the engagement concave portions 47-1 and 47-2 may be provided on the jack board 10 side, and the engagement convex portions 29-1 and 29- may be provided on the SPD plug 40 side.

  (C) The jack board 10 and the SPD plug 40 may be changed to shapes, structures, circuit configurations, etc. other than those illustrated. For example, in the circuit of the protector 1 shown in FIG. 8, the arrester 60 may be connected to the position of the varistor part 61, and the varistor part 61 may be connected to the position of the arrester 60. At this time, the detaching part 62 may be connected between the plug terminal 49-1 and the varistor part 61. Thereby, the effect | action similar to Example 1 and an effect can be show | played.

  (D) In the embodiment, the power supply protector 1 has been described. However, the protector of the present invention protects other protected devices such as communication devices connected to other lines such as communication lines. Is also applicable.

DESCRIPTION OF SYMBOLS 1,1-1 to 1-3 Protective device 10 Jack board 20 Jack case 29-1, 29-2 Engaging convex part 31-1, 31-2 Jack contact insertion hole 34-1, 34-2, 134, 134A Jack contact 35 Changeover switch 40 SPD plug 41 Plug case 44 Display window 47-1, 47-2 Engaging recess 49-1, 49-2, 149 Plug terminal 60 Arrester 61 Varistor 61-1, 61-2 Varistor 62 Disconnection unit 64 Display

Claims (6)

A jack board connected to the track,
A plug that can be inserted into and removed from the jack board, and that suppresses abnormal voltage and abnormal current that propagates to the line;
In a protector equipped with
The jack board
A jack case having a plug accommodating portion for accommodating the plug so as to be insertable and detachable;
A jack contact provided on a bottom surface of the plug housing portion and connected to the track;
A first engagement portion provided on a side surface of the plug housing portion,
The plug is
A plug case mounted so as to be able to be inserted and removed from the plug housing portion;
A second engagement portion provided on a side surface of the plug case and engaged with the first engagement portion so as to be attachable and detachable;
A plug terminal provided on a bottom surface of the plug case, and inserted into and removed from the jack contact;
A protective element that is connected to the plug terminal in the plug case and suppresses the abnormal voltage and the abnormal current entering from the jack contact and the plug terminal;
The jack contact is
A cylindrical portion having a spring property in which one end is opened and the other end is closed;
A first attachment portion extending from the other end of the cylindrical portion;
A plurality of split grooves extending from the one end of the cylindrical portion to the other end side;
The plug terminal is
A columnar part that is inserted into and removed from the cylindrical part;
And a second mounting portion extending from the cylindrical portion. The first attachment portion includes
The protector according to claim 1, wherein a first screw portion is formed. In the second attachment portion,
The protector according to claim 1, wherein a second screw portion is formed. On the side of the plug case,
A movable part having elasticity that is movable in a direction substantially perpendicular to the side surface is formed,
The protector according to claim 1, wherein the movable portion is provided with the second engaging portion. The line is a power line or a communication line,
The protector according to claim 1, wherein the protective element is any one of one or more arresters, one or more varistors, and a combination of arresters and varistors. The first engaging part is an engaging convex part or an engaging concave part,
The protector according to claim 4, wherein the second engaging portion is an engaging concave portion or an engaging convex portion that fits into the first engaging portion.

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