WO1997007568A1

WO1997007568A1 - Method and apparatus for signal generation to check for electric connection, and safety connector

Info

Publication number: WO1997007568A1
Application number: PCT/JP1996/002247
Authority: WO
Inventors: Shoshin Idosaka
Original assignee: Shoshin Idosaka
Priority date: 1995-08-11
Filing date: 1996-08-08
Publication date: 1997-02-27
Also published as: EP0847110A1; EP0847110A4; KR19990036379A; CA2228963A1; CN1198847A

Abstract

A signal generator fitted to a receptacle to check for electrical connection with the plug of an electric appliance. The generator comprises a case (1) provided with a pair of contact (2A, 2B) insertable into a receptacle. The case contains a bimetal switch (4) which is connected electrically and thermally to one contact (2A) and is thermally actuated, and first and second light emitting members (5A and 5B) the luminance head of which protrudes from a hole in a cover (1B). The first light emitting member (5A) is directly connected between the contacts (2A, 2B) and emits light for confirming conduction by a voltage between them. The second light emitting member (5B) is connected between the contacts (2A, 2B) through the bimetal switch (4) and emits light for an alarm if the bimetal switch is actuated by an abnormal rise in temperature of the receptacle.

Description

Description Conductive state confirmation signal generator and electrical connection device with conductive state confirmation signal generation and safety function Technical field to which the invention pertains

The present invention relates to an electrical connector such as an outlet or a plug having a confirmation signal generation and a conduction state confirmation signal generation and an automatic circuit shutoff circuit for use by being inserted into a two-pole outlet for inserting an insertion plug of an electric appliance. About 0

Height J5

Conventionally, as an artefact for inserting the insertion plug of electrical equipment ~ ^ The outlet installed in the home or office of the company, etc. can not visually recognize the energized state. It is difficult to detect early and to cope with the temperature rising force due to overcurrent or leak current that may cause an accident.

Overview of the invention

The present invention has been made in consideration of the above-described conventional technology, and an object of the present invention is to provide a small and low-cost conductive state confirmation signal generator that can be inserted into or incorporated into an existing outlet. To provide.

Another object of the present invention is to provide a small-sized and low-cost electrical connector with a function for generating a conductive state confirmation signal and a safety function, which can be inserted into or incorporated into an existing outlet. In order to achieve these objects, the present invention provides a conductive state confirmation signal generator for use in a bipolar outlet for a plug-in plug of an electric appliance, wherein the first and second plugs are detachably inserted into an outlet. (2) Protrude the insertion terminal to make the window hole visible from outside And a first ¾ ^: member that is provided in the housing so that the portion protrudes to the outside from the window hole, and is electrically connected between the first and second insertion terminals. A temperature displacing means fixedly disposed, the rear end of which is connected to the rear end of the first insertion terminal in the housing and which closes the electrical contact by deformation when the temperature reaches a predetermined value or more; And a warning generating means connected between the second insertion terminal and the second insertion terminal via an electric contact.

When this conductivity check signal generator is inserted into a wall-mounted, externally mounted, or portable outlet, the first light-emitting member, for example, a body such as a diode, arc lamp, neon light bulb, or miniature light bulb, You can know that the outlet is active. If the outlet of the outlet rises above a certain value due to overcurrent or leakage current, etc., the electrical contacts are switched on via a temperature displacement means fixed to the rear end of the first insertion terminal, for example, a bimetal, and Generate a Banpo signal from the generation means. Therefore, when the power switch is turned on by inserting the plug of the electric appliance into the outlet, if the electric appliance does not move even though the first light-emitting member is lit, it must be on the electric appliance side. I understand the power. In addition, when an alarm signal is output from the alarm generating member, it is known that the outlet temperature has exceeded a predetermined value, so that a fire accident due to overheating can be prevented.

Furthermore, according to the present invention, there is provided a conductive state confirmation signal generator used for a bipolar outlet for an insertion plug of an electric appliance, wherein the first and second insertion terminals detachably inserted into the outlet protrude. And a housing having a window hole that can be seen from the outside, and provided inside the housing so as to protrude to the outside from the bright head power window hole, and are electrically connected between the first and second insertion terminals. The light emitting member and one of the terminal lead wires are electrically and thermally connected to the rear end of the first insertion terminal in the housing, and heat is conducted when the first insertion terminal reaches a temperature equal to or higher than a predetermined value. Conductive state, comprising a diode sensitive to the alarm and alarm generating means connected between the first and second plug-in terminals via the diode. An acknowledgment signal generator is provided.

This conductive ^! When the acknowledgment signal generator is inserted into the outlet, the first light emitting member is lit to indicate that the outlet is in an active state. When the outlet temperature rises above a specified value, the characteristics of the diode directly fixed to the first plug-in terminal, for example, the change in characteristics due to the rise in the temperature of a germanium diode with a large temperature characteristic change range, have been mostly The forward current, which had not flowed, began to flow, and the alarm signal could be generated from the alarm generation means ¾.

Furthermore, according to the present invention, there is provided a conduction state confirmation signal generator incorporated in a bipolar outlet for an insertion plug of an electric appliance, wherein the insertion terminal is formed with a window hole that can be seen from the outside, and is connected to a power supply. Alternatively, at least one pair of first and second end members, which are connection terminals, and an insertion plug of an electric appliance are removably inserted and electrically connected to the first and second terminal members for each pole. A housing having first and second holding portions of the first insertion plug, the insertion plug being provided around the holding portion in the housing in a state where the first insertion plug is completely inserted into the holding portion; A contact piece whose leading end is in contact with and electrically connected to the first holding portion; and a luminous head is provided in the housing such that the bright head protrudes outside from the window hole, and an electrical connection is provided between the second terminal member and the contact piece. Electrically connected ^: Conductive state confirmation system with A signal generator is provided.

When the insertion plug of an electric appliance or the like is completely inserted into a wall-mounted, externally mounted, or portable outlet that has this confirmation signal generator, the end of the second insertion terminal of the insertion plug contacts the contact piece. Then, the luminous body is turned on when the electric supply circuit to the first luminous member is turned on. As a result, it can be visually confirmed that the plug and the outlet are completely in contact with each other and the electric power can be supplied to the electric appliance. If the insertion plug is not completely inserted, this can be known from the fact that the first member does not light up.

Each of the above-mentioned conductive state confirmation signal generators has a fixed contact piece fixedly arranged in the housing. A conductive temperature displacing means having a rear end connected to the rear end of the first terminal member in the housing and contacting the fixed contact piece by deformation when the temperature reaches a predetermined value or higher; and An alarm generating means connected between the material and the fixed contact piece may be further provided. By adding such an alarm generating means, in addition to the above-mentioned confirmation of the complete plugging, the current value of the electric appliance in use exceeds the current capacity of the outlet, the outlet of the outlet rises, and the temperature When the temperature of the means exceeds a predetermined value, an alarm signal is output from the newsletter generation means. Therefore, it is possible to prevent a burnout accident of the outlet due to an overcurrent or the like.

In place of temperature detection by the displacement means, a pair of terminal leads are provided, and one terminal lead is electrically and thermally connected to the rear end of the first terminal member or a connecting member having the same polarity as the terminal lead in the housing. Connected to a heat-sensitive diode that is electrically connected and becomes conductive when a temperature equal to or higher than a predetermined value is reached, and an alarm generation means that is connected between the first and second terminal members via a diode Can be.

By providing such a diode and alarm generating means, if the outlet temperature rises above a predetermined value, the characteristics of the diode, for example, germanium diode, change due to the temperature rise and fall ±± The current force flows in the direction, and the alarm signal can be generated from the alarm generating means.

A second temperature displacement means implanted in the housing substantially at the center between the insertion terminals so that an upper end thereof protrudes into the housing in parallel with the conductive state confirmation signal generator, and provided in the housing; The first fixed contact and the insertion terminal are provided so as to be movable in a direction parallel to the insertion / removal direction in the direction parallel to the insertion / removal direction, and the upper end of the second displacement means is engaged at room temperature and the temperature rises beyond a predetermined value. A moving body made of an electrical insulating material having a first movable contact that can be electrically connected to a first insertion terminal at a tip end of the engaging convex portion that is detached by deformation, and an upper end of the second temperature displacement unit. When engaged with the engaging projection of the moving body, the first movable contact is separated from the first fixed contact, and the second temperature displacement is caused by the temperature rise. A spring for always moving the moving body to the first fixed contact side and a first fixed contact are electrically connected so that the first movable contact is pressed against the first fixed contact when the upper end of the means is disengaged from the engagement projection. And a leak ban information output terminal that is pneumatically connected.

The provision of the second iag displacement means and the output terminal of the leak hair pin allows the housing or outlet body made of an electrical insulating material such as synthetic resin to be gradually exposed to high temperatures for a long time and gradually carbonized, deteriorating the electrical insulation. Or, when the area around the first insertion terminal rises due to a leak between terminals due to breakage between the terminals, the second temperature displacement means operates and a leak signal is output from the leak alarm output terminal. This leak signal makes it possible to make the safety device such as shutting off the power supply unit ifi, and to detect an abnormality in the confirmation signal generator itself at an early stage.

In addition, a second temperature displacement means is provided in the housing with respect to the above-mentioned conductive state confirmation signal generator, which is implanted in the housing at substantially the center between the insertion terminals so that the upper end protrudes into the housing in parallel with the insertion terminal. The second fixed contact connected to the first insertion terminal is movable in a plane perpendicular to the insertion / removal direction of the insertion terminal, and the distal end of the second fixed contact is connected to the upper end of the second temperature displacement means at room temperature. The second movable contact provided on the other side of the intermediate portion comes into and out of contact with the second fixed contact so as to freely engage and disengage with one side surface, and the terminal parallel to the plug-in terminal at the rear end A lever having a pin movably engaged with a guide groove formed substantially parallel to the direction, and a movable contact being a fixed contact when the tip of the lever is engaged with the second temperature displacement means in a normal temperature state. Urges the lever so that it comes into pressure contact with When the step is released from the lever, the pin moves along the guide groove to the terminal position, and the spring that rotates the lever about the pin at the terminal position at the terminal position so that the first movable contact is separated from the first fixed contact. And a leak alarm output terminal that is electrically connected to the second movable contact, and that outputs a leak signal when the second movable contact is separated from the second fixed contact.

The conduction state confirmation signal generator with the function of outputting this leak signal is The power supply circuit can be cut off directly by using the output terminal. Therefore, it is possible to prevent a heat or fire accident due to a decrease in the insulation resistance of the housing or the outlet.

The above-mentioned conductive state confirmation signal generator is electrically connected between a pair of leak detection pins and a pair of leak detection pins which are respectively implanted in parallel with each other at positions near the terminals between the insertion terminals of the housing. In addition, it is possible to further include a leak alarm generating means that is activated by a leak generated between the pair of leak detection pins when the electrical insulation of the insulating material around the insertion terminal is broken.

By providing this leak alarm generation means, if the insulation of the electrical insulation material such as the synthetic resin that constitutes the housing or the outlet main body is deteriorated or destroyed and a current leak occurs, it will be close to the respective insertion terminals. Leakage voltage is generated in the lead wire buried in the vessel, and a leak alarm is issued from the leak alarm generating means. The operator can use the confirmation signal generator with confidence until the leak alarm is issued. Here, since a mechanical detection element typified by a bimetal or the like is not used, a small and inexpensive leak alarm generator can be configured. In addition, it is possible to use a leak alarm to shut off the power supply circuit.For example, a tracking accident that occurs when cotton dust adheres to the outlet near the plug insertion hole, or a fire accident due to overcurrent It is possible to prevent a fire accident due to electric leakage due to carbonization of the insulating material near the Bragg insertion hole due to heat generation at the contact portion.

A pair of leaks are implanted parallel to each other in the vicinity of the Bragg insertion hole of the housing between at least the pair of Bragg insertion holes for inserting the insertion plug of the electrical appliance into the conductive state confirmation signal generator. A detecting plate, and a leak alarm generating means electrically connected between the leak detecting plates and activated by a leak voltage generated between the pair of leak detections when electric insulation of the insulating material around the holding portion is broken. Can be provided. By adding this means for generating a leak alarm, cotton dust and the like will accumulate around the second insertion terminal of the plug, such as electrical equipment inserted into the outlet, that is, around the plug insertion hole of the outlet. When the electrical conductor is formed with moisture, a leak voltage is generated between the leak detection plates, and a leak alarm is output from the leak alarm means. If the power supply circuit is shut off using this leak alarm, it is possible to prevent accidents caused by tracking. In addition, if the current value of the electrical appliance serving as the load exceeds the current capacity of the outlet, the contact between the holding part of the secondary connection fitting and the second insertion terminal of the insertion plug will generate the most heat. Is big. Therefore, the heat generated around the insertion plug insertion hole of the outlet body due to the heat generated by the heat generated, and if the electrical insulation was reduced or destroyed, a leak voltage was generated between the pair of leak detection plates, and the leak was detected by the leak alarm means. Nutrition is output. By using this leak alarm, the power supply circuit can be shut off to prevent accidents due to poor insulation resistance.

The alarm generating means can be constituted by a second light emitting member provided with a bright head protruding outside in the housing. By providing the second light emitting member, overheating of the outlet can be visually detected early.

The alarm generation means may also be an alarm sound generator provided in the housing. By providing an alarm sound generator such as a buzzer or bell, the outlet can be overheated with an alarm sound.

The alarm generating means can also be constituted by a member for outputting an electric signal for interrupting the main power supply circuit. The power supply circuit can be cut off directly by the electric signal or via a relay. Therefore, if this signal generator is installed, for example, in a place where there is a risk of heat generation in the machine body, it can be used as a signal output device that detects heat generation due to high-speed operation or excessive load and shuts off the main power supply circuit. This makes it possible to configure a small, low-cost heat generation monitoring device. The leak alarm generating means can be constituted by a third member provided with a bright head protruding outside in the housing. By making the third member a luminous body of a different color from the first and second members, deterioration or breakage of the electrical insulation of the housing or the outlet main body can be easily visually recognized.

The leak alarm generating means may be a second alarm sound generator provided in the housing. By making the second hair ring tone generator a tone different from that of the first hair ring tone generator, it is easy to identify by sound the deterioration or breakage of the electrical insulation of the housing or the outlet. be able to.

The device may further include an overcurrent prevention element connected in series or in parallel to the second alarm sound generator. The provision of the overcurrent prevention element prevents the alarm sound generator from being damaged even when the electrical insulation of the housing or the outlet itself is completely broken.

The leak alarm generating means can be constituted by a relay that outputs a signal by opening and closing a contact. The power supply circuit can be interrupted by using the contacts of this relay.

An overcurrent protection element connected in series or parallel to the relay can be further provided. By providing this overcurrent protection element, the relay will not fail even if the electrical insulation of the housing or outlet is completely destroyed.

Furthermore, according to the present invention, there is provided an electric connector used as an outlet having a function of generating a confirmation signal and automatically shutting off a circuit for receiving an insertion plug of an electric appliance, wherein the first and second electric outlets are provided outside. A housing having at least one pair of secondary terminal members, which is internally connected to the primary terminal members for each pole, and into which an insertion plug of an electric appliance is removably inserted; A movable body made of an insulating material movably provided in the housing; a first fixed contact fixed in the housing and connected to one of a pair of secondary terminal members; and a first fixed contact fixed in the housing. 2 Fixed contact and 1st fixed contact A first movable contact which is arranged opposite to the constant contact and is electrically connected to the first primary side terminal member, a second movable contact which is fixed to the first movable contact and moves with the first movable contact, (2) A spring for bringing the movable contact into contact with the first and second fixed contacts at a predetermined contact pressure, and a first and second movable contact, respectively, which lock the movement of the moving body at room temperature to hold the first and second movable contacts, respectively. (2) Temperature displacing means provided to contact the fixed contact, release the locking of the moving body by deformation due to temperature rise, and separate the first and second movable contacts from the first and second fixed contacts, respectively. When the temperature displacement means is at room temperature, it is turned on through the second contact and the second fixed contact due to the 間の between the first and second-secondary terminal members. The second movable contact is released from the second fixed contact when the lock is released. The first light-emitting member for conduction confirmation that is turned off when the light is turned on, and the light is turned off when the displacement means is at room temperature through the second movable contact and the second fixed contact. When the moving body is unlocked due to deformation of the displacement means, the second movable contact is separated from the second fixed contact, the short circuit is released, and the circuit is lit by the voltage between the first and second-secondary terminal members. A second light emitting member for confirming interruption and a resetting means for returning to a contact state at a normal temperature when the first movable contact and the second movable contact are separated from the first fixed contact and the second fixed contact, respectively. An electrical connection is provided.

According to this electrical connector, ie, the outlet, at normal temperature, the locking hole at the distal end of the temperature displacement means engages with the locking pin of the moving body, and in this state, the first movable contact is formed by the contact pressure applying spring. (1) The voltage of the primary terminal member is applied to the secondary connection fitting by being pressed against the fixed contact, and, for example, the first blue light emitting member is lit to indicate the conductivity. For example, if the plug of an electric appliance such as an electric heater with a large current value is inserted in the secondary connection fitting, and the current that exceeds the current capacity of the outlet flows, the temperature of the outlet itself rises. When the temperature of the temperature displacing means rises due to this temperature rise and exceeds a predetermined value, the tip having the locking hole is bent upward so as to be disengaged from the locking pin. Come off. Then, the moving body moves by the force of the spring, and the first movable contact separates from the first fixed contact. As a result, the current circuit between the first-primary terminal member and the first secondary connection metal is cut off, and at the same time, the second movable contact separates from the second fixed contact, and the previously lit blue light, for example, The first light emitting member for confirming conduction is extinguished, and the second member for confirming red circuit interruption is turned on instead, thereby indicating that the circuit is interrupted. Therefore, the use of this electrical connector does not raise the temperature to a high temperature at which the insulation of the outlet body is degraded or destroyed, so that there is no danger of generating ^^. Also, simply unplug the plug of the electrical appliance that caused the overcurrent, wait for the outlet to cool down to room temperature, and move the moving body until it is locked by resetting means, thereby easily restoring and repeating. It is possible to use.

It is possible to further comprise a thermal fuse electrically connected in series to the second-secondary terminal member. With this ヒューズ ^ fuse, if the power outlet rises, even if an unexpected abnormal power occurs that the circuit cannot be cut off by the temperature displacement means for some reason, the thermal fuse will protect and cut off. Therefore, fire accidents can be prevented beforehand, and the level of reliability for safety is improved. If the fuse is blown out, neither the first light emitting member nor the second member of the confirmation signal generating means will be lit, so that it is easy to find out that the thermal fuse has blown out, You can take measures such as sending it to an electronics store for repair. Still further, according to the present invention, there is provided an electrical connecting device used as an outlet having a function of generating a confirmation signal and automatically shutting off a circuit for receiving an insertion plug of an electrical appliance, and the entire surface thereof is detachably connected to a power outlet. A housing having first and second primary side terminal members to be inserted and having at least one pair of first and second secondary connection fittings into which an insertion plug of an electric appliance is removably inserted on another surface. A thermal fuse provided in the housing and provided in thermal close contact between the first-secondary terminal member and the first secondary-side fitting; 2—Secondary terminal member and secondary secondary connection Connecting means for electrically connecting the metal member; a first member for confirming conduction connected between the first secondary metal member and the second-side terminal member; Provided is an electric connector comprising: a second light-emitting member for confirming circuit interruption connected between secondary terminal members; and means for turning off the second member when the first member is turned on.

According to this MM connector, the current circuit is shut off when the outlet temperature JTh rises using a temperature fuse that is extremely simple in structure and ensures operation. The illuminator lights up to notify the temperature fuse has blown out, so replacing the temperature fuse will allow you to use it again. The primary terminal member in the above electrical connector may be a plug-in terminal used by being inserted into and removed from a power outlet embedded in a wall of a building or the like, or may be connected to a power source from a power source. It may be a fixed connection type or a portable connection terminal called a so-called table tap which is embedded in the wall of a building.

According to the present invention, there is also provided an electric connector used as an insertion plug having functions of generating a confirmation signal and automatically shutting off a circuit, comprising: a plug body having first and second-secondary insertion terminals; A movable body made of an insulating material movably provided in the plug body; a first fixed contact provided in the plug body; and a movable body that can be brought into contact with the first fixed contact by a contact spring. The first movable contact connected to the first primary-side insertion terminal, and the first movable contact is provided so as to lock the moving body in a normal conduction state where the first fixed contact and the first movable contact are in contact with each other. Temperature movable means, a second movable contact fixed to the first movable contact and moving therewith, a second fixed contact provided on the plug body, and the second movable contact comes into and out of contact with the plug, and a plug Provided on the main body, Normally closing the first and second secondary connection terminals connected to the constant contact and the second-secondary insertion terminal, and the first and second movable contacts separated from the first and second fixed contacts A reset means for returning to a state, a first light-emitting member for checking conduction, and a second member for checking circuit interruption, and a first-secondary insertion terminal and a second secondary side When a voltage is applied to the connection terminal and the moving body is unlocked due to deformation of the temperature displacement means when a¾ of the temperature displacement means exceeds a predetermined value, the conduction confirmation that was lit up to that point was confirmed. There is provided an electrical connection device having a first signal for turning off the light and a second signal for confirming a circuit interruption instead of the second signal for confirming the disconnection of the second signal.

If this electrical connector is attached to the end of the power cord of the electric appliance, it can function as a safety device for the electric appliance where the load current constantly changes. In addition, if it is attached to the end of the power cord of a commercially available outlet for increasing the number of outlets, commonly called a table tap, it is possible to prevent a fire accident caused by an overcurrent caused by the octopus foot 1¾¾.

The electrical connection first in tool ² - may further comprise a temperature fuse disposed between the next-side plug terminal and the ^second secondary-side connecting terminal. By providing this temperature fuse, if the temperature of the plug body rises, the temperature fuse will be cut off even if an unexpected abnormal situation occurs in which the circuit is not interrupted by the temperature displacement means. Because of the double safety structure in which the current circuit is interrupted, a highly secure plug-in plug that does not develop into a large accident such as a fire can be constructed.

Further, according to the present invention, there is provided an electrical connector used as an outlet having a function of generating a confirmation signal and automatically shutting off a circuit for receiving an insertion plug of an electrical appliance, wherein the first and second-secondary connection terminals are provided. A movable body made of an insulating material movably provided in the outlet body, a first fixed contact provided in the outlet body, and a contact spring movably provided in the movable body. The movable body is biased so as to be in contact with the first fixed contact and connected to the first primary connection terminal, and the movable body is in a normal conduction state where the first fixed contact and the first movable contact are in contact with each other. A detachable locking member with a claw to be locked; and a first movable contact fixed to and movable with the first movable contact. A second movable contact provided in the outlet main body, a second fixed contact provided in the outlet main body so that the second movable contact comes into contact with and detachable from the main body, and a first fixed contact and a second-secondary connection terminal fixed to the outlet main body, respectively. At least one pair of the first and second secondary connection fittings connected to each other, a second end having a rear end fixed to the outlet main body and a front end fixed to the outlet main body so as to be substantially parallel to the center of the secondary connection fitting. (3) Displacement means that is separated from the third fixed contact at room temperature and is detachable so that it contacts the third fixed contact at a temperature exceeding a predetermined value and is connected to the second-secondary connection terminal. A fixed coil provided at one end of the outlet body in the vicinity of the locking member with a claw, and one end having a third fixed contact, and the other end having a first electromagnetic coil electrically connected to the first fixed contact. With the excitation of the first electromagnetic coil, the locking member with claw is pulled in and moved. A magnet for unlocking the body, a reset means for returning the first and second movable contacts separated from the first and second fixed contacts to a normal closed state, and a first means for confirming conduction. It has a light emitting member and a second light emitting member for confirming circuit interruption, and when a voltage is applied between the first primary side connection terminal and the second secondary side connection terminal and the temperature of the i¾ displacement means exceeds a predetermined value, When the locking force of the moving body is released by the deformation of the displacement means, the first light-emitting member for conduction confirmation that was lit up until then goes out, and the second light-emitting member for circuit cutoff confirmation turns on instead. An electrical connector provided with the confirmation signal generation circuit configured as described above is provided.

This electrical connection device is a fixed outlet mounted on a wall or a pole, or a portable outlet called a table tap, for receiving a plug for insertion of an electrical appliance. When the bimetal exceeds the set temperature due to the temperature of the outlet main body, the circuit is cut off by the magnet, and the circuit is cut off. Both the light-emitting member, for example, a blue light-emitting diode and the second light-emitting member for checking circuit interruption, for example, a red light-emitting diode, do not light up. It becomes an outlet with a signal generation function, This is the key to preventing such large accidents.

It is preferable that the electric connection device further include a thermal fuse disposed between the second-secondary connection terminal and the second secondary connection terminal. By providing this fuse, if the temperature of the outlet body rises above the set temperature of the battery, the circuit will not be automatically shut down. If the temperature becomes higher than the temperature fuse setting, the fuse will blow and the circuit will be cut off automatically, so the double circuit automatic disconnection function can ensure extremely secure safety. Further, when the thermal fuse is blown, the confirmation signal generating means, for example, the two bodies of red and blue do not light up, so that it is easy to find the thermal fuse blown.

In the above electrical connection device, a pair of leak detection plates disposed in parallel with each other between the pair of plug insertion holes and near each of the plug insertion holes for inserting the insertion plug of the electric appliance in the outlet main body, A second electromagnetic coil wound around the magnet and connected between the pair of leak detection plates.The electrical insulation performance of the material around the plug insertion hole of the outlet body is destroyed and the leakage detection plate is When a leak voltage is generated, the second electromagnetic coil is excited to cause the magnet to retract the locking member with the claw and release the locking of the moving body.

According to this configuration, for example, when the electrical insulation of the outlet main body is deteriorated or broken due to a tracking phenomenon, a leak voltage is generated in the leak detection plate. The magnet voltage is excited by this leak voltage, the locking member with claw is pulled in, the moving body is unlocked, and the circuit is automatically shut off. Therefore, it is possible to prevent a fire accident caused by a leak due to deterioration or breakage of the electrical insulation of the outlet body.

In the above electrical connection device, the second connection terminal and the third fixed contact are arranged in the outlet main body so as to become electrically conductive in response to a vibration exceeding a predetermined value. Further comprising vibration detection means electrically connected between Can be.

According to this configuration, when an earthquake or explosion or the like occurs, the vibration detecting means detects the occurrence, the magnet is excited, and an anti-vibration force is applied to draw in the locking member with the claw and automatically shut off the circuit. Therefore, secondary electric disasters such as earthquakes and explosions can be prevented.

Further, in the above electrical connector, at least one of the alarm sound generator and the light emitting member for leak hair information, which is electrically connected between the leak detection plates, can be further provided.

According to this configuration, even if an unexpected abnormal situation occurs in which the circuit is not interrupted even if a leak occurs in the leak detection plate, the occurrence of the leak is notified by at least one of an alarm sound and an alarm light emission. It is possible to provide a safe and secure outlet

Furthermore, according to the present invention, there is provided an electric connector used as a portable outlet having a function of generating a confirmation signal and automatically shutting off a circuit for receiving an insertion plug of an electric appliance, comprising: a first and a second primary side. An outlet body having an insertion terminal, a first fixed contact provided in the outlet body, a movable body made of an insulating material movably provided in the outlet body, and a movable body provided in the movable body. The first movable contact that is urged by the contact spring to come into contact with the first fixed contact and is connected to the first-to-secondary insertion terminal, and the normal conduction where the first fixed contact contacts the first movable contact A detachable locking member with a claw that locks the moving body in a state, a second movable contact fixed to the first movable contact and moves therewith, and a second movable contact fixed to the outlet body. Approaching and leaving A second fixed contact, which is provided in the outlet main body, and at least a pair of first and second secondary connection fittings connected to the first fixed contact and the second-secondary insertion terminal; The fixed third fixed contact, the rear end of which is connected to the secondary insertion terminal, and the tip separated from the third fixed contact at room temperature and A temperature displacing means provided so as to be able to freely contact and separate so as to come in contact with a high temperature exceeding a degree, provided near the engaging member with a claw, one end is connected to the third fixed contact, and the other end is connected to the first fixed contact. It has a first electromagnetic coil that is electrically connected, and the first electromagnetic coiler is energized by contacting the third fixed contact at the end of the temperature displacement. It has a magnet that releases the lock and separates the first movable contact and the second movable contact from the first fixed contact and the second fixed contact, respectively, a first member for checking conduction, and a second member for checking circuit interruption. When ¾E is applied between the first-secondary-side insertion terminal and the second secondary-side connection fitting, and the temperature of the temperature-displacement means exceeds a predetermined value, the locking force of the moving body is reduced by the temperature-displacement means. When it is touched, the first light-emitting member for conductivity confirmation, which was lit up to that point, goes out and replaces it. And a confirmation signal generating circuit configured to turn on the second light emitting member for confirming circuit interruption, and a confirmation signal generation circuit configured to release the locking of the moving body from the first fixed contact and the second fixed contact. There is provided an electric connector including reset means for returning the first movable contact and the second movable contact to a normal conduction state.

According to this electric connection device, when the temperature of the temperature displacement means rises above the set temperature, the magnet is excited and the locking member with the claw is pulled in, the moving body is unlocked and the circuit is cut off. At the same time, when the circuit is cut off, the body of the confirmation signal generator, for example, «fe, disappears, and instead, the red illuminator turns on to notify that the circuit has been cut off, thereby reducing the risk of an accident such as a fire. It can be significantly reduced.

The electrical connector is provided between the pair of plug insertion holes of the outlet main body for inserting the insertion plug of the electric appliance and in parallel near each of the plug insertion holes. A pair of leak detection plates that generate a leakage voltage when the electrical insulation performance of the insulating material is destroyed, and a plug between the pair of primary-side insertion terminals of the outlet main body and near the respective primary-side insertion terminals, which are implanted parallel to each other to detect leakage A pair of contacts that are electrically connected to the board for each pole, and that cause a leakage voltage when the electrical insulation performance of the insulating material around the primary insertion terminal of the outlet body is destroyed The second electromagnetic coil is excited when a leak ¾E occurs between the pair of leak detection plates or between the pair of leak detection pins. The magnet may be provided with a second electromagnetic coil that inserts the locking member with the claw into the bow to unlock the moving body.

According to this configuration, when the electrical insulation performance of the outlet body is deteriorated or destroyed and a leak voltage is generated in the leak detection plate or the leak detection pin, the magnet is excited and the locking member with the claw is pulled in to engage the moving body. Since the current circuit is cut off after the stop, a major accident such as a fire can be prevented.

Furthermore, according to the present invention, there is provided an electric connector used as a portable outlet having a function of generating a confirmation signal and automatically shutting off a circuit for receiving an insertion plug of an electric appliance, comprising: a first and a second primary side. An outlet body having an insertion terminal, a first fixed contact provided in the outlet body, a movable body made of an insulating material movably provided in the outlet body, and a movable body provided in the movable body. Contact The first movable contact, which is urged by the spring so as to come in contact with the first fixed contact and is connected to the first-to-secondary insertion terminal, and is approximately at the center between the primary-side insertion terminal and at right angles to the primary-side insertion terminal parallel direction Temperature displacing means disposed at a right angle to the insertion / removal direction of the primary-side insertion terminal and locking the moving body in a normal conduction state where the first fixed contact and the first movable contact are in contact with each other; (1) a second movable contact fixed to the movable contact and moves therewith; a second fixed contact provided in the outlet main body and to which the second movable contact comes into contact with and detachable from; and a first fixed provided in the outlet main body. At least one pair of secondary connection fittings comprising a first secondary connection fitting connected to the contact point, and a second secondary connection fitting connected to the second-secondary insertion terminal; (1) It has a light-emitting member and a second light-emitting member for checking circuit interruption, a voltage is applied between the primary-side insertion terminal and the second secondary-side fitting, and the temperature of the temperature displacement means is a predetermined value. When the temperature exceeds the limit, the moving body is unlocked by the deformation of the temperature displacement means, and the first light-emitting member for conduction confirmation, which was lit up until then, is turned off. Instead, a pair of a confirmation signal generation circuit configured so that the 2nd member for circuit interruption confirmation lights up, and a secondary connection fitting for inserting the insertion plug on the side of the electric appliance on the outlet body The first and second leak detection plates provided in parallel with each other in the vicinity of each of the plug insertion holes in the middle of the plug insertion hole, and near the respective plug-in terminals in the middle of a pair of the secondary plug-in terminals of the outlet body The first and second leak detection pins planted in parallel at the respective positions are provided adjacent to the tip of the temperature displacement means in the outlet body on the side opposite to the displacement direction due to the temperature rise, and one end is provided with the first leak detection plate. And an electromagnetic coil connected to the first leak detection pin and the other end connected to the second leak detection pin and the second leak detection pin. When the magnetic material that releases the lock and the electrical insulation around the plug insertion hole of the outlet body or around the primary-side insertion terminal is broken and a leak voltage force is generated on the leak detection plate or leak detection pin, the magnet member is moved to the thigh. As a result, the automatic shut-off mechanism that cuts off the current path from the primary-side insertion terminal to the secondary-side connection fitting, and the moving body is released and separated from the first fixed contact and the second fixed contact There is provided an electrical connector including reset means for returning the first movable contact and the second movable contact in the state to a normal conduction state.

According to this electrical connector, when the temperature in the outlet body exceeds the set temperature of the temperature displacement means, the moving body is unlocked and the circuit is cut off. Also, if the electrical insulation around the protruding terminals of the outlet body and the plug insertion hole is deteriorated or destroyed and a leak voltage is generated on the leak detection pin or leak detection plate, the magnet is excited and moves by the temperature displacement means and moves. Unlock the body and cut off the current circuit. As a result of this circuit interruption, for example, the blue light emitter of the confirmation signal generation means goes out, and instead the red light emitter lights up to notify that the circuit has been interrupted, causing a major accident such as a fire due to overcurrent or leakage due to tracking. This will reduce the risk of spilling and will allow you to take prompt action by viewing the confirmation signal display. A fuse may be further provided between the second-secondary-side insertion terminal and the second secondary-side fitting.

By providing this fuse, even if the temperature of the outlet body exceeds the set temperature of the temperature displacement means and the temperature rises by JL, an unexpected abnormal situation occurs in which the circuit is not cut off by the temperature displacement means. However, if the outlet body exceeds the set temperature of the thermal fuse, the thermal fuse will blow and cut off the current circuit, so that extremely reliable safety can be secured. BRIEF DESCRIPTION OF THE FIGURES

In the attached drawings,

FIG. 1 is a perspective view showing the inside of a conductive state confirmation signal generator according to Embodiment 1 of the present invention.

FIG. 2 is a perspective view showing the appearance of the confirmation signal generator of FIG.

Fig. 3 is a connection diagram of an electric circuit using bimetal to emit a safety confirmation signal by a light emitter.

Figure 4 is a wiring diagram of an electric circuit that uses a bi-mail to generate an alarm sound with a buzzer.

Fig. 5 is a wiring diagram of an explosion-proof electrical circuit using reed switches and bimetals.

FIG. 6 is a connection diagram of an electric circuit using a bimetal for extracting a signal for power cutoff.

Figure Ί is a wiring diagram of an electric circuit using a bimetal, in which the blue light emitter is turned off when the red light emitter is turned on.

FIG. 8 is a connection diagram of an electric circuit that uses a diode as a sensor to output a confirmation signal by the body of the second embodiment. Figure 9 is a schematic diagram of an electric circuit using a diode as a sensor, in which the illuminator, buzzer, and relay simultaneously output confirmation signals.

FIG. 10 is a perspective view showing the inside of the additional outlet with a confirmation signal generator according to the third embodiment.

FIG. 11 is a perspective view showing the appearance of the outlet of FIG.

FIG. 12 is a perspective view showing the inside of the outlet with the confirmation signal generator of the fourth embodiment.

FIG. 13 is a perspective view showing the appearance of the outlet of FIG.

FIG. 14 is a perspective view showing the inside of a conduction state confirmation signal generator to which ^ a generation of a leak alarm using the bimetal of Example 5;

FIG. 15 is a connection diagram of an electric circuit of the confirmation signal generator of FIG.

FIG. 16 is an electric circuit diagram of a leak alarm generating mechanism having a leak signal output using the bimetal of Example 5 and a leak confirmation signal circuit by body.

FIG. 17 is a perspective view of a leak alarm generating mechanism that outputs a leak signal using a bimetal.

FIG. 18 is a wiring diagram of an electric circuit according to a fifth embodiment in which a leak signal is output by a warning sound generator and a warning light emitter by a leak voltage.

FIG. 19 is a wiring diagram of an electric circuit obtained by adding an overcurrent protection circuit using a constant current diode to the electric circuit of FIG.

FIG. 20 is a wiring diagram of an electric circuit obtained by adding an overcurrent protection circuit using an overcurrent prevention resistor to the electric circuit of FIG. 18.

FIG. 21 is a wiring diagram of an electric circuit according to a fifth embodiment in which a leak signal is output from a relay at a leak voltage generated at a leak detection pin.

FIG. 22 is a wiring diagram of an electric circuit obtained by adding an overcurrent protection circuit using a constant current diode to the electric circuit of FIG. FIG. 23 is a wiring diagram of an electric circuit according to a fifth embodiment in which a leak alarm neon lamp is turned on by a leak voltage generated at a leak detection pin.

Fig. 24 shows a leak alarm that outputs a leak signal from the relay based on the leak voltage generated on the leak detection board. Fig. 24 is a perspective view of the inside of the outlet with a confirmation signal generator in Example 5, and the wiring diagram of the electrical circuit for leak alarm. It is.

FIG. 25 is a perspective view showing the appearance of the electric circuit of FIG.

Fig. 26 shows the leakage inside the outlet with a confirmation signal generator that adds a leak alarm generation mechanism that outputs a leak signal from the alarm sound generator and the illuminator for the hairpin in the leak SEE generated in the leak detection plate of Example 5. It is a perspective view and a connection diagram of a leak alarm electric circuit. FIG. 27 is a perspective view showing an example of the inside of the outlet with the insertion terminal having the confirmation signal generation and the automatic circuit cutoff function of Example 6.

FIG. 28 is a circuit diagram of the confirmation signal generator of FIG.

FIG. 29 is a perspective view showing an example of an outlet with an insertion terminal having a different plug insertion direction from the device of FIG. 27 of Example 6.

FIG. 30 is a perspective view showing an example of an outlet with an insertion terminal having a different plug insertion direction from that of FIGS.

FIG. 31 is a perspective view of a two-port outlet with an insertion terminal according to the sixth embodiment.

FIG. 32 is a perspective view of a two-port outlet according to the seventh embodiment having a fixed or portable confirmation signal generation function and an automatic circuit shutoff function.

FIG. 33 is a perspective view of an insertion plug having a confirmation signal generation and an automatic circuit cutoff function of Example 8.

FIG. 34 is an explanatory diagram of a tracking prevention mechanism according to a ninth embodiment which is added to the outlet with an insertion terminal according to the sixth embodiment or the insertion plug according to the eighth embodiment.

FIG. 35 is a perspective view showing the inside of an outlet with an insertion terminal having a function of generating a confirmation signal and double-circuit automatic shutoff of Example 10. FIG. 36 is an electric circuit diagram of the device of FIG.

FIG. 37 is a perspective view showing the inside of the outlet with the insertion terminal having the functions of the insertion direction force of the plug of FIG. 35 of Example 10 << the generation of different confirmation signals and the automatic double-circuit shutoff.

Fig. 38 shows the inside of the outlet-equipped outlet, which has the functions of generating a confirmation signal with a different plug insertion direction from that of Fig. 35 and Fig. FIG.

FIG. 39 is a perspective view showing the inside of a two-port outlet with a plug-in terminal having a function of generating a confirmation signal and automatic double-circuit shutoff in Example 10.

FIG. 40 is a perspective view showing the inside of a power outlet that has a function of generating a fixed or portable confirmation signal attached to a pillar or a desk or the like of Example 11 and having a double automatic circuit shutoff function.

FIG. 41 is a view {circle around 4} showing the inside of an insertion plug having a function of generating a confirmation signal and double-cutting off a circuit, which is attached to the tip of a power cord such as an electric appliance or a power strip of Example 12.

FIG. 42 is a perspective view showing the inside of an outlet with an insertion terminal having a function of generating a confirmation signal of Example 13 and automatically shutting off a circuit by a thermal fuse.

FIG. 43 is a wiring diagram of the electric circuit of FIG.

Fig. 44 shows a fixed type outlet that has a function of generating a check signal and automatically shutting off the circuit, which is used by attaching it to the wall or pillar, etc. of Example 14; FIG. 5 is a perspective view showing the inside of an outlet having a circuit automatic shut-off function when a leak occurs due to a vibration, a circuit shut-off function due to vibration, and an alarm signal generation t for a leak.

FIG. 45 is a perspective view showing the appearance of the outlet of FIG.

FIG. 46 is a connection diagram of an electric circuit of the outlet of FIG. Fig. 47 shows a connection diagram of an electrical circuit showing an example in which magnets with different shapes are used in the outlet that has the functions of generating the confirmation signal and automatically shutting off the circuit in Example 14.

Figure 48 shows an outlet with a plug-in terminal that has the functions of generating a confirmation signal and automatically shutting off the circuit in Example 15.The outlet has a leak detection board and a leak detection pin that has an automatic circuit shutoff function when a leak occurs. FIG.

FIG. 49 is a wiring diagram of the electric circuit of the outlet of FIG.

Fig. 50 is a perspective view showing the inside of an outlet with a plug-in terminal that has the function of generating a confirmation signal and automatic shutoff of the circuit in Example 16 and moves the bimetal by magnet when a leak occurs. It is.

Fig. 51A is a connection diagram of the electrical circuit of the outlet in Fig. 50, and Fig. 51B is a cross-sectional view taken along line A_A in Fig. 51A, illustrating the relationship between the bimetal and the magnet. is there.

Description of the preferred embodiment

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

(Example 1)

FIG. 1 is a perspective view showing the inside of a conductive state confirmation signal generator of a type that can be inserted into an existing outlet, and FIG. 2 is a perspective view showing its appearance. 1 and 2, the housing 1 includes a main body 1A and a lid 1B, each of which is formed of an insulating material such as a synthetic resin. The cover 1B is provided with a window hole 1a through which the heads of the luminous bodies 5A and 5B, which will be described later, protrude and can be seen from the outside.

A pair of insertion terminals 2A and 2B that are removably inserted into two power outlets are fixed to the main body 1A. The rear end of the bimetal 4 is fixed to the rear end of one of the insertion terminals 2A so as to make good electrical and thermal contact by means of welding or welding. The contact 4a attached to the tip of the bimetal 4 extends below the contact 3a of the fixed contact 3 fixed to the main body 1A. Contact of this bimetal 4 The point 4a is separated from the contact 3a of the contact 3 at room temperature, and when it exceeds a predetermined setting higher than room temperature, it deforms to warp upward and makes electrical contact with the contact 3a. Bimetallic 4 is made by laminating two metals with different coefficients of expansion, but this is used as a displacement means that generates a target displacement depending on temperature, and is limited to bimetal. Instead, a shape memory alloy that returns to a previously stored shape at a predetermined temperature, or a similar shape memory element made of another material can be used. In the following, description will be made assuming that a bimetal is used as a specific example of the temperature displacement means.

Two light emitters, for example, light emitting diodes (LEDs) 5A, 5B or miniature light bulbs, are mounted on the main unit 1A with their heads facing up. It protrudes from 1a and is visible from the outside. LEDs 5A and 5B can emit different colors, for example, LED5A can emit »fe and LED 5B can emit red. A rectifier diode D and a current limiting resistor R are also incorporated in the housing 1.

FIG. 3 is a diagram showing an example of an electric circuit of the signal generator. In this circuit, when the bimetal 4 is separated from the fixed contact 3, a closed circuit is formed from the insertion terminal 2B to the insertion terminal 2A via the resistor R, diode D and LED5A. LED 5 A lights up and emits blue light. When the bimetal 4 comes into contact with the fixed contact 3, a current also flows through the LED 5 </ b> B through these, and the LED 5 </ b> B lights up, and this emits red light.

According to the signal generators of Figs. 1 to 3, when the insertion terminals 2A and 2B are inserted into a power outlet (not shown), a current flows to the LED 5A via the resistor R and the diode D. LED5A lights up and emits blue light to confirm conduction. Next, when an unillustrated power outlet rises abnormally due to, for example, overcurrent, the temperature of the bimetal 4 rises through the insertion terminal 2A, and when it exceeds the set temperature, the bimetal 4 deforms four times. Touch the fixed contact 3 and turn on LED5B power << Emit red light.

As shown in FIG. 4, instead of the LED 5B, a relatively small alarm sound generator, for example, a piezoelectric buzzer 6 or a bell can be used. Further, an alarm sound generator such as a piezoelectric buzzer 6 can be used in combination with the LED 5B.

As shown in FIG. 5, a lead switch 7 can be used instead of the fixed contact 3 and the bimetal 4 in FIG. In this case, the magnet MG is attached to the tip of the bimetal 4, and the magnet MG is always away from the lead switch 7 and is in a non-operating (switch-off) state. When the switch 7 approaches the switch 7, the switch 7 is turned on and the LED 5B is turned on. In this embodiment, since the switch contact that causes sparks is not exposed, an explosion-proof signal generator can be provided.

As shown in Fig. 6, for example, another terminal 2C to be attached to a connection fitting provided in an outlet for electronic office equipment, etc. is provided in the main unit 1A, and the terminal is inserted into the terminal 2C due to thermal deformation of the bimetal 4. If a voltage of 2 A is introduced, the voltage generated at the terminal 2 is used to supply the voltage to the outlet. Can be shut off directly or via a relay or timer relay.

FIG. 7 shows a modification of the embodiment shown in FIG. In the device shown in FIG. 7, the direction of each diode in FIG. 3 is reversed, and the resistor R in FIG. 3 is provided in a form divided into RB for each LED 5A, 58. A diode is connected between the anode of LED 5B and the cathode of LED 5A, with the cathode on the power side of LED 5A and the anode on the anode side of LED 5B. Are connected. According to this circuit configuration, when the bimetal 4 is in the off state, current flows through the LED 5A for confirming conduction through the resistor R and the diode D, and the LED 5A is lit. When the metal 4 is turned on, the alarm L Current flows through ED 5B via resistor R and diode D, and LED 5B lights red, and LED 5A turns off due to the action of diode DA. This example is characterized in that the LED 5A is turned off when the LED 5B is turned on by the action of the diode DA.

(H Example 2)

The conduction state confirmation signal generator of the second embodiment uses a change in characteristics of the germanium diode due to the temperature, instead of the opening and closing of the contact by the bimetal 4 of the first embodiment. Germanium diodes are inherently semiconductor devices whose characteristics tend to change with temperature, and the voltage at which forward current begins to flow is, for example, about room temperature.

The force is 0.2 V. When the temperature rises, the current starts to flow at a lower voltage. Therefore, as shown in FIG. 8, a germanium diode 9 is connected in series to the LED 5B via the variable resistor VR1. One lead wire 9a of the diode 9 is directly connected to, for example, one insertion terminal 2A so that heat of the insertion terminal is easily transmitted. This embodiment is almost the same as Embodiment 1 except for the electric circuit. An LED 5 A for checking conduction, a rectifier diode D 1 and a current limiting resistor R 1 are connected between the insertion terminals 2 A and 2 B, and a germanium diode 9 and a variable resistor VR 1 are connected in parallel with the LED 5 A. LED for alarm via 5B power <connected.

In the circuit of FIG. 8, when the insertion terminals 2A and 2B are inserted into a power outlet (not shown) and the power outlet is in a normal temperature state, the diode 9 is in a high resistance state. As a result, the LED 5B does not emit light, and a current flows only through the LED 5A for confirming conduction through the diode D1 and the resistor R1, and the LED 5A emits blue light. If the temperature of the power outlet rises abnormally due to, for example, an overcurrent, the heat is also fed from the insertion terminal 2A to the germanium diode 9 via the lead wire 9a, and the temperature rises. Germanium diode 9 temperature When the temperature rises above the set temperature, a forward current flows through the LED5B, and the alarm LED5B turns red. Note that the variable resistor VR1 is adjusted so that the diode 9 is in a high resistance state and the LED 5B is not lit at room temperature, and the diode 9 is energized, that is, the LED 5B is turned on when the setting exceeds '^'. It is provided.

Fig. 9 shows that the voltage is applied to the conduction confirmation LED 5A when the plug-in terminals 2A and 2B are inserted into the power outlet, and the LED turns on as described above. When the ford is turned on, it can drive a single appliance or multiple appliances with higher power. Therefore, in the embodiment of FIG. 9, when a forward current flows through the germanium diode, it is amplified by the power amplifying transistor TR.

In the embodiments up to FIG. 8, a half-wave rectifier circuit using a single diode D is used.In the embodiment in FIG. 9, however, the two-wave rectifier circuit is used to rectify the AC power obtained from the insertion terminals 2A and 2B. A rectifier circuit, that is, a ¾ ridge rectifier circuit D3 is used. The DC output terminal of the rectifier circuit D 3 is connected to a smoothing capacitor C via a current limiting resistor R 2, and a DC voltage is extracted from both terminals P and N of the capacitor C. The LED 5 A for checking conduction is connected between terminals P and N via a resistor R3. Between the terminals P and N, the diode power of the photocabra HC is connected via two germanium diodes 9 A and 9 B connected in series, and the output terminals of the diodes 9 A and 9 B are connected to the resistor R4 and the photokabra HC. Is connected to the base of the transistor TR via the phototransistor. An alarm sound generator such as an LED 5B, a buzzer (Bz) 6 and the like, and a solenoid 8 of a relay 8 are connected in parallel, and these are connected between terminals P and N via a transistor TR. Note that a current limiting resistor R5 is connected in series to the LED 5B. Here, two germanium diodes 9 A and 9 B connected in series are used to make the limit point at which the forward current starts to flow more prominently. These diodes are arranged in the vicinity of the insertion terminals 2A or 2B so as to be well affected by the heat.

In the circuit of Fig. 9, when the insertion terminal 2A or 2B is inserted into the power outlet, the LED 5A for confirming conduction lights up and emits light to fffe. At this time, the diodes 9A and 9B arranged near the insertion terminals 2A and 2B do not rise in temperature, and therefore, when these diodes are in the off state, the transistor TR is connected to the base. Does not turn on because no current flows. Therefore, LED 5B, buzzer 6 and relay 8 do not operate. When the temperature of the power outlet rises, the diodes 9A and 9B also rise in temperature via the insertion terminals 2A and 2B, and start flowing forward current. When current flows through the diodes 9A and 9B in the direction of jlll, the transistor TR is driven to the ON state via the photomask HC, whereby the LED 5B is turned on, and at the same time, the buzzer 6 generates an alarm sound and the relay 8 is excited. When the relay 8 is energized, for example, the main power supply circuit can be shut off by the contact. If it is not necessary to simultaneously turn on the LED 5B, generate an alarm sound from the buzzer 6 and open and close the contacts of the relay 8, they may be operated independently, and the combination of the LED 5B and the relay 8 may be used. Or any combination, such as a combination of buzzer 6 and relay 8. The germanium diode is the semiconductor element with the most remarkable temperature characteristics, but the other diodes such as silicon still change their characteristic force by heat, and such a diode is also a germanium diode. It can be used for the same purpose as the ford. Also in this case, it is better to incorporate an amplifier circuit for amplifying the diode output.

(Example 3)

Fig. 10 is a perspective view showing the internal configuration of the conductive state confirmation signal generator incorporated in the outlet with an additional number of insertion terminals to be attached to the power outlet, and Fig. 11 is its external view. In FIGS. 10 and 11, the outlet main body 10 is made of a molded product made of an insulating material such as a synthetic resin composed of a main body 1OA and a lid 10B. Have been. The surface of the lid portion 1OA is formed of a roof-like portion having a plug insertion hole 10a and a flat portion having a body window hole 10b.

The main unit 10 A is provided with a pair of secondary connection fittings 11 A and 11 B that are integrated with the primary insertion terminals 12 A and 12 B. At the both ends of the connection brackets 1 1A and 1 1B, the contacts 1 1a into which the insertion terminal 18a of the plug 18 attached to the tip of the electric appliance is inserted are for 2 ports. It is integrally formed in a V-shape. Furthermore, one secondary connection fitting 11A has a central portion of the bottom plate cut out, and a contact piece 15 is applied to this central portion while being insulated from the other secondary connection fitting 11B. It is attached, and when the insertion terminal 18a of the plug 18 is completely attached to the secondary connection fitting, it comes into contact with the tip force contact piece 15 thereof.

The contact end of the bimetal 14 is fixed to the main body 1 OA at the tip of the contact 13 by being fixed to the bent upper end of the contact piece 15 by the base force of the bimetal 14 or welding. It is separated at room temperature from 13a and comes into contact when the temperature rises. Furthermore, two LEDs 5A and 5B as luminous bodies are attached to the main body 10A with the luminous head facing upward. As the luminous body, a neon bulb, a glow bulb, a miniature bulb, or the like can be used as appropriate in addition to the LED. The bright heads of the LEDs 5A and 5B protrude from the window hole 10b of the lid 10B so that they can be seen from the outside.The diode D and the resistor connected in series in the outlet body 10 are connected in series. R force is built in. In addition, the bimetal 14 can also be directly fixed to the secondary connection fitting 11B, in which case the heat transfer to the bimetal 14 can be faster.

The contact piece 15 is electrically insulated from the secondary connection fitting 11 A integral with the insertion terminal 12 A, and the insertion plug 18 is completely inserted into the secondary connection fitting 11 A The tip of the insertion terminal 18a abuts on the contact piece 15 so that the secondary connection fitting 11A and the contact 13 are connected. Thus, this embodiment is different from the circuit of FIG. 3 only in that it is fixed to the bimetallic 14 force contact piece 15. Is almost identical to that of

When the insertion plug 18 of the electric device is completely inserted into the outlet for extra number attached to the power outlet (not shown), the end of the insertion terminal 18a of the plug 18 comes into contact with the contact piece 15, and the mi 5 Is at the same potential as the secondary connection fitting 11A, and the LED for conduction confirmation 5A is lit vigorously to turn blue. If the number of outlets increases due to overcurrent or other conditions, and the bimetal 14 power setting exceeds 設定, the tip of the bimetal 14 contacts the contact 13a of the contact 13 due to thermal deformation, and the alarm LED 5B Lights up and emits red light.

Note that, similarly to the first embodiment, a warning sound generator such as a piezoelectric buzzer may be sounded instead of turning on the LED 5B. An explosion-proof type in which the direct opening and closing of the bimetal 14 and the contact 13 can be opened and closed via a lead switch as in the example of FIG.

In addition, the main unit 10A is provided with another additional terminal that connects to the independent connection fitting of the outlet used for office electrical equipment (OA equipment). When the bimetal 14 comes into contact with the contact 13, the additional terminal is provided. When a voltage is applied to the power supply, a signal for shutting off the power supply circuit can be output directly or through a relay or a timer relay, etc., by a 1-1 circuit breaker or an electromagnetic contactor.

Further, instead of the bimetal 14 and the contact 13, the outlet for the additional number of ports with the confirmation signal generator of the third embodiment is replaced with a germanium diode 9 to 9 A as shown in the electric circuit diagram of FIG. 8 or FIG. , 9B is connected to the fitting 11B so that the rise can be transmitted directly, and the temperature characteristics of the germanium diode are used to make contact with the other lead wire of the germanium diode. It is also possible to turn on the LED 5B that is electrically connected to the piece 15 or to make two or three of the LED 5B, the buzzer 6, and the relay 8 to be simultaneously turned on.

Note that one lead wire of the germanium diode is fixed to the contact piece 15 and the other is The LED 5B may be electrically connected between the lead wire and the connection fitting 11B.

CU example 4)

FIG. 12 is a perspective view showing the inside of an embodiment of a socket with a conductive state confirmation signal generator which can be attached to a pillar or a wall or used as a portable type, and FIG. 13 is an external view thereof. In Figs. 12 and 13, outlet 20 is made of box-shaped product made of insulating material such as synthetic resin consisting of main body 2OA and lid 20B. The surface of lid 20B A plug insertion hole 2Oa and a window hole 20b for LEDs 5A and 5B are provided.

Secondary outlet fittings 21A and 21B having a pair of holding parts 21a at both ends are fixed in the outlet 20 side by side, and are connected to the secondary side fittings 21A and 21B. Is connected to two wires of the primary power cord 22 respectively. The contact pieces 25 A and 25 B are located directly below the holding portions 21 a on both ends of one secondary connection fitting 21 A while being electrically insulated from the secondary connection fitting 21 A. Are located. When the insertion terminal 18a of the plug 18 of the electric appliance is completely inserted into the holding portion 21a, the tip force contact piece 25A or 25B of the insertion terminal 18a is inserted. The secondary connection fitting 21 A and the contact piece are conductively connected by contacting the lower contact surface.

The base contact of the bimetal 24 is fixed to the bent upper end of the bimetal 24 by welding or the like, and the tip of the bimetal 24 is attached to the main body 20 A. A contact 23 having a contact 23 a, which contacts in an openable / closable manner, is fixed. Further, LEDs 5A and 5B are attached to the main body 20A in the same manner as in Embodiments 1 and 3, and a diode D and a resistor R are incorporated.

In addition, if the base of the bimetal 24 is directly connected to the secondary connection fitting 21B, an improvement in the heat transfer property to the bimetal 24 can be expected.

Instead of bimetal 24 and contact 23, use one of the germanium diodes The lead wire is connected to the secondary connection fitting 2 1 B so that the temperature rise is directly transmitted, and by utilizing the temperature characteristics of the germanium diode, the contact piece 25 A and the germanium diode are used. An electric circuit as shown in FIG. 7 or FIG. 8 for activating the hairpin generating means electrically connected to the other lead wire of the main body 20A can be incorporated in the main body 20A. Also, one lead wire of the germanium diode can be fixed to the contact piece 25A.

The fourth embodiment has almost the same function as the third embodiment, and thus the description of the operation is omitted.

Note that the confirmation signal generator of the fourth embodiment is applicable to a wall-mounted type outlet.

(Example 5)

In the fifth embodiment, the main unit 1A (Fig. 1) of the housing 1 of the conductive state confirmation ferrule generator for the outlets in the first and second embodiments and the main body of the outlet with an insertion terminal for increasing the number of ports in the third embodiment. When the insulating material such as the synthetic resin of Fig. 10 (Fig. 10) is exposed to high temperature for a long time, it is detected that a state in which leakage current occurs due to carbonization and deterioration or breakage of the electrical insulation. This is an embodiment in which a function of outputting a leak signal is added. Therefore, by adding the leak signal output function to the outlet conduction state check and signal generator described in detail so far, the electric power of the housing 1 or the outlet main body 10 that is exposed to high temperature due to temperature rise due to overcurrent etc. Large accidents such as fires due to insulation deterioration or destruction can be prevented.

FIG. 14 is a perspective view of an outlet in which the above-described leak signal output function is added to the type of confirmation signal generator inserted into the two-pole outlet shown in FIG. 1, and FIG. 15 is an electric circuit diagram thereof. Here, the same elements as those in FIG. 1 are denoted by the same reference numerals, and the description thereof will be omitted or simplified.

The lower end is buried at the approximate center between the pair of insertion terminals 2A and 2B, the base of which is fixed to the main body 1A of the housing 1 made of an insulating material such as synthetic resin, and the upper end protrudes. As shown, a second bimetal 34 is vertically planted. The bimetal 34 is configured to take a nearly vertical posture at room temperature and to lean forward at high temperatures. In the housing 1, a guide (not shown) is formed in the rear side of the bimetal 34 in a direction parallel to the terminals 2A and 2B, that is, in the left direction. The movable body 35 is movable on the guide. It is placed. The moving body 35 is made of an electric insulator such as a base light, has an engaging projection 35a formed integrally on the front side surface, and has a movable contact 36 or 1 mm attached to the front end surface. I have. The movable contact 36 is connected to one of the insertion terminals 2 A via a lead wire 37, and is constantly biased toward the fixed contact 38 by a spring 39. The bimetal 34 is always engaged with the force engaging projection 35a, and the spring force of the spring 39 is invalidated by the bimetal 34. The fixed contact 38 is connected to the leak hairpin output terminal 41 via a current limiting resistor R6.

In the confirmation signal generators shown in Figs. 14 and 15, when the insertion terminals 2A and 2B of the confirmation signal generator are inserted into the power outlet (not shown), the continuity confirmation LED 5A turns on and the Wfe emits light. I do. When the power outlet rises abnormally due to, for example, overcurrent, the heat is transmitted to the bimetal 4 through the insertion terminal 2A. When the temperature exceeds the bimetal 4 temperature setting temperature, the bimetal 4 force <deforms, the tip 4a comes into contact with the contact 3a of the contact 3, the LED 5B for alarm lights up, and the red LED lights _9 -t> o

The above is the same as the operation of the first embodiment. However, this embodiment is different from the first embodiment in that a function of outputting a leak signal described below is added.

For example, if the main body 1 of the housing 1 is exposed to high heat for a long time, the insulating material such as a synthetic resin material becomes strong and the insulation resistance is deteriorated or destroyed. As a result, between the insertion terminals 2 A and 2 B Leakage current or short-circuit current flows through the device, and the temperature of the insulation of the main unit 1 A rises. Due to this temperature rise, the temperature of the second bimetal 34 rises sharply, and when it exceeds the set temperature, its upper end changes as shown by the phantom line (two-dot chain line) in front of FIG. The movable body 35 moves forward by the spring force of the spring 39, and the movable contact 36 is pressed against the fixed contact 38. Thereby, the potential of the insertion terminal 2A is guided to the leak alarm output terminal 41 via the resistor R6 and can be used as a leak signal.

With this leak signal, the power supply can be cut off by operating a relay, a circuit breaker, or a magnetic contactor (not shown), or an alarm by light or sound can be generated from another alarm generating member.

In addition, since the moving body 35 is made of an insulating material, a leak signal can be taken out without energizing the bimetal 34.

After moving the moving body 3 5 forcefully by the メタル of the bimetal 3 4 and the leak signal is output, move the moving body 3 5 when the bimetal 3 4 returns to the normal temperature and engage the tip of the bimetal 3 4 with the convex part. It is preferable to provide a reset (not shown) to be engaged with 35 a on the lid 1 B side of the housing 1.

Fig. 16 shows an example of the leak signal output mechanism of the device shown in Fig. 15 with the addition of ¾ ^: a body-based leak alarm display circuit. Here, a conduction confirmation signal generator and an alarm signal generator are shown. Parts are omitted. In FIG. 16, LED 5 C is connected as a luminous body between the insertion terminals 2 A and 2 B via a resistor R 9 and a diode D 8, and the fixed contact 38 and the anode of the diode D 8 are connected to each other. The LED 5D and the resistor R8 are connected in series. Further, a diode D 7 force connection is made between the fixed contact 38 and the cathode of the LED 5 C. The fixed contact 38 connected to the leak alarm output terminal 41 via the resistor R6 is the same as in the case of FIG.

In the example of FIG. 16, only the LED 5C is always lit and emits blue light. When the temperature of the main body 1 A of the housing 1 rises, the bimetal 34 deforms to a force, disengages the engagement protrusion 35 a, and the movable contact 36 is fixed by the spring force of the spring 39. 8 Contact As a result, the LED 5C is turned off, the LED 5D is turned on and emits red light, and a leak signal is generated at the output terminal 41.

The LEDs 5C and 5D should be of a different color from the LEDs 5A and 5B to avoid confusion with the presence or absence of temperature rise at the plug-in terminals 2A and 2B. It is preferable to arrange them separately.

FIG. 17 shows a main part of a modification of the embodiment shown in FIGS. 14 and 16. Here, the signal generators for conductivity confirmation and alarm, that is, the ^! Circuits of LED 5A and LED 5B are omitted. The base is fixed to the main unit 1A of the housing 1. — Near the center of the pair of insertion terminals 2A and 2B, the lower end is buried in the main unit 1A, and the bimetal is set so that the upper end protrudes. It is planted vertically with 3-4 forces. The bimer 34 is configured to take a nearly vertical posture at room temperature and a forward inclination posture as shown by a two-dot chain line at a high temperature.The outer periphery of the upper end is covered with an insulating material. The fixed contact 4 3 is firmly fixed to the insertion terminal 2 A via the L-shaped bracket 44 with the axis of the device facing strongly. A long groove 1a is formed in the main body 1A at a position away from the insertion terminals 2A, 2B in a direction parallel to the insertion terminals. A movable contact 47 attached to one side of a tip 46 a of a lever 46 having a guide bin 45 or a roller at a rear end movably engaged with the long groove 1 a is a fixed contact 4 3. Contact freely. The other side of the tip 46 a engages the side of the tip of the bimetal 34 at room temperature. The base of the lever 46 is pulled to the lower left in the figure by the tension spring 48. When the bimetal 34 is not deformed forcefully, the tip of the bimetal 34 is engaged with the tip of the lever 46, and the base of the lever 46 is pulled by the spring 48 so that the movable contact 4 7 Are in contact with the fixed contacts 43 with a predetermined contact pressure. When the temperature of the main unit 1 A rises due to the leakage current between the plug-in terminals 1 A and 1 B, the electrical insulation force of the main unit 1 A of the housing 1 The part is deformed to the front side as shown by the virtual ϋ (two-dot chain line) 6. Disconnect from the side of the tip 46a. Then, the lever 46 that has lost the support of the distal end 46 a is guided by the pulling force of the spring 48 into the guide bin 45 provided at the base <the long groove 1 a, and when reaching the terminal end, the lever 46 is released. The end of the lever rotates counterclockwise around the end, and the tip of the lever is displaced in the direction of arrow Q, so that the movable contact 47 is separated from the fixed contact 43.

For this reason, a signal having the same potential as one of the insertion terminals 2 applied to the output terminal 41 for leak hair connection connected to the lever 46 and the lead wire 49 is cut off. Therefore, by using the signal applied to the output terminal 41 when the voltage signal is cut off, the power supply circuit can be cut off via a relay or the like or directly.

Note that the tip of the metal metal 34 is covered with an insulating material (not shown) so that a voltage having the same potential as that of the insertion terminal 2A is not applied. Further, a reset after the output of the leak signal can be provided on the lid 1B side.

FIG. 18 shows an embodiment different from the example of FIG. 15 to FIG. Here, as in FIGS. 16 and 17, the signal generators for conductivity confirmation and alarm, that is, the lighting circuits of the LEDs 5A and 5B are omitted. Two leak detection pins 51, 52 between the insertion terminals 2A and 2B of the main unit 1A of the housing 1 and the upper end protrudes almost vertically near the insertion terminals 2A and 2B, respectively. It is planted as follows. Between the upper ends of these two leak detection pins 51 and 52, for example, a piezoelectric buzzer is connected as a warning sound generator for leak warning via a rectifying diode D6 and a current limiting resistor R7. For example, an LED 54 is connected as a light emitter to the buzzer 53 via a resistor R7. The LED 54 is provided so that the luminous head protrudes from the window hole of the lid 1B of the housing 1 and is visible from the outside. The output side of the diode D6 is connected to a zener diode ZD having a zener voltage corresponding to the rated voltage of the piezoelectric buzzer 53. For the LED 54, select a different color, such as yellow, from the LEDs 5A and 5B for conductivity confirmation and alarm, and the buzzer 54 also has a different tone from the others. L, better to choose one.

In the circuit of FIG. 18, unless the electrical insulation property of the main body 1A of the housing 1 is deteriorated or destroyed, the LED 54 does not light up and the piezoelectric buzzer 53 does not sound. However, if the electrical insulation property is deteriorated or destroyed in the main body 1A, a leak 発生 from one insertion terminal 2A occurs in one leak detection pin 51, and the other leak detection pin 52 Leakage voltage from the other insertion terminal 2 2 occurs. This causes the buzzer 53 to sound at | ϊ] when the LED 54 turns yellow. As shown in Fig. 19, by connecting a constant current diode D7 in series with the rectifier diode D6 instead of the zener diode ZD, a commercial 100 V between the leak detection pins 51 and 52 can be connected. The piezoelectric buzzer 53 can be protected from an overcurrent even when a leak voltage close to is applied.

As shown in FIG. 20, even if a current limiting resistor R8 is connected in series with the diode D6, the buzzer 153 can be protected from overcurrent.

It is not always necessary to provide both the body such as the LED 54 and the alarm sound generator such as the buzzer 53, and only one of them may be provided.

Furthermore, as shown in Fig. 21, two leak detection pins.A diode D5 for rectification and a smoothing capacitor C1 are connected to the output side of 51 and 52, and a relay (Ry) is connected to the capacitor C1. 55 can be connected to energize the relay 55 when a leak voltage occurs. The contact output of the relay 55 may be used as a leak signal output and used for alarm or protection. In this embodiment, a Zener diode may be connected in parallel with the relay 55 in order to protect the relay 55 from overvoltage.

If a constant current diode D8 is connected in series with the diode D5 as shown in Fig. 22, even if a leak voltage close to 100 V is applied between the leak detection pins 51 and 52, the relay 5 5 can be protected from overcurrent. As shown in Fig. 23, a neon lamp 56 is connected between the two leak detection pins 51 and 52 via a current limiting resistor R9, and the two leak detection pins 51 and 52 are connected. The neon lamp 56 may be turned on when a leak voltage occurs in the battery.

The leak signal output device shown in FIGS. 15 to 23 described above is used in addition to the electrical conduction state confirmation signal generator for an outlet of the present invention. It can be used in any combination with the signal generators shown in FIGS.

The above-described leak signal output device together with the confirmation signal generator can also be added to the outlet with an additional number of insertion terminals to be inserted into the power outlet shown in FIGS. 10 and 11.

The outlet that can be mounted on a pole or wall, etc. as shown in Figs. 12 and 13 or that can be used as a portable type shall also have the leak signal output device described above together with a confirmation signal generator. Can be. In that case, a bimetal 34 or a leak detection pin 51, 52 may be provided between the secondary contact fittings 21A, 21B.

Fig. 24 and Fig. 25 show an example in which a leak signal output device different from the above is added to the outlet with a confirmation signal generator shown in Fig. 12 and Fig. 13. It is a perspective view and an outer perspective view. Here, the same members as those in FIGS. 12 and 13 are denoted by the same reference numerals, and the description thereof will be omitted or simplified. In FIG. 24, the conduction state confirmation signal generator is omitted.

In FIGS. 24 and 25, a pair of secondary connection fittings 21A and 21B having a holding portion 21a at both ends in the body 20 of the two-port outlet is provided with a pair of Leak detection plates 26 A, 26 B are provided in parallel with each other at positions near secondary connection fittings 21 A, 21 B, respectively. The leak detection plates 26A and 26B have a U-shape with bent portions 26a at both ends, and the upper end of the bent portion 26a is adjacent to the plug insertion hole 20a of the lid 20B. It is inserted so as to be embedded in the long hole 20 c, and the upper surface of the bent portion 26 a The portion 20B is almost flush with the upper surface.

As shown in the electric circuit of Fig. 24, connect the relay 55 to the output side of the rectifying and smoothing circuit consisting of the diode D5 and the capacitor C1 between the leak detection plates 26A and 26B. The outlet body 20 becomes hot and the electrical insulation around the plug insertion hole 20a of the lid 20B is reduced or destroyed, and the pair of leak detection plates 26A and 26B are connected to the secondary-side fittings. When a leak voltage is generated from 21A and 21B, the relay 55 is excited and the contact output is used as a leak detection signal.

According to the embodiment shown in FIGS. 24 and 25, around the pair of insertion terminals 18 a and 18 a of the insertion plug 18 of the electric appliance inserted into the plug insertion hole 20 a of the outlet main body 20. Cotton dust and dirt adhere to it and become moist with oil, water, etc., resulting in poor electrical insulation and a tracking phenomenon between the plug terminals 18a and 18a. Before this occurs, a leak voltage is generated in the nearby leak detection plates 26A and 26B, and the relay 55 is excited to generate a contact output. If the power supply circuit is cut off directly or indirectly by this contact output, the occurrence of fire due to the tracking phenomenon can be prevented.

Heat generated by the outlet and plug 18 due to overload current is highest at the contact between the holding part 21 a of the secondary-side fittings 21 A and 21 B and the insertion terminal 18 a of the plug 18. easy. Therefore, if the area around the plug insertion hole 20a of the lid 20B becomes carbonized due to heat and the electrical insulation resistance is reduced or destroyed, a leak current is likely to flow and the leak detection plate 26A, A leak voltage is generated at 26 B, and the power supply circuit is shut off via relay 55 as described above.

Fig. 26 shows that when a leak voltage is generated in the leak detection plates 26A and 26B, a small alarm sound generator such as a piezoelectric buzzer 53 or a bell is sounded, and the LED 54 for leak alarm is turned on. It was made. Either the alarm sound generator or the illuminant may be provided. The relay circuit portion of FIG. 24 is the same as the relay circuit portion of FIG. 21, and the leak alarm circuit portion of FIG. 26 is the same as the leak alarm circuit portion of FIG. 18, and the description thereof will be omitted. Further, the relay circuit portion of FIG. 24 can be the same as the relay circuit portion of FIG. Further, the electric circuit diagram in FIG. 26 can be the same as the leak alarm circuit in FIGS. 19 and 20.

24 and 26, the electric circuit diagram can be changed to a leak alarm circuit using a Neon lamp 56 shown in the electric circuit diagram of FIG.

Also, the leak signal output device of Example 5 does not necessarily need to be used in combination with the confirmation signal generator, and can be independent signal output devices. Nada example β)

Example 6 is an outlet with an insertion terminal having a function of generating a conduction state check signal and automatically shutting off a circuit, which is used as a connection power supply for an insertion plug of an electric appliance. FIG. 27 is a perspective view showing an example of the inside of the outlet, and FIG. 28 is an electric circuit diagram of a confirmation signal generating mechanism and a circuit automatic cutoff. 27 and 28, the outlet main body 60 is composed of a main body 6OA and a lid 60B, and is made of an insulating material such as a synthetic resin. Two window holes (not shown) are provided to make the bright heads of the LEDs 61A and 61B protrude so that they can be seen from the outside. The main unit 6 OA has a pair of primary insertion terminals 62 A and 62 B which are removably inserted into and detached from a bipolar power outlet. The base of the bimetal 64 is fixed approximately at the center of the other primary-side plug terminal 62B at a right angle to the parallel direction of the plug terminals (hereinafter referred to as "lateral direction") and at right angles to the primary plug-in terminal insertion / removal direction. ing. The bimetal 64 has a longitudinally long locking hole 64a at the tip, and when the temperature rises, the tip deforms so as to warp upward. A body guide (not shown) is provided at the center of the main body 6 OA, and a moving body 63 made of an insulating material such as synthetic resin can move along the guide in the horizontal direction. Noh is provided. The moving body 63 is located just below the tip of the bimetal 64 at room temperature, and a compression spring disposed between the projection 63 a and the ^ a 60 a of the main body 60 A. It is constantly urged by 65 in the direction of the lower left side in Fig. 27 (the right side in Fig. 28).

The movable body 63 has a vertical groove 63b or J on the side face near the front end, and the first movable end is movable in the horizontal direction within the width of the vertical groove 63b at the front end of the movable body 63. Contact 66 is provided. The first movable contact 66 is constantly in contact with the fixed contact 71 with a predetermined contact force by the compression spring 67. Thus, the second movable contact 68 having a smaller current capacity L is integrally provided right beside the first movable contact 66. The first movable contact 66 is connected to one insertion terminal 62 A by a relatively thick stranded wire 69.

The main body 6OA is provided with a first fixed contact 71 with which the movable contact 66 comes in contact with and detachable from the body, and a second fixed contact 72 with which the movable contact 68 comes in contact with and detachable from each other. The main body 60 A is provided with a pair of secondary side fittings 73 A, 73 B for insertion plugs 78, and one secondary side fitting 73 A is fixed first. The other secondary connection fitting 73 B is connected to the contact 71 and the other insertion terminal 62 B by a current plate, a connection plate or an electric wire, respectively.

The main body 6OA is provided with a movable reset pin 74 whose tip projects through the side plate 60b. The reset pin 74 is biased so that the rear end thereof always contacts the side surface of the projection 63 a of the moving body 63 by a spring 75 weaker than the spring 65 forming the moving body 63. I have.

On the upper surface of the moving body 6 3, an engaging pin 7 is detachably engaged with the locking hole 6 4 a of the bimetal 6 4, and is vertically implanted with a strong force, and a main body 6 OA of the reset pin 7 4 is provided. When the movable body 63 is moved against the force of the spring 65, and the separated first movable contact 66 is brought into contact with the first fixed contact 71, The moving body 63 is locked by engaging with the locking hole 64 a of the engaging pin 76 and the force bimetal 64. In this state, a normal state is established in which power is conducted between the secondary connection fitting 73A and the primary insertion terminal 62A. Performs the function of an outlet.

Inside the outlet main body 60, there is an LED 61A that turns blue, for example, for checking conduction, and turns on, for example, red when the secondary circuit is shut off, that is, when the secondary circuit is shut off. 6 1 B, current limiting resistors r 1 and r 2, rectifying diodes dl and d 2 are also arranged. These electrical components are connected as shown in Fig. _28c, that is, between the second fixed contact 72 and the primary insertion terminal 62B, the LED 61A, the resistance r1, and the diode dl LED 6 1 B, resistor r 2 and diode dl are connected between the one-side insertion terminals 62 A and 62 B, and between the second fixed contact 72 and the cathode of the LED 61 B. A diode d 2 is connected between them with a common cathode.

In the equipment shown in Figs. 27 and 28, if the outlet main body 60 rises due to an overcurrent, etc., and exceeds the bimetal 64 power set temperature, as shown by the phantom (two-dot chain line) in Fig. 27 The distal end force is deformed so as to warp upward, the locking hole 6 4a is disengaged from the engaging pin 76, and the moving body 63 is piled with the spring force of the spring 75 with the spring force of the spring 65. Move and move from the first movable contact 6 6 Force away from the first fixed contact 7 1 to cut off the connection between the primary insertion terminal 6 2 A and the secondary connection fitting 73 A. Then, when the temperature of the bimetal 64 drops to room temperature, simply press the reset bin 74 again manually, and as described above, the primary insertion terminal 62 A and the secondary connection bracket 73 A become conductive, The function as an outlet can be restored.

The operation of this electric circuit will be described in more detail. In the normal conductive state, which satisfies the normal function as an outlet, the contact pairs 66Z71 and 68Z72 are closed, and the action of the diode d2 does not turn on the LED 61B. LED 61 A only Power <Emit blue light. When the bimetal 64 deforms due to the rise in the temperature of the outlet main body 60 and the above two contact pairs open, the LED 61A goes off, only the LED 61B turns on vigorously and emits red light. The second contact pair 6 8/7 2 is in a state where the secondary circuit power is cut off This is provided to prevent a weak voltage from appearing through the signal generation circuit between the secondary connection fittings 73A and 73B.

FIG. 29 is a perspective view showing the inside of a socket with a plug terminal of a type in which the plug 78 of the electric appliance is inserted from the lateral direction (the plug terminals 62A, 62B parallel direction), and FIG. FIG. 9 is a perspective view showing the inside of an outlet with an insertion terminal of a type in which an insertion plug 78 of an appliance is inserted from above. Where the two types of outlets with plug-in terminals with different plug insertion directions differ from the outlets with plug-in terminals in Fig. 27, the secondary connection fittings 79A, 79B (Fig. 29) or 8OA, In order to avoid the difference in the connection structure between the first fixed contact 71 and the other primary side insertion terminal 62B due to the difference in the mounting position of 80B (Fig. 30) and the interference due to the difference in this mounting position. The only difference is that the reset bin 84 has been changed, and the other components are the same. The reset pin 84 is vertically implanted on the upper surface of the protrusion 63 a of the moving body 63. A long hole (not shown) in the lateral direction (moving direction of the moving body 63), through which the upper end of the reset pin 84 penetrates and protrudes, is formed in the lid 60 B of the outlet main body 60.

In the above, all descriptions have been given of a single outlet in which only one pair of holding parts for the secondary connection fittings are provided. However, as shown in Fig. 31, two pairs of holding parts 8 la and 8 1a arranged in a V shape It is also possible to use two-way secondary connection fittings 8 1 A, 8 IB with a three-port outlet with three sets of clamps or a four-port outlet with four sets of clamps. And so on.

(Example 7)

Embodiment 7 Embodiment 7 is a fixed type or portable type outlet mounted on a wall, a pillar, a desk, or the like and having a function of generating a conductive state confirmation signal and automatically shutting off a circuit.

FIG. 32 is a perspective view showing an example of the internal structure of the outlet, and the same parts as those in the sixth embodiment are denoted by the same reference numerals and description thereof will be omitted or will be simplified. The outlet main body 83 is made of a material such as synthetic resin comprising a main body 83 A and a lid (not shown), and the lid (not shown) has two sets of plug insertion holes and an LED 6 as a light emitter. There is a window hole for 1 A, 6 1 B. The main body part 83 A of the outlet main body 83 is provided with a pair of primary connection terminals 85 A and 85 B for connecting an electric wire 84 from a household power supply, and the primary connection terminals 85 A and 85 A are provided. A guide (not shown) in the terminal parallel direction (lateral direction) is provided near 85B. A moving body 63 similar to that of Example 6 is provided so as to be movable along this guide. The moving body 63 is constantly urged by the compression spring 65 toward the lower right side in the figure.

The moving body 63 has a vertical groove 63b on the side surface of the distal end. The first movable contact 66 is formed at the end of the moving body 63 so that it can move laterally within the width of the vertical groove 63b. Is provided, and a contact spring 67 acting on this is provided. The first movable contact 66 is connected to one primary connection terminal 85 A by a relatively thick stranded wire 69, and a second movable contact 68 is provided beside the first movable contact 66. ing.

A first movable contact 66, a first fixed contact 71 freely contacting, and a second fixed contact 72, freely contacting the second movable contact 68, are fixed to the main body 83A. In addition, two pairs of secondary connection fittings 86 A and 86 B integrally having holding parts 86 a and 86 b at both ends adjacent to the moving body 63 are fixed in parallel with each other. One secondary connection fitting 86 A is connected to the first fixed contact 71 by a connection fitting or wire 8 7 having a large current capacity, and the other secondary connection fitting 86 B is a similar connection fitting or wire 8 A. 8 is connected to the other primary connection terminal 85B.

Secondary metal fittings 86 A and 86 B, the bimetal 89 in the center between the moving body 63 a and 86 b on the moving body 63 side, and at room temperature perpendicular to the moving direction of the moving body 63 The base is fixed such that the tip is adjacent to the upper surface of the moving body 63. At the tip of the bimetal 89, a long locking hole 89a is formed in the longitudinal direction, and an engaging pin is provided on the upper surface of the moving body 63 to engage with the locking hole 89a so as to be freely detachable. Seven and six are planted vertically. The bimetal 89 is pressed into contact with the first fixed contact 71 by the spring force of the first movable contact 66, the force contact spring 67, and the second movable contact 68 is in contact with the second fixed contact 72. Accordingly, the locking hole 89a at the distal end is engaged with the engagement pin 76, and the moving body 63 is locked. When the temperature inside the outlet main body 83 rises due to overcurrent or other causes and the temperature of the bimetal 89 exceeds the set value, the tip of the bimetal 89 changes its shape so that it warps upwards, and the locking hole The moving member 63 is displaced by the force of the spring 65 in a direction away from the first fixed contact 71. Due to the displacement of the moving body 63, the first movable contact 66 is separated from the first fixed contact 71, and at the same time, the second movable contact 68 is separated from the second fixed contact 72, and the primary connection terminal 85A is connected. While the connection between the secondary connection brackets 86A is cut off, the blue LED 61A, which had been lit up until now, goes off, and the red LED 61B turns on instead, indicating that the circuit has been cut off. I do.

In order to restore the interrupted circuit, after the 手動 of the outlet main body 83 has dropped to room temperature, the reset pin 94 is manually engaged with the moving body 63 and the engaging pin 76 is inserted into the locking hole 89a. Just move until it engages.

(Example 8)

Embodiment 8 In Embodiment 8, the electrical connection device of the present invention is applied to a plug-in plug having an electrical conduction state confirmation signal generation and a circuit automatic shut-off mechanism attached to the tip of a power supply cord such as an electric appliance or a power strip.

FIG. 33 is a perspective view showing the inside of the insertion plug. The plug main body 90 is formed of an insulating material such as a synthetic resin composed of a main body part 9 OA and a lid part 90 B, and a pair of primary-side insertion terminals 62 A and 62 B are fixed to the main body part 90 OA. Have been.

In the plug body 90, the same bimetal 64, the moving body 63, the first movable contact 66, the second movable contact 68, the first fixed contact 71, and the second fixed contact 72, which are the same as in the sixth embodiment, are provided. When the temperature of the bimetal 64 rises above the set value, the locking hole 64 a at the distal end separates from the engaging pin 76 on the upper surface of the moving body 63, and the spring 65 By spring force The movable body 63 moves to move the first movable contact 66 away from the first fixed contact 71, thereby opening one of the primary insertion terminals 62A and the first fixed contact. At the same time, the second ^ »contact point 6 8 is separated from the second fixed contact point 72, and the LED 61A is turned off and the red LED 61B is turned on.

Example 8 differs from Example 6 (Fig. 27) in that a power supply wire 92 such as an electric appliance is connected to the main body 90A instead of the secondary connection fittings 73A and 73B. A pair of secondary connection terminals 9 1 A and 9 1 B are mounted, one secondary connection terminal 9 1 A is connected to the first fixed contact 7 1, and the other secondary connection terminal 9 1 B is where the plug terminal 62B is connected to the ¾ metal fittings or the current capacity by the electric wire. The other corresponding parts are denoted by the same reference numerals and description thereof is omitted.

If the plug plug of this embodiment is used for electrical appliances such as electric heaters with a relatively large current capacity, it is possible to prevent a fire accident from occurring due to overheating of the power outlet due to overcurrent. Can be. Also, if it is used as an insertion plug for a multi-port outlet for increasing the number of ports such as a table tap, it is possible to prevent a fire accident due to an overcurrent caused by octopus foot wiring or the like.

(Example 9)

In the ninth embodiment, a safety mechanism for preventing a tracking phenomenon, that is, an electrical short circuit due to insulation breakdown between the insertion terminals, is added to the outlet with an insertion terminal of the sixth embodiment or the plug of the eighth embodiment.

FIG. 34 is a perspective view of the outlet of Example 6 (FIGS. 27 to 31) viewed from the back side (the primary-side insertion terminal side). In Fig. 34, a slit 60c is formed in the center of the outlet main body 60 or the plug main body 6OA at the center of the primary insertion terminals 62A and 62B at right angles to the terminal parallel direction. It is provided with a slide 93 so that it can move along 0 c. The tip of the slide 93 is newly formed on the side surface of the moving body 63 by the pressing force of the compression spring 94 provided between the slide 93 and the wall of the main body 6 OA. Abuts on the locking portion 63c.

The slide 93 is movable in a direction perpendicular to the lateral movement of the moving body 63, and a locking hole 64a of a bimetal 64, not shown, is engaged with an engaging pin 76 on the upper surface of the moving body 63. When the first movable contact 66 and the first fixed contact 71 are engaged and the first fixed contact 71 is closed, and the temperature of the bimetal 64 rises, the locking hole 64a is disengaged from the engaging pin 76 and the spring is released. The position of the slide 93 in the slit 60c changes between when the movable body 63 moves with the spring force of 65 and the first movable contact 66 and the first fixed contact 71 are open.

Now, cotton dust and the like accumulate between the primary-side insertion terminals 62A and 62B temporarily inserted into the power outlet, and the cotton dust becomes an electric conductor containing moisture such as water or oil. If this happens, leakage current will flow between the primary insertion terminals 62A and 62B, and the resulting heat will create a bypass in the main body 60A due to destruction. Cause. When the bimetal is deformed by heat due to such tracking and the secondary circuit force is cut off, the slide moves as described above and its position force changes, and the part where insulation is not broken is the body part. 6 Blocks the bypass path formed by insulation breakdown in the OA, and prevents leakage between the insertion terminals 62A and 6.2B after the secondary circuit is shut off.

In order to move the slide 93, the locking member of the slide 93 is disengaged from the movable body 63 by the lateral movement of the movable body 63, and the slide 93 is largely moved by the spring force of the spring 94. You may do so.

Further, the tracking prevention mechanism of the ninth embodiment is not limited to being added to an outlet with an insertion terminal or an insertion plug that shuts off the secondary circuit as in the sixth or eighth embodiment. Unlike in the case of gas leak alarms, which are often left behind after an alarm because they believe that the alarm function will be activated after the power is cut off, in this embodiment there is no fear of heat generation due to overcurrent. If it is not necessary to cut off the secondary circuit mm, the heat generated by tracking will deform the The slide 93 may be moved directly or indirectly by releasing the stop.

In order to prevent the electrical bypass formed by the dielectric breakdown between the insertion terminals, it is not necessary to limit the sliding of the slide 93 of ± ^ to the longitudinal movement of the slide 60 c. It may be structured to move in the depth direction of 60 c. The slit 60c may be left open at all times, but may be closed by an openable door and opened when necessary.

(ϋExample 10)

In the tenth embodiment, a thermal fuse is added to an outlet with a plug-in terminal having a conduction state check, signal generation and automatic circuit shut-off mechanism of the sixth embodiment, and the automatic circuit shut-off mechanism is cut off by a bimetallic 64. And a double safety structure by blowing the fuse 70.

Fig. 35 is a perspective view showing the inside of the outlet with plug terminal having the above-mentioned double safety structure. It is almost the same as that of Fig. 27 of the sixth embodiment, and the same members are denoted by the same reference numerals. The explanation is omitted and only the differences are explained.

—Fuse mounting brackets 6 2a and 7 3a are fixed to the secondary insertion terminal 6 2 Β and the secondary side mounting bracket 7 3 それぞれ, respectively, and both temperature fuse mounting brackets 6 2a and 7 3 A temperature fuse 70 is removably mounted between a by small screws. Temperature The fusing temperature of the fuse 70 is 5 from the circuit cutoff temperature of the bimetal 64. C: force set higher by about 10 ° C. <preferable. By giving priority to the circuit breaking operation by the bimetal 64 as described above, it is possible to reduce troublesome replacement work of the thermal fuse 70. Unexpected abnormality that the first movable contact 66 and the first fixed contact 71 are not opened without the bimetal force for some reason when the temperature rises beyond the temperature of the bimetal 64, which is the temperature of the outlet body 60. Even if an emergency occurs, the temperature fuse 70 blows when the temperature exceeds the allowable temperature of the temperature fuse 70, and the primary side is inserted. Since the force between the secondary terminal 62B and the secondary-side connector 73B is cut off, a major accident such as deterioration of electrical insulation due to carbonization of the outlet body 60 or fire caused by blasting may occur. It can be prevented beforehand.

FIG. 36 is an electric circuit diagram of an outlet with a plug terminal having a double circuit interruption of ± ^, which is almost the same as that of FIG. 28 of Example 6, and only different points will be described.

The secondary end of the thermal fuse 70 between the primary insertion terminal 6 2 B and the secondary connection fitting 7 3 B, that is, the connection end with the secondary connection fitting 7 3 B is signaled via TO a. This is connected to the diode dl of the power generation circuit. Therefore, when the thermal fuse 70 is blown, the voltage applied to the conduction status confirmation signal circuit is cut off, and both the LED 61 A for conduction confirmation and the red LED 61 B for confirmation of circuit interruption are lit. Since it becomes easy to do so, it can be determined that the thermal fuse 70 has blown unless it is confused with a power failure or a power breaker force <^.

The thermal fuse 70 may be provided between the first fixed contact 71 and one of the secondary connection fittings 73 A, or between one insertion terminal 62 A and the first movable contact 66. However, in this case, it is not possible to tell whether the thermal fuse has blown by displaying the confirmation signal.

FIG. 37 shows an example of an outlet with a plug terminal having a double circuit breaking mechanism of a type in which the plug 78 is inserted in the horizontal direction, that is, in the parallel direction of the plug terminal on the primary side. It is almost the same as the one described, and only the differences are explained.

The thermal fuse mounting bracket 6 2 b is fixed to the primary insertion terminal 6 2 B, and the thermal fuse mounting bracket 7 9 a is also provided integrally with the other secondary side mounting bracket 79 B facing sideways. The thermal fuse is mounted between the two thermal fuse mounting brackets 6 2 b and 79 a so that it can be attached and detached with a small screw. Secondary end of thermal fuse 70 In addition, the lead wire b of the confirmation signal circuit is strongly connected to the connection end with the secondary side connection bracket 79 B, and as described above, if the temperature fuse is blown or blows out, the applied voltage to the confirmation signal circuit is cut off strongly. As a result, both the blue LED 61A and the red LED 61B are turned off. FIG. 38 shows an example of an outlet with a plug-in terminal having a double circuit breaking mechanism in which the plug 78 is inserted from above. The difference from FIG. The temperature fuse mounting bracket 62c is fixed to the side insertion terminal 62B by force, and the temperature secondary mounting bracket 80a is also fixed to the other secondary connection bracket 80B. A thermal fuse 70 is removably mounted in between with small screws.

When the thermal fuse 70 is blown, the voltage applied to the confirmation signal circuit is cut off, and both the blue LED 61A and the red LED 61B do not light.

Fig. 39 shows an example of a two-port outlet with a plug-in terminal with a double circuit-breaking mechanism in which the plug 78 is inserted diagonally from above. A temperature fuse 70 is installed between the insertion terminal 62B and the other secondary-side fitting 81B via the temperature fittings 62d and 81b, and a confirmation signal is output when the temperature fuse 70 is blown. The voltage to the circuit is being cut off.

Note that Fig. 39 shows an example of a two-port outlet with a plug-in terminal, and it is also possible to configure a three-port or four-port plug-in receptacle with a double-circuit shut-off mechanism.

In each of the embodiments shown in FIGS. 37, 38 and 39, the thermal fuse 70 is connected between one of the secondary connection fittings 79A, 8OA, 81A and the first fixed contact 71, or one of the first movable contacts 66. May be provided between the primary side insertion terminal 62A. However, in this case, the temperature fuse blowout cannot be identified by the confirmation signal display. (Example 11) Embodiment 11 In Embodiment 11, the electrical connecting device of the present invention is applied to an outlet which is mounted on a wall, a pillar, a desk, or the like and has a fixed or portable conductive state checking signal generation and double automatic circuit shutoff.

Fig. 40 is a perspective view showing the inside of an outlet having a double-circuit automatic shut-off mechanism, which is almost the same as Fig. 32 of Example 7; .

The temperature fuse mounting bracket 85 a is provided integrally with the primary connection terminal 85 b for connecting 84 from the household power supply, and this fuse mounting bracket 85 a and a pair of two-port A thermal fuse 70 is detachably attached to the secondary-side connection bracket 86B with small screws.

The fusing temperature of the thermal fuse 70 is preferably set to be higher by 5 ° C. to 10 ° C. than the circuit cut-off temperature of the bimetal 89 in the same manner as in the tenth embodiment. By giving priority to shutoff, it is possible to reduce the troublesome work of replacing the fuse 70 and obtain a double safety effect. The confirmation signal circuit is connected via the wire c to the secondary end of the temperature fuse 70, that is, the connection end to the secondary connection bracket 86B, and is confirmed when the thermal fuse 70 is blown. The voltage applied to the signal circuit is cut off, and both the blue LED 61A for confirming conduction and the red LED 61B for confirming circuit interruption, for example, are turned off, so it is determined whether the thermal fuse 70 has blown. be able to.

The thermal fuse 70 is provided between the first fixed contact 71 and one of the secondary connection fittings 86 A, or between the first movable contact 66 and one of the primary connection terminals 85 A. You can also. In this case, it is not possible to tell whether the thermal fuse has blown by displaying the confirmation signal.

(Example 12)

Embodiment 12 In the embodiment 12, the electric connecting device of the present invention is used as a power cord such as an electric appliance or a power strip. This is applied to an insertion plug which is used by being attached to the tip of a plug and has a conduction state confirmation signal generation and double circuit means (2).

FIG. 41 is a perspective view showing the inside of a plug having double circuit interruption of J ^, which is almost the same as that of FIG. 33 of Example 8, and the same members are denoted by the same reference numerals. Description is omitted.

Fuse mounting brackets 6 2 e, 9 are attached to one of the pair of primary-side insertion terminals 6 2 B and one of the pair of secondary-side connection terminals 9 1 B provided on the main body 9 of the plug body 90. 1a is fixed respectively, and a fuse 70 is detachably provided between the fuse mounting brackets 62e and 91a by a small screw.

The confirmation signal circuit is connected to the secondary side end of the thermal fuse 70, that is, the secondary connection terminal 91B by the electric wire d, and when the thermal fuse 70 is blown or blows, the applied voltage of the electrical circuit of the confirmation signal is cut off. , Both the blue LED 61A and the red LED 61B turn off.

If the confirmation signal disappears in a state where the circuit force is cut off and the secondary side is no longer energized, it can be determined that the thermal fuse 70 has blown, and the thermal fuse 70 Can be replaced. .

The fusing temperature of the thermal fuse 70 is set about 5 ° C to 10 ° C higher than the circuit cut-off temperature of the bimetal 64 as in the case of the examples 10 and 11, so that troublesome replacement of the thermal fuse can be performed. It is better to reduce it.

The thermal fuse 70 may be provided between the primary insertion terminal 62 A and the first movable contact 66 or between the first fixed contact 71 and the secondary connection terminal 91 A. However, in this case, it is not possible to judge whether the thermal fuse has blown by displaying the confirmation signal.

(Example 13)

Embodiment 13 relates to a case where the electrical connecting device of the present invention is used for connecting plugs for electrical equipment and the like. This is applied to an outlet with a plug-in terminal, which has the function of generating a conduction state confirmation signal and automatically shutting off the circuit used as a power source.

FIG. 42 is a diagram showing an example of the inside of such an outlet with an insertion terminal, and FIG. 43 is an electric circuit diagram thereof.

The outlet main body 60 is a box body made of an insulating material such as a synthetic resin composed of a main body 6 OA and a lid (not shown), and the luminous heads of the LEDs 61 A and 61 B are externally provided on the lid. A window hole that can be seen is provided, and a long hole is provided in the main body 6OA and the lid to insert a not-shown plug into the secondary-side fittings 99A and 99B.

A pair of primary insertion terminals 62A and 62B are fixed to the main body 60A, and 62 f of temperature-use fittings are fixed to the primary insertion terminal 62A. In addition, a pair of secondary connection fittings 99 A and 99 B are arranged on the main body 60 A side-by-side in the parallel direction of the primary insertion terminals, and one secondary connection fitting is provided. A fitting 99 a is also fixed to 99 A, and the other secondary connection fitting 99 B is connected to the other insertion terminal 62 B. A temperature fuse 70 is detachably mounted between the two temperature fuse mounting brackets 62 f and 99 a with small screws. When the temperature of the outlet of the outlet having the insertion terminal configured as described above exceeds the melting temperature of the fuse 70, the thermal fuse 70 is melted and one side of the circuit is cut off.

The part of the confirmation signal generation circuit shown in the upper part of Fig. 43 is the same as that of Fig. 28 of the sixth embodiment, and the potential of the secondary-side fitting 990Α is led to the anode of the LED 61B on the other hand. On the other hand, it is led to the anode of the LED 61 and the diode d2 via the thermal fuse 70 and the primary-side plug-in terminal 62A. The potential of the secondary-side connection fitting 99B is guided to the cathode of the diode d1 via the primary-side insertion terminal 62B.

In this circuit, the red LED 61B is not lit by the action of the diode d2 in the normal conduction state, and only the blue LED 61A for conduction confirmation is lit. When the temperature of the outlet with insertion terminal rises and the SJ ^ fuse 70 blows, the applied voltage to the LED 61A is cut off and the blue diode 61A turns off, and the circuit cutoff is confirmed instead. Red LED 6 1 B lights up. Therefore, if the red LED 61B lights up, it is necessary to judge that the fuse 70 has blown and replace the thermal fuse 70.

In addition, the electric circuit of the confirmation signal may be reversed left and right, and the fuse 70 may be provided between the insertion terminal 62 Β and the secondary-side fitting 73 Β.

Example 13 Confirmation signal of 3 and automatic shut off of circuit by thermal fuse; outlet with insertion terminal with ^! Is fixed to wall or pole etc. 等 is applicable to portable outlet such as table top It is.

This example is not limited to single-type outlets with plug-in terminals as shown in Fig. 42, but can be fixed to two-, three-, or four-port outlets with multiple plug-in terminals or to a wall or pole It is also applicable to portable or portable outlets.

(Example 14)

Example 14 is an at least one-port outlet having a function of generating a signal for confirming connection of a fixed power supply and automatically shutting off a circuit by using the electrical connection device of the present invention mainly embedded in a wall (illustrated example). Fig. 44 is a perspective view showing its internal structure, Fig. 45 is a perspective view showing its appearance, and Fig. 46 is its electrical circuit diagram.

The outlet main body 101 is a box body made of an insulating material such as a synthetic resin, which includes a main body part 101 embedded in a wall and a lid part 101B that goes out of the wall. Outlet The main unit 101 of the main unit 101 has a pair of primary connection terminals 85 A and 85 B for connecting the drawer 102 from a household power supply, and a primary connection terminal. A moving body 103 is provided near 85 A and 85 B so as to be movable along a guide (not shown) in the parallel direction (lateral direction) of the primary connection terminals. The moving body 103 is always left on the left side in FIG. 46 by the spring 65, and a groove 103b in the front-rear direction is formed on the top surface of the tip. The first movable contact 66 is provided so as to be able to move in the lateral direction within the width of the front-rear groove 103 b. The first movable contact 66 is relatively thick, and is connected to one primary connection terminal 85 A by a stranded wire 69. The second movable contact is provided on the first movable contact 66. The first fixed contact 71 and the second movable contact 68 freely contact the first movable contact 66 on the main body 101A. The fixed contacts 72 are respectively fixed.

The moving body 103 has a locking groove 103c in the front-rear direction formed on the lower surface of the central portion. Under the moving body 103, the locking claw 103c is formed in the locking groove 103c. A locking lever 104 with pawls with which 4c is detachably engaged is provided so as to be swingable by a pivot pin 105. The locking lever with claw 104 is configured so that the claw portion 104a of the tip is always engaged with the locking groove 103c of the moving body 103 by the spring 106.

The magnet 107 is fixed directly below the tip claw 104a of the locking lever 104 with a claw, with the suction surface facing upward. As shown in Fig. 46, the magnet 107 has a first electromagnetic coil 107a and a second electromagnetic coil 107b wound around a common iron core 107c. Or, when both electromagnetic coils are excited, the tip claw portion 104 of the locking lever 104 with a claw is retracted to release the locking of the moving body 103, and the first movable contact 66 and the (2) The movable contact 68 is separated from the first fixed contact 71 and the second fixed contact 72 to cut off the circuit. A reset pin 84 is implanted on the front surface of the moving body 103, and the tip of the reset pin 84 protrudes from the oblong hole 101f of the lid 101B. If the moving body 103 is moved to the right in Fig. 46 with 4, the claw portion 104a of the locking lever 104 with the claw can easily be engaged with the locking groove 103c. Can be returned to the conductive state. The main body 103A has a pair of two-port secondary-side fittings 86A, 86B with clamping parts 86a, 86b at both ends under the magnet 107, respectively. Fixed to ¹ . One of the secondary connection fittings 86 A is connected to the first fixed contact 71 by a large current capacity ¾ ^ metal fitting or wire 87, and the other secondary connection fitting 86 B is connected to the other primary connection It is connected to the metal fitting 85B via the thermal fuse 70.

Further, a pair of leak detection plates 26 A, 26 B are provided in a state of being insulated parallel to each other at a position close to each of the connection fittings in the middle of the secondary connection fittings 86 A, 86 B. . The leak detection plates 26 Α and 26 コ have a U-shape with bent portions 26 a at both ends, and the tip of the bent portion 26 a is inserted into the plug insertion hole 101 a of the lid 101 B. It is inserted so as to be buried in the adjacent elongated hole 101c, and the distal end surface of the bent portion 26a is substantially flush with the upper surface of the lid portion 101B.

As shown in the electric circuit diagram of FIG. 46, one leak detection plate 26 A is connected to one end of a smoothing capacitor c 1 via a rectifying diode d 3, and the other leak detection plate

6B is connected to the other end of the smoothing capacitor c1 via a protection circuit including a fuse f2 and a thermal fuse 70b. A rectifying and smoothing circuit is formed by the diode d3 and the capacitor c1. 2nd electromagnetic coil 1 0 in parallel with capacitor c 1

7 b is strongly connected.

An L-shaped fitting 108 is fixed to the lower part of the main body 101 A at the center of the secondary connection fittings 86 A and 86 B. This hook-shaped bracket 108 is connected to the other primary-side connection terminal 85B. The bimetal 109 is fixed vertically and downward to the L-shaped bracket 108 by force, and the third fixed contact 110 is fixed at a position corresponding to the tip of the bimetal 109. At normal temperature, the tip of the bimetal 109 separates from the third fixed contact 110, and contacts the third fixed contact 110 when the temperature exceeds the set temperature.

At the end of the L-shaped bracket 108, for example, a coiled spring 11 1a tightly wound or a vibration detector 1 1 1b with a pendulum 1 1 1b at the lower end of a flexible material such as a thin piano wire Below The pendulum 1 1 1b has a gap in the vibration detection hole 1 1 2 that is larger than the diameter of the pendulum 1 1 1b that is suspended in Through. A smoothing capacitor c2 is connected in parallel to the first electromagnetic coil 107a, and one end of the capacitor is connected to a third fixed contact 1 through a rectifying diode d4, a '^ fuse 70a, and a fuse f1. 10, and the other end is connected to the first fixed contact 71, that is, to the secondary-side fitting 86A. Also here, the fuse 703 and the fuse f1 form a protection circuit. The fuses f 1 and f 2 are current fuses that blow when a current of a predetermined value or more flows.

The rectifying / smoothing circuit from the diode d3 and the capacitor c1, or the rectifying / smoothing circuit from the diode d4 and the capacitor c2, the magnet 107 attracts the locking lever with a claw 104 to form a secondary circuit. If it shuts off, there is no need to maintain the suction force, so there is no problem even if it is removed. Also, it is not always necessary to provide a protection circuit consisting of fuses fl and 70a or a protection circuit consisting of fuses f2 and 70Ob, and it is necessary to provide stable operation and higher safety. It is provided to obtain. In each of the protection circuits, it is not always necessary to provide both the current fuse and the temperature fuse, and the protection circuit may include only one of them.

In the circuit of Fig. 46, when the temperature of the bimetal 109 rises above the set temperature and the tip comes into contact with the third fixed contact 110, or due to vibration such as an earthquake or explosion, the pendulum 1 1 1 When b contacts the inner surface of the vibration detection hole 1 1 2, that is, the third fixed contact 1 110, the power supply voltage is applied to the first electromagnetic coil 10 Ί a and the magnet 107 becomes a locking lever with a claw 1 Pull in the tip claw 104a of 04 and release the locking of the moving body 103 to cut off the circuit. As a result of this circuit interruption, the voltage supply to the first electromagnetic coil 107a was cut off, so that the house tilted and the pendulum 1 1b contacted the inner surface of the vibration detection hole 1 1 2 during a large earthquake, for example. It is safe to leave.

For example, by plugging in the lid of the outlet main body 101 by tracking When the electrical insulation around the hole 101a is deteriorated or destroyed, and leakage voltage leaked from the secondary connection fittings 21A, 21B occurs in the leak detection plates 26A, 26B Also, the magnet 107 is excited by the second electromagnetic coil 107 b to release the lock of the moving body 103 and cut off the circuit.

As shown in the circuit diagram of Fig. 46, a piezoelectric buzzer is provided between a pair of leak detection plates 26A and 26B via a rectifying / smoothing circuit (diode d3 and capacitor cl) and a diode d6 if necessary. A small warning sound generator such as 53 and a body such as an LED 54 for yellowing a leak warning are electrically connected. A current limiting resistor R 7 is connected in series to the LED 54. It is preferable to connect a zener diode ZD for overvoltage protection to the LED 54 and the piezoelectric buzzer 53 in parallel. As shown in Fig. 45, the lid 101B has a window hole 101d that allows the bright head of the LED 54 to be seen from the outside, and multiple holes for outputting the sound of the piezoelectric buzzer 53 to the outside. The small hole of 101 e is drilled.

The confirmation signal generation circuit shown in the upper part of FIG. 46 has the normal conductive state, that is, the moving body 103 is force-locked, and the first movable contact 66 and the second movable contact 68 are respectively the first fixed contact 7. In the conductive state in contact with the first and second fixed contacts 72, the conductive-confirmation LED 61A is turned on, for example, to Wfe. When the moving object 103 is unlocked and the contact force of the above contacts is released and the circuit power is interrupted, the blue LED 61A turns off and the LED 61B for confirming circuit interruption is replaced by the blue LED 61A. Lights up and emits red light, for example. When the thermal fuse 70 is blown, the power of both LEDs 61A and 61B is completely shut off, and both LEDs are turned off. The LEDs 61A and 61B have a bright head protruding from the window hole 101b of the lid 101b so that they can be seen from the outside. This is the same as the confirmation signal generation circuit in FIG. 43, and a detailed description is omitted.

According to the embodiment 14 configured as described above, for example, When the bimetal 1 09 rises above the setting-^ at the temperature of the main body 101 ± ^ rises, the magnet 107 works and the circuit is automatically cut off. In addition, for example, cotton dust and dirt accumulate around the insertion terminal 78 a of the plug of the electric appliance inserted in the plug insertion hole 101 a of the lid 101 b of the outlet main body 101 This becomes a good conductor of electricity when it contains moisture such as water or oil, which creates an electrical bypass and causes a tracking phenomenon that current flows, and the plug insertion hole 101 a of the lid 101 B If the surrounding electrical insulation resistance is reduced or destroyed, the voltage at the secondary connection terminals 86 A and 86 B leaks, generating a voltage at the leak detection plates 26 A and 26 B, and magnets It works hard and the circuit is automatically shut off.

Even if the temperature of the outlet main unit 1 0 1 power temperature rises ±± and exceeds the set temperature of the bimetal 1 09, the circuit power is << If an unexpected abnormal situation occurs that is not interrupted, set the outlet main unit 1 0 1 power temperature fuse 70 If the temperature is exceeded, the thermal fuse 70 is blown to cut off the circuit, so there is no fear of a fire or other major accident.

Also, even if an unexpected abnormal situation occurs in which the circuit is not interrupted even if a leak voltage is generated in the leak detection plates 26 A and 26 B, the buzzer 53 will sound to provide a leak alarm, for example. Since the 54 LEDs illuminate yellow, emergency measures can be taken immediately and a major accident such as a fire can be prevented.

If an earthquake or explosion causes vibrations equivalent to, for example, a seismic intensity of 4 or more, the pendulum 1 1 1b of the vibration detector 1 1 1 1 abuts the inner surface of the vibration detection hole 1 1 2 and the magnet 1 0 7 Is excited and shuts off the secondary circuit, so if it is used in a place where dangerously flammable hazardous materials are handled, a secondary disaster such as an earthquake or explosion can be prevented. Embodiment 14 is a safety structure that responds to overcurrent, tracking, earthquake, etc. as described above.For power use places and other circumstances, a circuit breaking mechanism using a thermal fuse 70, a buzzer, and a diode are used. Leak alarm, circuit cutoff due to earthquake TO can be simplified to remove each. The outlet of the fourteenth embodiment is not limited to a fixed-type power outlet used by being embedded in a wall, and is also applicable to a portable outlet commonly called a table tap.

FIG. 47 shows an embodiment having a magnet 117 having a shape different from that of the above-described circuit breaking magnet 107.

In FIG. 47, the iron core of the magnet 117 is divided into two iron cores 117c and 117c arranged in parallel, and the first electromagnetic coil 117a and the second electromagnetic coil 117b become iron cores 117c and 117c. Wound separately. The two iron cores 117c, 117c are connected by a yoke 117d on the back side. Thus, the iron core having a U-shaped cross section as a whole has a higher magnetic flux density than the rod-shaped iron core and a stronger attraction force as a magnet, so that the sensitivity as a safety mechanism can be increased. The locking lever 104 with a claw has a long lever portion corresponding to the two iron cores 117c, 117c arranged side by side. As a result, the claw portion 104a is formed substantially at the center of the lever portion. Others are the same as those in FIG.

(Example 15)

Embodiment 15 is an embodiment in which the electrical connection device of the present invention is applied to a relay outlet or an additional outlet having a function of generating at least one conductive state confirmation signal and automatically shutting off a circuit having an insertion terminal to be inserted into a power outlet. FIG. 48 is a perspective view showing the internal structure, and FIG. 49 is an electric circuit diagram thereof. 48 and 49 have many parts in common with the tenth embodiment (FIG. 35) and the fourteenth embodiment (FIG. 44), the same members are denoted by the same reference numerals, and description thereof will be omitted or simplified. Let me explain the emphasis.

The outlet body 60 is a box body made of an insulating material such as a synthetic resin composed of the main body 6OA and the lid 60B, and the main body 6OA has a pair of primary-side insertion terminals 62A inserted into a power outlet. , 62 B are fixed. Primary insertion terminal One end of a heat collecting plate 120 extending close to the base of the primary plug-in terminal 62 A is fixed to the base of the heat collecting plate 120. The ends are fixed. The bimetal 1 2 1 is provided at right angles to the parallel direction of the primary insertion terminals 6 2 A and 6 2 B, and the third fixed contact 1 is located at the position corresponding to the tip of the bimetal 1 2 1 in the main body 6 OA. 2 2 are fixed. The bimetal 1 2 1 has a distal end separated from the third fixed contact 1 2 2 at room temperature, and contacts the third fixed contact 1 2 2 when the set temperature is exceeded.

A guide (not shown) is provided in the central part of the main body 6 OA in a direction parallel to the insertion terminals (lateral direction). A moving body 103 is movably provided along the guide. . The moving body 103 is constantly urged to the right in FIG. 49 by the spring 65, and a vertical groove 103b is formed on the side surface of the tip. The first movable contact 66 is provided so as to be movable in the lateral direction within the width dimension of 3b.

The first movable contact 66 is connected to the primary-side insertion terminal 62 A by a relatively thick stranded wire 69, and is constantly urged by a contact spring 67 to a first fixed contact 71 side described later. The first movable contact 66 is provided with a second movable contact 68. The main body 6 OA is provided with a first movable contact 66, a first fixed contact 71 that comes into contact with the force, and a second fixed contact 72 with which the second movable contact 68 comes into contact, so that it can come and go. .

The movable body 103 has a locking groove 103c formed on the side surface of the central part. Adjacent to the moving body 103, a claw-equipped locking lever 104 having a front claw portion 104a which is removably engaged with the locking groove 103c is provided with a pivot pin 100. 5 is provided so as to be swingable. The locking lever with a claw 104 is urged by a spring 106 so that the claw portion 104a of the tip always engages with the locking groove 103c of the moving body 103.

A magnet 107 is fixed to the main body 6 OA so that the suction surface faces the front claw 104 a adjacent to the front claw 104 a of the locking lever 104 with a claw. . As shown in Fig. 48, the magnet 107 has a first electromagnetic coil 107a and a second electromagnetic coil 107b. Are wound around a common iron core 107c, and when voltage is applied to one or both of the electromagnetic coils, the tip claw portion 104a is pulled in to lock the moving body 103. And disconnect the circuit.

Secondary connection fittings 73 A and 73 B are provided in the main body 60 A of the outlet main body 60 .One of the secondary connection fittings 73 A is connected to the first fixed contact 71. It is connected by a plate or an electric wire having a relatively large current capacity, and the other secondary-side connection fitting 73B is connected to the other secondary-side insertion terminal 62B via a thermal fuse 70.

— A pair of leak detection pins 51 and 52 are located between the secondary insertion terminals 62A and 62B and near the respective insertion terminals, and are connected to the outlets of the primary insertion terminals 62A and 62B.植 Plants are oriented parallel to each other. Leak detection plate 1 2 3 A, 1 2 3 B near the plug insertion hole in the middle of the plug insertion hole (not shown) for the outlet connection body 7 3 A, 7 3 B of the outlet body 60 Are provided in parallel with each other, and the leak detection pin 51 is connected to the leak detection plate 123 A, and the leak detection pin 52 is connected to the leak detection plate 123 B by lead wires (not shown). Have been. The first electromagnetic coil 107a of the magnet 107 is provided between the third fixed contact 122 and the first fixed contact 7.1, a rectifying and smoothing circuit including a diode d4 and a capacitor c2, and Connected via a protection circuit consisting of fuse f1 and fuse 70a. The second electromagnetic coil 107 b is provided between the leak detection pins 51 and 52, that is, between the leak detection plates 123 A and 123 B, a rectifying and smoothing circuit including a capacitor c 1 and a diode d 3. It is connected via a protection circuit composed of a thermal fuse 70b and a fuse f2. The confirmation signal generation circuit shown in the upper part of FIG. 49 is the same as that of FIG.

According to the outlet with an insertion terminal having the functions of generating the confirmation signal and automatically shutting off the circuit in the embodiment 15, for example, the outlet main body 60 becomes high temperature due to overcurrent, and the ^^ of the bimetal 1 2 1 When it exceeds, the tip becomes the third fixed contact 1 2 2 When contact is made, voltage is applied to the first electromagnetic coil 107 a, and the magnet 107 pulls in the claw portion 104 a of the locking lever 104 with a claw to lock the moving body 103. Unravel and automatically shut off the circuit.

Also, for some reason, the electrical insulation between the primary plug-in terminals 62A and 62B or between the plug insertion holes of the outlet body 60 is reduced or broken, and the leak detection pins 51, 52 or the leak detection plate If a leak voltage occurs in the 12A and 12B, the voltage is applied to the second electromagnetic coil 107b and the circuit is automatically shut off.

Also, if an unexpected abnormal situation occurs in which the circuit is not automatically cut off by the bimetal 121 even though the temperature rises above the set temperature of the bimetal 121 of the outlet body 60, When the temperature of the outlet main body 60 exceeds the set temperature of the thermal fuse 70, the thermal fuse 70 is blown and has a double safety structure to prevent a major accident such as a fire.

The outlet with an insertion terminal in Example 15 is not limited to a single-port outlet as shown in Fig. 48, but can be applied to a two- or three-port outlet with an additional plug-in terminal. Of course.

The magnet 10.7 may be configured in a split core shape as shown in FIG. Further, a rectifying / smoothing circuit from the diode d3 and the capacitor c1, or a rectifying / smoothing circuit from the diode d4 and the capacitor c2 can be omitted. It is not always necessary to provide a protection circuit consisting of fuses il and 70a or a protection circuit consisting of fuses f2 and 70Ob. In some cases, it consists of only a current fuse or a temperature fuse. It may be a protection circuit.

(Example 16)

Embodiment 16 is an embodiment in which the electrical connector of the present invention is applied to a relay or additional outlet having a function of generating at least one confirmation signal and automatically shutting off a circuit having an insertion terminal to be inserted into a power outlet. Figure 50 shows its internal structure. FIG. 51A is an electric circuit diagram thereof, and FIG. 51B is a diagram viewed from the line AA of FIG. 51A.

FIGS. 50, 51A, and 51B have many parts in common with FIGS. 35 and 36 of the embodiment 10, and therefore, the same members are denoted by the same reference numerals, and description thereof will be omitted or simplified. The explanation focuses on

The outlet main body 60 is made of, for example, an insulating material made of synthetic resin and includes a main body 60A and a lid 60B, and the bright heads of the LEDs 61A and 61B can be seen from the outside on the upper surface. It has a plug hole on the side surface into which an insertion plug 78 of an electric tool to be inserted into the secondary connection fittings 73A and 73B is inserted.

The main body 60 A has a pair of primary-side plug-in terminals 6 2 A and 6 2 B approximately at the center of the plug-in terminal. | At right angles to the J direction (hereinafter referred to as “lateral direction”), the primary-side plug-in terminal 6 The base of the bimetal 64 is fixed at right angles to the insertion and removal directions of 2 A and 62 B. The bimetal 64 has a locking hole 64a at the tip, and when the is raised, the tip is deformed so as to warp upward. A moving body 63 made of an insulating material is movably provided along a lateral guide 60 c provided at the center of the main body 6OA. The moving body 63 is immediately below the tip of the bimetal 64 at room temperature, and is provided by a spring 65 disposed between the protrusion 63a and the ^ part 60a of the main body 6OA. It is always biased to the right in Figure 51.

The movable body 63 is provided with a first movable contact 66 that is movable in the horizontal direction within the width of the vertical groove 63b, and is constantly urged by a contact spring 67 so that the first movable contact 66 is provided. The second movable contact 68 is fixed to 6 so as to be movable. The first movable contact 66 is connected to one insertion terminal 62A by a relatively thick stranded wire 69. The first fixed contact 71, to which the first movable contact 66 comes in contact with and detachable from the main body 60A, and the second fixed contact 72, to which the second movable contact 68 comes in contact with and detachable, are fixed respectively. Has been done. In addition, a pair of secondary connection fittings 73 A, 73 B are provided on the main body 60 A. One secondary connection fitting 73 A is connected to the first fixed contact 71, and the other secondary connection fitting 73 B It is connected to the. ·

The main body 60A is provided with a movable reset bin 74 having a distal end portion penetrating through the side plate 60b and protruding to the outside. The reset bin 74 is constantly urged by a spring 75 so that the rear end thereof is in contact with the side surface of the protrusion 63 a of the moving body 63.

The upper surface of the moving body 63 is planted vertically with an engaging pin 76, and at normal temperature, the engaging pin 76 engages with the locking hole 6 4a at the tip of the bimetal 64 to move the moving body 63. The first movable contact 66 is pressed against the first fixed contact 71 by a contact spring 67, and at the same time, the second movable contact 68 is in contact with the second fixed contact 72. When the temperature of the outlet main body 60 rises and exceeds the set temperature of the bimetal 64, the tip of the bimetal is deformed so as to warp and the engagement ± ^ 64 a is disengaged from the engagement pin 76 and the outer spring 65. The moving body moves to the right of 50, and the first movable contact 66 and the second movable contact 68 are separated from the first fixed contact 71 and the second fixed contact 72, respectively, and the circuit is interrupted. . To return the interrupted circuit to the conductive state, after the temperature of the bimetal 64 has dropped, press the reset bin 74 manually to move the moving body against the force of the spring 65 as shown in FIG. If it is moved to the left, the engaging pin 76 engages with the locking hole 64a to return to the normal conduction state.

The main body 60 A has a pair of leak detection pins 5 1, 5 2 near the respective insertion terminals in the middle of the primary insertion terminals 62 A, 62 B on the primary side insertion terminals 62 A, 62 B. Are oriented in the direction of insertion and withdrawal from the outlet and parallel to each other. Leak detection plates 1 2 3 A and 1 2 3 B are parallel to each other near the plug insertion holes in the middle of the plug insertion holes (not shown) for the secondary connection fittings 7 3 A and 7 3 B of the outlet main body 60 The leak detection pin 51 and the leak detection plate 123A are connected to each other, and the leak detection pin 52 and the leak detection plate 123B are connected to each other by a lead wire. The main body 6 OA has a magnet 1 2 7 under the bimetal 6 4 and near the tip. The direction of the line of magnetic force is set to be substantially the same as the direction of displacement of the bimetal 64 when the temperature rises. As shown in Fig. 51B, the magnet 127 is inserted movably into the center hole of the electromagnetic coil 127, a fixed iron core 127 b, and the fixed iron core 127 b. c. The tip of the movable core 127 c is always in contact with the back surface of the bimetal 64 and is separated from the suction surface of the fixed core 127 b. One end of the electromagnetic coil 127 a is connected to one leak detection pin 51 and one leak detection plate 123 A, and the other end is connected to a diode d 3, agl use 70 a and a fuse f 1. Are connected to the other leak detection pin 52 and the other leak detection plate 123B, respectively. The protection circuit is formed by the fuse 70a and the fuse f1. Note that a capacitor c1 is connected in parallel to the electromagnetic coil 127a, and a rectifying and smoothing circuit is configured by the diode d3 and the capacitor c1. When a leak voltage is generated between the leak detection pins 51 and 52 or between the leak detection plates 123 A and 123 B, the magnet 127 is excited by the electromagnetic coil 127 a and the movable iron core 127 is excited. 7c is drawn and moves to the bimetal 64 side, and the bimetal 64 is pushed up with the tip of the movable iron core 127c to release the locking of the moving body 63 and cut off the circuit. The leak detection pins 51 and 52 may be the same leak detection plates as the leak detection plates 123A and 123B.

The confirmation signal generation circuit shown in the upper part of FIG. 51 is the same as that of FIG.

According to the outlet with an insertion terminal having the functions of generating the confirmation signal and automatically shutting off the circuit in the embodiment 16, for example, when the outlet main body 60 becomes high temperature due to an overcurrent and exceeds the set temperature of the metal plate 64, The bimetal 64 deforms so that the tip of the bimetal 64 warps upward, the locking hole 64 a is disengaged from the engagement pin 76, and the moving body 63 is moved by the spring force of the spring 65 to the right in FIG. 51A. To move the first movable contact 66 away from the first fixed contact 71, and cut off the connection between the secondary insertion terminal 62A and the secondary connection bracket 73A. Second at the same time Contact 6 8 Force Confirmed away from the second fixed contact 7 2, applied voltage was interrupted in the middle of the signal circuit. The blue LED 61 A for confirmation of continuity, which had been turned off so far ^] was turned off. The red LED 6 1 B for confirming circuit interruption lights up.

Due to overheating or local temperature rise due to tracking, etc., between the primary plug-in terminals 6 2 Α and 6 2 又は or between the secondary-side fittings 7 3 A and 7 3 B plug insertion holes If the electrical insulation of the sensor is reduced or destroyed and a leak voltage is generated at the leak detection pins 51 and 52 or the leak detection plates 123A and 123B, the voltage is applied to the electromagnetic coil 127a. When applied, the ^ 1 / iron core 127 c is attracted and moves upward, and the tip pushes up the bimetal 64 to unlock the moving body 64 and cut off the circuit.

Even if the temperature rises beyond the set temperature of the bimetal 64 of the outlet main body 60, even if an unexpected abnormal situation occurs in which the circuit is not cut off by the bimetal 64, the power of the outlet main body 60 may be reset. When the temperature exceeds the set temperature of the thermal fuse 70, the fuse 70 is blown and cuts off the circuit to prevent a large accident such as a fire.

In this example, the outlet with a plug-in terminal in Example 16 is not limited to a single-port outlet as shown in Fig. 50, but it can be applied to a two- or three-port outlet with a plug-in terminal. Of course.

The rectifying and smoothing circuit (diode d3, capacitor cl) for the electromagnetic coil 127a can be omitted. Similarly, the protection circuit (fuses f 1 and 70 a) may be omitted, and only the fuse f 1 or the thermal fuse 70 a may be used.

Claims

The scope of the claims

1. A signal generator for checking the electrical conductivity used for a bipolar outlet for the plug of electrical equipment,

A case in which first and second insertion terminals detachably inserted into an outlet protrude to form a window hole that can be seen from the outside,

A first light emitting member provided in the housing such that a luminous head projects outside from the window hole and electrically connected between the first and second insertion terminals;

A temperature displacement that is fixedly arranged in the housing, a rear end thereof is connected to a rear end of the first insertion terminal in the housing, and closes an electrical contact due to deformation when the temperature reaches a predetermined value a ±. Means,

Alarm generating means connected between the first and second insertion terminals via the electrical contact;

A signal generator for confirming the conductive state.

2. A signal generator for checking the conductive state used for a bipolar outlet for the plug of electrical equipment.

A case in which first and second insertion terminals detachably attached to an outlet protrude to form a window hole that can be seen from the outside,

A light-emitting member provided in the housing such that a luminous head projects outside from the window hole, and electrically connected between the first and second insertion terminals;

One terminal lead wire is electrically and thermally connected to the rear end of the first insertion terminal in the housing, and conducts when the first insertion terminal reaches a predetermined value or more. A heat-sensitive diode,

Alarm generating means connected between the first and second insertion terminals via the diode; A signal generator for confirming the conductive state.

3. A conductivity check signal generator built into a bipolar outlet for the plug-in of electrical appliances,

First and second terminal members which form window holes visible from the outside and are plug-in terminals or connection terminals connected to a power supply;

A plug having an at least one first and second holding portion electrically connected to the first and second terminal members for each pole, to which an insertion plug of an electric appliance is detachably inserted. When,

The insertion plug is provided around the holding portion in the housing in a state of being separated therefrom, and when the plugging plug is completely inserted into the holding portion, the tip of the first insertion plug comes into contact with the first plugging plug, and A contact piece electrically connected to the holding portion;

A light emitting member provided in the housing such that a luminous head protrudes outside from the window hole; and a light emitting member electrically connected between the second terminal member and the contact piece.

A signal generator for confirming the conductive state.

4. a fixed contact piece fixedly arranged in the housing;

A conductive temperature displacing means having a rear end connected to the rear end of the first terminal member in the housing and contacting the fixed contact piece by deformation when the temperature reaches a predetermined value or more; 2 alarm generating means connected between the terminal member and the fixed contact piece;

The conductive state confirmation signal generator according to claim 3, further comprising:

5. It has a pair of terminal lead wires, and one of the terminal lead wires is electrically and thermally connected to the rear end of the first terminal member or to a connecting member of the same polarity as the one in the housing. A heat-sensitive diode that becomes conductive when it reaches a temperature above a specified value,

An alarm generating means connected between the first and second terminal members via the diode;

6. second temperature displacement means implanted in the housing substantially at the center between the spliced terminals so that the upper end protrudes into the housing in parallel therewith;

A first fixed contact provided in the housing,

It is provided so as to be movable in a direction perpendicular to the insertion direction in the parallel direction of the insertion terminals, and the upper end of the second temperature displacement means is engaged at normal temperature, and when the temperature rises beyond a predetermined value, β A moving body made of an electric edge material having a first movable contact that can be electrically connected to the first insertion terminal at a distal end; and an upper end of the second ′ ′ displacing means, When the first movable contact is engaged with the engaging projection of the moving body, the first movable contact is separated from the first fixed contact, and the upper end of the second temperature displacing means is moved from the engagement projection by rising. A spring that always keeps the moving body on the first fixed contact side so that the first movable contact is pressed against the first fixed contact when detached;

A leak alarm output terminal electrically connected to the first fixed contact;

The conductive state confirmation signal generator according to any one of claims 1 to 5, further comprising:

7. second temperature displacement means implanted in the housing at substantially the center between the insertion terminals so that the upper end protrudes into the housing in parallel with the insertion terminal;

A second fixed contact provided in the housing, connected to the first insertion terminal, and movable in a plane perpendicular to an insertion / removal direction of the insertion terminal; The rear end is engaged with one side surface of the upper end portion at room temperature so as to be able to freely engage and disengage with the second fixed contact point provided on the other side surface of the middle portion. A lever having a pin movably engaged with a guide groove formed substantially parallel to the terminal parallel direction of the insertion terminal;

The lever is biased so that the first movable contact is pressed against the first fixed contact when the distal end of the lever is engaged with the second temperature displacement means in a normal temperature state. Then, when the lever is released from the lever by the second temperature displacement means due to a temperature rise, the pin moves to the terminal position along the guide groove, and the pin moves from the first movable contact or the first fixed contact. A spring for rotating the lever with the pin at the end position so as to be separated;

A leak output terminal that is electrically connected to the second movable contact and that outputs a leak signal when the second movable contact is separated from the second fixed contact;

8. A pair of leak detection pins implanted in parallel with each other at positions near the terminals between the insertion terminals of the housing,

A leak alarm that is electrically connected between the pair of leak detection pins and is activated by a leak voltage generated between the pair of leak detection pins when the electrical insulation of the insulating material around the insertion terminal is broken. Means

6. The signal generator according to claim 1, further comprising: L;

9. A pair of leak detection plates implanted in parallel with each other in the vicinity of the plug insertion hole of the housing between at least a pair of plug insertion holes for inserting an insertion plug of an electric appliance,

A leak alarm generating means electrically connected between the leak detection plates and operated by a leak voltage generated between the pair of leak detections when the insulating material around the holding portion breaks down;

The conduction state confirming signal generator according to any one of claims 3 to 5, further comprising:

10. The conductive state check according to any one of claims 1, 2, 4, and 5, wherein the alarm generating means is a second member provided inside the housing with a bright head protruding outside. Signal generator.

1 1. The conductive state confirmation signal generator according to any one of claims 1, 2, 4, and 5, wherein the alarm generation means is a first alarm sound generator provided in the housing.

1 2. The conductive state confirmation signal generator according to any one of claims 1, 2, 4, and 5, wherein the alarm generating means is a member that outputs an electric signal for cutting off a main power supply circuit. .

10. The conductive state confirmation signal generation according to claim 8 or 9, wherein the leak alarm generation means is a third light emitting member provided with a luminous head protruding outside on the housing.

14. The conductive state confirmation signal generator according to claim 8, wherein the leak alarm generation means is a second alarm sound generator provided in the housing.

15. The conductive state confirmation signal generator according to claim 14, further comprising an overcurrent prevention element connected in series or parallel to the second alarm sound generator.

10. The conductive state confirmation signal generator according to claim 8, wherein the leak alarm generation means is a relay that outputs a signal when a contact is opened or closed.

17. The signal generator according to claim 16, further comprising an overcurrent prevention member connected in series or parallel to the relay.

1 8. An electrical connector used as an outlet that has a function of generating a confirmation signal and a circuit for automatically receiving a plug for insertion of an electrical appliance. A housing having at least one pair of secondary terminal members internally connected to the primary terminal member for each pole, and through which an insertion plug of an electric appliance is removably inserted;

A moving body made of an insulating material movably provided in the housing;

A first fixed contact fixed in the housing and connected to one of the pair of secondary terminal members; A second fixed contact fixed in the housing,

A first movable contact disposed opposite to the first fixed contact and electrically connected to the first-secondary terminal member;

A second movable contact fixed to the first movable contact and moving therewith; a spring for bringing the first and second movable contacts into contact with the first and second fixed contacts at a predetermined contact pressure, respectively;

At a normal temperature, the movement of the moving body is locked to bring the first and second movable contacts into contact with the first and second fixed contacts, respectively. Displacement means provided to separate the first and second movable contacts from the first and second fixed contacts, respectively;

When the displacement means is in a normal temperature state, the voltage between the first and second-secondary terminal members is turned on through the second movable contact and the second fixed contact, and the ^^ displacement caused by the U temperature rise A first member for conducting confirmation that is turned off when the second movable contact is released from the second fixed contact when the movable body is unlocked by deformation of the means;

When the temperature displacement means is in a normal temperature state, the light is turned off by being short-circuited via the second movable contact and the second fixed contact, and the moving body is displaced by the deformation of the temperature displacement means due to a temperature rise. When the lock is released, the second movable contact is separated from the second fixed contact, the short circuit is released, and the circuit is turned on by a voltage between the first and second-secondary terminal members. 2 light emitting members,

Reset means for returning the first and second movable contacts, which are in a state of being separated from the first and second fixed contacts, to the contact state at the normal temperature, respectively;

Electrical fitting with.

19. The electrical connector according to claim 18, further comprising a thermal fuse electrically connected in series with said second-secondary terminal member.

20. An electrical connector used as an outlet that has the function of generating a confirmation signal and automatically shutting off the circuit for receiving the plug of electrical equipment.

The first and second terminals have first and second secondary terminal members removably inserted into a power outlet on one side, and the first and second terminal plugs for electric appliances are removably inserted on the other side. A housing having at least one pair of secondary connection fittings,

A temperature fuse provided in the housing and provided in thermal contact between the first-primary terminal member and the first secondary connection fitting;

Connecting means provided in the housing, for electrically connecting the second-secondary terminal member and the second secondary-side fitting;

A first light emitting member for conduction confirmation connected between the first secondary metal fitting and the second-secondary terminal member,

A second light-emitting member for checking circuit interruption connected between the first and second-secondary terminal members;

Means for turning off the second member when the first member is turned on.

21. The electrical connector according to any one of claims 18 to 20, wherein the primary terminal member is an insertion terminal that is removably inserted into a power outlet.

22. The electrical connector according to claim 18, wherein the primary terminal member is a connection terminal connected to an electric wire from a power supply.

2 3. An electrical connector used as a plug with functions of generating a confirmation signal and automatically shutting off the circuit.

A plug body having first and second—secondary plug terminals;

A moving body made of an insulating material movably provided in the plug body; a first fixed contact provided in the plug body;

The movable body is movable and can be brought into contact with the first fixed contact by a contact spring. A first movable contact connected to the first-secondary insertion terminal, and the movable body is locked in a normal conduction state in which the first fixed contact and the first movable contact are in contact with each other. Temperature displacement means provided;

A second movable contact fixed to the first movable contact and moving with the second movable contact; a second fixed contact provided on the plug main body, wherein the second movable contact comes into contact with and separates freely;

First and second secondary connection terminals provided on the plug main body and connected to the first setting contact and the second secondary insertion terminal, respectively;

Reset means for returning the first and second movable contacts separated from the first and second fixed contacts to the normal closed state;

A first light-emitting member for checking conduction and a second light-emitting member for checking circuit interruption; a voltage applied between the first primary insertion terminal and the second secondary connection terminal is applied; When the temperature exceeds a predetermined value and the moving body is unlocked due to deformation of the temperature displacement means, the first member for conduction confirmation, which has been lit up until then, is turned off, and the circuit is replaced with the circuit. A confirmation signal generation circuit configured so that the second member

With a plug plug.

24. The insertion plug according to claim 23, further comprising a thermal fuse disposed between the second-secondary-side insertion terminal and the second secondary-side connection terminal.

2 5. An electrical connector used as an outlet that has the function of generating a confirmation signal and automatically shutting off the circuit to receive the insertion plug of the electrical appliance, and the outlet body having first and second-secondary connection terminals. ,

A moving body made of an insulating material movably provided in the outlet body, a first fixed contact provided in the outlet body,

The movable body is movably provided and comes into contact with the first fixed contact by a contact spring. A first movable contact connected to the first-secondary connection terminal, and an engagement / disengagement for locking the movable body in a normal conduction state where the first fixed contact and the first movable contact are in contact with each other. A locking member with a free claw,

A second movable contact fixed to the first movable contact and moving therewith; a second fixed contact provided in the outlet body and contacting the second movable contact freely;

At least one pair of first and second secondary connection fittings fixed to the outlet main body and connected to the first fixed contact and the second-secondary connection terminal, respectively, at substantially the center of the secondary connection fitting; A third fixed contact having a rear end fixed to the outlet main body so as to be parallel and a front end fixed to the outlet main body;

Temperature displacing means which is provided at a normal temperature to be separated from and connected to the third fixed contact at a temperature exceeding a predetermined value from the third fixed contact and is connected to the second primary connection terminal;

A first electromagnetic coil provided at one end of the outlet body near the locking member with the claw, one end of which is connected to the third fixed contact, and the other end of which is electrically connected to the first fixed contact; A magnet that pulls the locking member with the claw by the excitation of the first electromagnetic coil to release the locking of the moving body;

A first light-emitting member for checking conduction and a second light-emitting member for checking circuit interruption, wherein a voltage between the first primary connection terminal and the second secondary connection terminal is applied; When the moving member is unlocked due to the deformation of the temperature displacing means because the temperature exceeds a predetermined value, the first light-emitting member for conduction confirmation, which has been lit up to that time, is turned off. A confirmation signal generation circuit configured to turn on the second light emitting member Electrical fitting with.

26. The electrical connector according to claim 25, further comprising a thermal fuse disposed between the second-secondary connection terminal and the second secondary connection terminal.

2 7. A pair of leak detection plates arranged in parallel with each other between the pair of plugs for inserting an insertion plug of an electric appliance in the outlet body and near each of the plug insertion holes,

A second electromagnetic coil additionally wound around the magnet and connected between the pair of leak detection plates;

When the performance of the insulation material around the plug insertion hole of the outlet main body is broken and a leak voltage is generated in the leak detection plate, the second electromagnetic coil is excited and the magnet is fixed to the claw. 27. The electric connector according to claim 25, wherein the locking member is retracted to unlock the moving body.

2 8. When the vibration exceeds a set value, it is disposed in the outlet main body so as to be electrically conductive in response to the vibration, and the connection between the second-secondary connection terminal and the third fixed contact is made. 28. The electrical connector according to claim 25, further comprising a ^! Detection means electrically connected therebetween.

28. The electrical connector according to claim 27, further comprising at least one of a loudspeaker sound generator and a leak alarm member electrically connected between the leak detection plates.

30. An electrical connector used as a portable outlet having a function of generating a confirmation signal and a circuit for automatically receiving an insertion plug of an electric appliance, the outlet having first and second-secondary plug terminals. Body and

A first fixed contact provided in the outlet main body,

A movable body made of an insulating material movably provided in the outlet main body, and a movable contact movably provided on the movable body so as to come into contact with the first fixed contact by a contact spring; A first movable contact connected to the insertion terminal; A detachable locking member with a claw that locks the moving body in a normal conduction state where the first fixed contact and the first movable contact are in contact with each other;

A second movable contact fixed to the first movable contact and moving therewith; a second movable contact fixed to the outlet body and contacting the second movable contact freely.

2 fixed contacts,

At least one pair of first and second secondary connection fittings provided in the outlet main body and connected to the first fixed contact and the second-secondary insertion terminal; and a third fixed to the outlet main body. Fixed contacts,

Temperature displacing means having a rear end portion connected to the second-to-secondary insertion terminal, and a tip end portion detachably attached to and detachable from the third fixed contact at a normal temperature and at a high temperature exceeding a predetermined temperature;

A first electromagnetic coil provided near the locking member with the claw, one end connected to the third fixed contact, and the other end electrically connected to the first fixed contact; When the tip of the means contacts the third fixed contact, the first electromagnetic coil is excited, the locking member with the claw is inserted into the bow to release the locking of the moving body, and the first movable contact and the second movable contact are released. A magnet for separating the movable contact from the first fixed contact and the second fixed contact, respectively;

A first light emitting member for checking conduction and a second light emitting member for checking circuit interruption; a voltage force is applied between the first-side insertion terminal and the second secondary-side fitting; When the temperature of the means exceeds a predetermined value, when the moving body is unlocked due to deformation of the temperature displacement means, the first light-emitting member for conduction confirmation which has been lit up until then is extinguished. A confirmation signal generating circuit configured so that the second light-emitting member for circuit interruption confirmation is turned on;

The first contact and the second movable contact that are released from the first fixed contact and the second fixed contact by releasing the locking of the moving body are returned to a normal conduction state. Setting means and

Electrical fitting with.

3 1. The outlet body is provided in parallel with each other in the middle of the pair of plug insertion holes and near each plug insertion hole for the insertion of the insertion plug of the electric appliance. The insulation around the plug insertion hole of the outlet body A pair of leak detection plates for generating a leak voltage when the material is broken down;

An intermediate portion between the pair of primary-side insertion terminals of the outlet main body and near each of the primary-side insertion terminals is implanted in the central portion, and is electrically connected to the leak detection plate for each pole, and the primary side of the outlet main body. A pair of leak detection pins that generate a leak voltage when the electrical insulation performance of the insulating material around the insertion terminal is destroyed;

The magnet is wound around the magnet in a π-like manner, and is connected between the pair of leak detection plates.tu When the leak voltage is generated between the pair of leak detection plates or between the pair of leak detection pins, the second electromagnetic wave is generated. A second electromagnetic coil for exciting the coil and inserting the locking member with the claw or the claw into the bow to release the locking of the moving body.

30. The electrical connector according to claim 30, comprising:

3 2. An electrical connector used as a portable outlet with the function of generating a confirmation signal and automatic shut-off for receiving the plug of electrical equipment, and having first and second-secondary plug-in terminals. Body and

A first fixed contact provided in the outlet main body,

A movable body made of an insulating material movably provided in the outlet main body; and a first spring provided movably on the movable body so as to come into contact with the first fixed contact by a contact spring. A first movable contact connected to the plug-in terminal, substantially at the center between the primary plug-in terminals, perpendicular to the parallel direction of the primary plug-in terminals and perpendicular to the insertion / removal direction of the secondary plug-in terminal; Temperature displacement means for locking the moving body in a normal conduction state where the fixed contact and the first movable contact are in contact with each other; A second movable contact fixed to the first contact and moving therewith; a second fixed contact provided in the outlet main body and contacting the second movable contact freely;

At least one pair of: a first secondary connection fitting connected to the first fixed contact and a second secondary connection fitting connected to the second-secondary insertion terminal provided in the outlet main body. Secondary connection fittings,

A first member for checking conduction and a light emitting member for checking circuit interruption; a voltage is applied between the first-side insertion terminal and the second secondary-side fitting; When the force exceeds a predetermined value, the locking of the moving body is released due to the deformation of the temperature displacement means, the first member for conducting confirmation which has been lit up until then is turned off, and instead the first member for confirming circuit interruption is replaced. 2 A confirmation signal generation circuit configured to light up members,

First and second leaks provided in parallel with each other in the vicinity of each of the plug insertion holes, between the pair of plug insertion holes for the secondary connection fitting for inserting the insertion plug on the electric appliance side of the outlet main body. A detection plate,

First and second leak detection pins, which are implanted in parallel between the pair of primary-side insertion terminals of the outlet body and at positions near the respective insertion terminals in the middle,

It is provided near the tip of the temperature displacement means in the outlet main body, adjacent to the side opposite to the displacement direction due to temperature rise, one end is connected to the first leak detection plate and the first leak detection pin, and the other end is connected. A magnet member that has an electromagnetic coil connected to the second leak detection plate and the second leak detection pin, and that excites the temperature displacement means by means of excitation of the electromagnetic coil to unlock the moving body;

When the electrical insulation around the plug insertion hole of the outlet main body or around the primary-side insertion terminal is broken and a leak voltage is generated on the leak detection plate or the leak detection pin, the magnet member is operated; The primary plug-in terminal An automatic shutoff mechanism for interrupting a current path from the secondary connection fitting to

Reset means for returning the first movable contact and the second movable contact in a state where they are released from the first fixed contact and the second fixed contact by releasing the locking of the movable body to a normal conduction state; and

Electrical fitting with.

33. The method according to claim 30, further comprising a fuse disposed between the second-secondary-side insertion terminal and the second secondary-side fitting.