TW200937788A - An overheat safety protection of power supply socket when overloaded - Google Patents

Abstract

An invention discloses an overheat safety protection of power supply socket when overloaded disclosed, the present invention comprises an overload thermo-activation metal sheet switch installed between the positive and negative electrodes of the socket conduction pieces, or at the proper position, or the position to which the socket conduction piece can conduct heat and radiate heat, either inside the socket or on the socket housing. When the extracted load power is over, the overload thermo-activation metal sheet switch will automatically trip and turn off the power. When the socket conduction pieces have bad contacts and generate high heat, the thermo-actiavtion metal sheet will sense the heat and trip automatically to turn off the power. An electric insulation heat conductive body is installed at the position of the socket conduction piece to transfer or radiate heat to the load device, the temperature switch or the temperature-sensing device, and when the temperature reaches the preset temperature, the power will be turned off. The relay can be connected in series to the front input end of the overload thermo-activation metal sheet switch, or connected in series to the output socket of the overload thermo-actiavtion metal sheet switch. The present invention ensures that when the socket conduction pieces have bad contact and generate high heat or have short circuit during extracting power, the overload thermo-activation metal sheet switch will automatically trip and turn off the power, and will activate the alarm lamp or alarm sound; the relay can turn off the power within milliseconds.

Description

200937788 VIII. If there is a chemical formula in this case, please disclose the chemical formula of the most characteristic of the invention: IX. Description of the invention: [Technical field of invention] A socket power supply overload overheating safety invention, the invention comprises an overload thermal metal plate switching device In the middle of the pole of the conductive strip of the socket or at the appropriate position or the conductive piece of the socket can transfer heat, the radiation heat reaches the position socket or the socket shell, and when the power is overloaded, the thermal metal plate switch automatically trips off and disconnects the power supply; The electric heat is generated, the thermal metal plate switch heats off automatically and takes off the power supply, and the insulating heat conductor or the radiative heat is transferred to the load 〇 element or the temperature switch or the temperature sensing element at the appropriate position of the socket conductive piece to reach the set temperature to take The power supply is disconnected; the relay is connected in series with the front input of the overloaded thermal metal switch or the relay is connected in series with the overloaded thermal metal switch wheel outlet. Use the relay electromagnetic power supply to connect the overload thermal metal switch or temperature sensing component. Poor contact of the conductive strip of the socket or overloading to generate high heat to reach the set temperature overload thermal metal The chip switch automatically trips off the starter relay electromagnetic power supply, and the protection socket of the present invention makes the contact of the conductive piece of the corner take power socket to generate high heat or wire short circuit or overload thermal metal plate switch automatically jumps off the power supply, the relay can be in milliseconds Breaking the power supply β t prior art] According to the use of electricity by our people, it has a good year. Because of its convenience in supply, all electrical products are powered by electricity. Today, the popularity of electricity has become a measure of the economy. One of the important indicators of social development. The power supply or power supply is convenient to use, and it also brings danger. At present, the necessary device in the power supply is the socket. When the socket is in contact with the power supply, the contact piece of the conductive piece generates high heat, and the socket cannot automatically turn off the power supply, which causes an accident. Such as wire fire, product burning accident. The inventor selects the position of the conductive member of the socket or the temperature switch or the temperature sensing device to match the application socket. The socket contact is poorly contacted to generate high heat. The load element or the temperature switch or the temperature sensing element is used to turn off the power supply. The relay turns off the power supply, and the overload load is interrupted by the load component according to the component characteristics of the device. The overall component matching of the socket can reach the millisecond and overload load power supply to prevent accidents such as wire fire and product burnout. SUMMARY OF THE INVENTION A socket power supply overload overheating safety invention, the invention comprises an overload thermal metal plate switch device in the middle or at a proper position of the socket conductive elastic piece or the socket conductive elastic piece can transfer heat, the radiation heat reaches the position socket or the socket housing 'When the power overload thermal metal plate switch automatically trips off and disconnects the power supply; the socket conductive shrapnel is in poor contact with the power to generate a high heat and heat metal plate switch, the heat is automatically tripped to take off the power supply, and the insulated thermal conductor is placed at the appropriate position of the conductive elastic piece of the socket or The radiation heat is transferred to the load component or the temperature switch or the temperature sensing component reaches the set temperature to disconnect the power source; the relay is connected in series with the front input end of the overloaded thermal metal plate switch or the relay is connected in series with the overload thermal metal plate switch The output terminal is a socket short-circuit relay that can take off the power in milliseconds. The invention ensures that the user takes power in the socket and the conductive elastic piece is in poor contact or overloaded to generate high heat or Q overload thermal metal plate switch to take power and automatically jump off Disconnect the power supply or the socket using the wire short-circuit relay to take off the power in milliseconds, so the socket is complete Element matching, and could overload millisecond start off the power, in order to prevent accidents, such as fire wire, Burst product. [Embodiment] A socket power supply overload overheating safety invention The present invention comprises an overload thermal metal plate switch to take electrical overload and automatically trip off the power supply; the socket conductive shrapnel is in poor contact or the overload takes power to generate high heat, and is utilized at the appropriate position of the socket conductive shrapnel Insulation heat transfer heat transfer or radiating heat device load component or temperature switch or temperature sensing component to disconnect the power supply; relay connected in series with overload thermal metal 6 200937788 chip switch front input or relay connected to overload thermal metal The output of the chip switch is short-circuited by the socket or the contact with the conductive elastic piece of the socket produces high thermal heat transfer heat transfer or radiation heat reaches the set temperature 'carrier element or temperature switch or temperature sensing element start relay electromagnetic power supply' relay can The power supply is removed in milliseconds, the relay metal thermal actuator switch and the socket conductive elastic piece are in position. The load component or the temperature switch or the temperature sensing component is selected to match the socket integral component matching application, and the present invention includes the thermal switch structure 101 housing. 102 socket 103 power output conductive sheet 1〇4 power indicator 1〇5Starting thermal metal plate contact post 髅106 Thermal metal plate 107 Open sliding or key switch 1〇8 Thermal metal plate contact Reply column 109 Switch holder 110 Switch frame Inlet metal plate Conductive contact 112 power input guide ■ wafer contact 113 power input fixing screw 114 power plug 115 power input terminal 116 structure fixing screw Π 7 switch positioning bump 118 switch positioning plate 119 central axis 120 spring and fixed seat 121 socket hole 122 Socket conductive shrapnel 123 socket conductive sheet fixing screw 124 temperature switch or thermistor or thermal fuse or overturned fuse or temperature sensing element or thermal metal plate switch 125 insulated thermal conductor or insulating thermal conductive silicone or insulating material 126 socket conductive shrapnel 127 electromagnetic coil 128 relay 129 relay power input contact 130 relay power output contact 131 electromagnetic coil 132 socket base 133 start positioning point 134 conduction positioning point 135 start button 136 start button 137 maintain contact point 138 plug insert 139 The plug is inserted into the Q piece 丨 4 〇 the thermal switch replies to the button 141, and the composition can reach the millisecond and overload load power supply to prevent accidents, such as Line of fire, burn accident products. Figure 1 shows a socket power supply overload and overheat safety invention. The socket is provided with an overload thermal metal plate switch or a temperature switch or a temperature sensing element. The invention is a socket 103, the at least one positive and negative hole socket or the porous socket, the socket 1〇3 is provided with a plug insert 139 and a plug insert 140, and the one-pole plug insert 139 is directly input into the socket conductive elastic piece 127, and the other pole The plug insert 140 is connected to the overloaded thermal metal sheet 107. The thermal metal sheet conductive contact 112 is in contact with the power input conductive strip contact 113. The power output conductive strip 104 is connected to the socket 103 socket conductive elastic piece 123. The overload thermal metal plate switch can be The temperature switch can be connected in series with a temperature switch or temperature sensing element or an overloaded thermal metal switch or fuse or 7 200937788 thermal fuse or (PTC) blanket return fuse 125 in the middle of the plug insert 139 and the plug insert 140 Or any suitable socket box or socket housing conducts heat or radiation heat position, which is overloaded during power take-off or the socket conductive elastic piece 123 or the socket conductive elastic piece 127 is in poor contact to generate high heat energy to turn off the power supply component or overload thermal metal. The chip switch can be connected in series with the temperature switch two components to be applied to the safety overload superheat device of the present invention. Figure 1 - A is a safety invention of the socket power supply overload and overheating. The socket is provided with a schematic diagram of an overload thermal metal plate switch or a temperature switch or a temperature sensing element. 1A is a cross-sectional view of FIG. The overload thermal metal piece 125 or 107 thermal metal plate conductive contact 112 is in contact with the power input conductive pad contact 113. The power output conductive film 1〇4 is connected to the socket 1〇3 socket conductive elastic piece 123 and the outer casing 102 socket base 133. Figure 1 - B is a safety invention of the socket power supply overload and overheating. The socket is provided with a side view of the overloaded thermal metal plate switch or temperature switch or temperature sensing element. The socket 103 is provided with a positive and negative hole socket or a porous socket, the plug blade 139 is connected to the conductive elastic piece 127, and the other pole plug piece 140 is connected to the overload thermal metal piece 125 or 107 thermal metal plate conductive contact 112 and the power input. The conductive strip contact 113 contacts the power output conductive sheet 1〇4 and is connected to the socket 103 conductive elastic piece 123 and the outer casing 102 socket base 133. When the socket is powered off, the thermal switch generates a high temperature or the socket conductive elastic piece has poor contact and generates high heat. The hot switch 125 jumps off the power supply. If you want to resume the power take-off, press the hot switch to return the button 141, in order to be able to contact the fast socket conductive shrapnel, the high thermal switch 125 is tripped and the power is turned off at the appropriate position of the conductive shrapnel of the socket. Insulation and heat transfer material 126. Fig. 2 is a safety invention of the socket power supply overload and overheating, and the plug insertion device is a schematic diagram of the thermal metal plate switch or the temperature switch or the temperature sensing element output power. The invention has at least one pole plug 115 plug insert 139. The joint assembly device is a thermal metal plate switch or a temperature switch or a temperature fuse or temperature sensing component 125 output power, and the other pole plug insert 140 is a direct turn-off power supply. , plug insert 140 舆 plug insert 139 in the middle, 8 200937788 and optional device thermal conductivity or thermal conductive silicone 126 heat transfer or radiation heat to the set temperature to start the power supply 'when the power overload thermal metal plate switch generates high heat or Poor contact of the conductive strip of the socket produces a high thermal thermal metal sheet to open the conductive contact to turn off the power supply. Figure 2-A shows a safety over-supply overheating method for a socket. A schematic diagram of an overloaded thermal metal plate switch or temperature switch or temperature sensing element is provided in the middle of the plug insert or at an appropriate position. The invention is an overload thermal metal plate 107 switch or temperature switch of at least one pole plug U5 or a temperature fuse or temperature sensing component 125 and a plug insert 139 serially output power, the device is inserted in the plug insert 140 舆 plug insert 139 The middle 'the other pole plug insert 140 is a direct output power supply' and can selectively heat the heat transfer or the heat transfer gel 126 to reach the set temperature to start the power supply. Figure 2 and Figure 2 - A and Figure 3 - B are a kind of socket power supply overload and overheat safety invention. The overload thermal metal plate switch device is in the proper position of the conductive piece of the socket to heat or radiate heat. The schematic diagram of the dynamic metal plate switch tripping off the power supply. The present invention is an overloaded thermal metal plate switch 125 device in the intermediate or circumferential position of the socket conductive elastic sheets 123 and 127 or in the socket or outside the socket to transfer heat or radiate heat to the overloaded thermal metal plate switch 125, and the moving metal The chip switch 125 can be connected in series with a temperature switch or a thermistor or a thermal fuse or an overlying fuse or a temperature sensing element or a thermal metal plate switch, and the power plug 115 is connected to the relay 129, the power input point 130 and the other pole. The power supply is connected to the socket conductive elastic piece 127' relay 129 electromagnetic coil 132 - the pole is connected by the power supply 'the other pole is connected to the socket conductive elastic piece 123 through the heat transfer metal plate switch 125 to the relay 129 electromagnetic coil 128 ' Pressing the start button 137 relay 129 solenoid magnetic conduction conduction relay power output 131 to the overload thermal metal plate switch 125 is connected in series to the socket conductive elastic piece 123, when the socket conductive elastic piece 123 or 127 is in poor contact, high heat transfer or radiation is generated. Heat to the overload thermal metal plate switch 125, the overload thermal metal plate switch trips off the power supply, and the relay 129 electromagnetic coil 128 power supply breaking relay 129 Magnetic pull-off power supply, power-off relay 129 Press the start button 136 to turn off the electromagnetic coil 128 power relay 129 magnetic jump trip power supply, so overloaded thermal metal plate 125 switch can be used as socket conductive shrapnel 123 contact bad production 9 200937788 raw high heat start power supply and power overload overload power supply, another relay 129 optional device or as shown in Figure 3_A switch as power switch, power one pole input overload thermal metal plate 1〇7 Or a temperature switch or thermistor or thermal fuse or the return fuse or temperature sensing element or the thermal metal plate switch is connected in series to the socket conductive elastic piece 123, and the other pole power source is directly input into the socket conductive elastic piece 127' and the device indicator light can be selected. Or the warning sound is 1〇5, and the power switch may not be equipped as the third figure-B at least one pole power supply serial temperature switch or thermistor or temperature fuse or pprc return fuse or temperature sensing component 125 or thermal metal plate switch The serial connection conductive elastic piece 123 or the power supply is connected to the overload thermal metal piece 107, the thermal metal plate conductive contact 112 and the power input conductive piece contact 113 are in contact with the power supply output conductive piece 1〇4 Connected to the socket 103 in series to the socket conductive elastic piece 123, the other pole power source directly into the socket conductive elastic piece 127, the socket conductive elastic piece 123 and 127 intermediate heat transfer, radiation heat position temperature switch or thermistor or The temperature fuse or the return fuse or the temperature measuring component or the thermal metal plate switch 125 can select at least one thermal metal plate switch 125, so that the thermal metal plate switch 125 can be overloaded, which can be used as a hot contact of the socket conductive elastic piece 123. Figure 4 shows a socket power supply overload and overheating safety invention. The overloaded thermal metal switch is turned on and off. The thermal switch structure 101 is not invented, and the thermal switch structure 101 is fixed to the outer casing Q 102. The hiring portion is locked and fixed by the structural fixing screw 1 ,, and the power input terminal 116 舆 the hot metal piece 107 is electrically connected to the metal plate.黠丨12 is locked and fixed to the thermal switch structure 101 by the power input fixing screw 114, and the power input conductive strip contact 113 is fixed to the power supply wheel output conductive sheet 104 and the thermal metal sheet 1〇7 thermal metal sheet conductive joint Π2 contact, thermal metal plate 1〇7 thermal metal plate conductive contact 112 upper end housing 1〇2 is provided with switch frame 111 so that slide switch 1〇8 linear sliding 'sliding switch 108 fixed to the housing 1〇2 and switch fixed The seat slides in the middle of the 11 〇, and the slide switch 108 is provided with a breaking heat-receiving piece. The contact column 1〇6 is pushed to the right to the hot metal piece 107. The positioning point is turned off. The sliding switch 1〇8 is provided with heat at the other end. The sheet repetitive cylinder 1〇9 slide switch 108 pushes the left side of the hot metal sheet 1〇7 the hot metal sheet conductive joint 112 and the power wheel in contact with the conductive sheet contact 113 to contact the power output conductive sheet 1〇4, the overload metal sheet 1〇7 is overloaded bomb 200937788 Open contact does not automatically reply must The sliding switch 108 is replied or automatically replied, the sliding opening 108 is pushed back to the thermal metal sheet 107, and the thermal metal sheet conductive contact 112 is retreaded. Referring back to the third diagram, the thermal actuator contact post 106 and the thermal actuator are turned on. Respond to the column 馑 109 gap thermal sheet bounce distance, when the power is taken using the power plug 115 plugged in, one pole direct input socket 1 〇 3 the other pole connected to the power input conductive sheet 116 through the hot metal sheet 1 〇 7 thermal Gold chip conductive contact 112 舆 electric input conductive pad contact 113 contact 'power output conductive sheet 1 〇 4 conductive output connected to the socket, another power indicator light warning sound 105" Figure 5 and Figure 5 - A A socket power supply overload overheating safety invention, the overload thermal metal plate switch is provided with a schematic view of the positioning conduction top view. The slide switch 108 of the present invention is provided with a switch positioning bump 118, which extends into the switch positioning plate 119', and the switch positioning plate 119 is provided with a conductive positioning point 135, and the positioning point 134 is opened. The switch positioning plate 119 is a center of rotation 120, and the switch is positioned. The outer layer of the board U9 is provided with a spring piece and a fixing seat 121. When the power source is used, the sliding switch 108 is used to push the left side of the hot metal piece to return the column log to push the heat-moving metal piece 107 to heat the metal piece conductive contact 112 and the power input. After the conductive sheet contact 113 is in contact with the conduction, the switch positioning plate 119 is covered by the elastic piece and the fixing seat 121 to the conduction positioning point 135, and the thermal metal piece contact returning column 109 has a gap. When the overloaded thermal metal piece 1〇7 is opened Space 'If you want to turn off the power slide switch 1〇8 to the right to push the hot metal plate contact column 艎 κ) 6 push Q blue overload thermal metal plate 107 thermal metal plate conductive contact 112 and power input conductive sheet Point 113' switch positioning plate 119 is turned on and off at the opening and positioning point 134. Figure 5 - Α only shows the various parts of the shrapnel and the fixed seat 121 or "Figure 6 is a socket power supply overheating safety invention, overload thermal Metal plate switch with positioning A schematic top view of the structure broken chimney. The sliding switch 108 of the present invention is configured to extend into the switch positioning plate 119, and the switch positioning plate 119 is provided with the conductive positioning point 135, the opening and positioning point 134, the switch positioning plate 119, the central axis 120 is the rotation center, and the switch positioning plate The outer surface of the 119 is provided with a spring piece and a fixing seat 121. When the power supply slide switch 108 is to be turned off, the hot metal piece contact column 106 is pushed to push the overload thermal metal piece 107 contact 112 and the power input conductive piece contact 113'. The switch positioning plate 119 is turned on and off at the start point 11 200937788. Fig. 7 is a safety invention of the socket power supply overload and overheating. The overload thermal switch and the socket insert are provided with an insulating heat conductor to conduct heat to the temperature switch or to sense the temperature component structure. The overload thermal switch and the socket 1〇3 socket conductive elastic piece 123 of the invention are provided with an insulating heat conductor 126 for heat transfer or radiation heat to a temperature switch or a sensing temperature element combination application, when the socket is powered by overload, the overloaded thermal metal piece is used. 1〇7 switch bullets turn off the power supply, the above thermal metal plate 1〇7 switch part, please refer to the fourth and fifth figures. In this case, at least one positive and negative hole socket or porous socket, the socket 103 is provided with the socket conductive elastic piece 123 and Corresponding to 127, the socket conductive piece fixing screw 124 is fixed to the broadcast base 133, and the socket conductive elastic piece 丨 23 is a long line plug socket 〇I22' socket conductive elastic piece 123 and 127 around the appropriate position for contact or non-contact heat transfer or amplitude The temperature switch or the thermistor or the temperature fuse or the reset fuse or the temperature sensing element or the thermal metal plate switch 125 fixed by the heat generating device prevents the socket conductive tabs 123 and 127 from contacting the high-heat socket when the set temperature reaches the power-off source. 1〇3 burnt, for faster and more precise in the socket 103 socket conductive shrapnel 123 and 127 around the appropriate position with contact or non-contact heat transfer or radiation thermal insulation The thermal or insulating thermal conductive silicone or insulating thermal conductive material 126 conducts heat or radiates heat to the middle or any position of the conductive shrapps 123 and 127 of the one-pole socket, and the device is fixed at the appropriate heat conduction position or the contact resistance or the temperature is recorded. The wire or temperature sensing Q element or the thermal metal plate switch 125 reaches the breaking power supply when the set temperature reaches, preventing the socket conductive elastic piece 123 and 127 from being in contact with each other to cause the high heat socket 1〇3 to be burnt, so that the design device can be overloaded and overloaded. And the socket 103 socket conductive elastic piece 123 舆 127 bad contact occurs to cause the occurrence of high temperature fire caused by a fire accident. Figure 8 is a safety invention of the socket power supply overload and overheating. The relay and the overload thermal switch and the socket insert are provided with a structure of heat conduction to the temperature switch or the sensing temperature element. The invention is a fully protected socket structure body, a relay 129 and an overload thermal switch 1〇7 and a socket 103 socket conductive elastic piece 123 are provided with an insulating heat conductor 126 to conduct heat to a temperature switch or a temperature sensor element 125 to secure the socket. Structure, overload thermal metal #1Q7 part please refer to Figure 6, socket 103 socket conductive shrapnel 123 is provided with insulation heat conduction gauge 126 heat conduction to temperature open 12 200937788 off or sensing temperature component 125 please refer to Figure 7, this figure only describes the relay In combination with the overloaded thermal metal sheet 107 and the temperature switch or the temperature sensing element 125, when the power is taken, the slide switch 108 is used to push the hot metal sheet 107 to the left. The thermal metal sheet conductive contact 112 is connected to the power input conductive sheet. Point 113 contacts the power output conductive sheet 1〇4 to the socket 103 socket conductive elastic piece 123' socket 103 the other pole power source is directly input into the socket 103 socket conductive elastic piece 127 by the plug 115, the socket conductive elastic piece 127 is connected in series with the temperature switch or the temperature fuse or The temperature sensor element 125 is connected to the position of the relay 129 electromagnetic coil 128, and the other pole power source is directly input by the plug 115 to the power input contact 13 of the relay 129. , the relay 丨 29 the other pole electromagnetic coil contact 132 is made of the thermal metal sheet 1 〇 7 thermal metal sheet conductive contact Π 2 and the source input conductive sheet contact Π 3 〇 connected to the start button 136 ' maintain the contact point 138 The electromagnetic coil coil contact 132 is connected, and when the power is taken, the relay 129 is used to activate the button 137 electromagnetic attraction, the power supply wheel is connected to the contact point 13〇, and the relay is turned out to the contact point 131, and the power input is overloaded with the moving metal piece 1〇7. The hot metal plate conductive contact 112 and the power supply wheel into the conductive sheet contact ι13 contact the power output conductive sheet 1〇4 are connected to the socket 103 socket conductive elastic piece 123 for power supply, when the socket conductive elastic piece 123 or 127 is in poor contact, the same heat reaches the temperature. Switch or temperature sensor component set point start-up relay 129 electromagnetic line is powered by 128, electromagnetic magnet is disconnected and the relay output contact 131 power is turned on, when the power is fully loaded by the overload thermal metal sheet 1〇7 Disconnect power, start relay 129 solenoid line _ B2 〇 power reduction and start relay output contact 131 power supply, when the socket conductive shrapnel 123 舆 socket conductive shrapnel 127 short circuit voltage drop by relay 129 electromagnetic voltage In less than one millisecond, the socket is electrically disconnected from the conductive elastic piece 123 and the socket conductive elastic piece 127. This combined application can ensure the safe use of the socket. Fig. 9 is a safety invention of the socket power supply overload and overheating, and the relay and the thermal metal plate switch are combined into one integral diagram. The relay of the invention is integrated with the thermal metal switch of the thermal switch structure 101. The relay 129 is provided with a push button switch 108 and a switch holder U0. The power source is connected in series with the input terminal 116 to the thermal metal piece 107, and the thermal metal piece is connected. The conductive contact 112 is in contact with the power output conductive pad contact 113. When the power is used, the key switch 1 〇 8 is pressed to press the relay movable piece 142, and the relay can be 13 200937788. The conductive piece 138 on the conductive piece 138 turns on the relay power output contact 131 Turning out, the relay electromagnetic coil 132 is connected in series with the power supply, and the other pole electromagnetic coil 128 is connected in series with the relay power supply output contact 131 and connected to the socket. When the output wire is short-circuited, the electromagnet coil voltage drop is immediately taken off the output. The power supply and the power overload are turned off by the thermal switch. If the power is to be turned off, the push button switch 108 is pushed to push the column 143 to move the metal piece 107, and the thermal metal plate conductive contact 112 is separated from the power output conductive pad contact 113. The electromagnetic coil 128 power supply is turned off, so that the power supply connected to the relay wheel is guaranteed. Preferably, the slide switch can be changed to a design cylinder at the bottom of the rocker switch as a thermal switch or a metal switch. Preferably, the socket is overloaded during power take-off or the socket conductive shrapnel is in poor contact to generate high heat. The device overloads the thermal metal plate switch and the temperature switch or the thermistor or the temperature fuse or the temperature sensing element is connected in series and is applied to the present invention. The socket overload and overheat safety device can activate the power supply. Preferred: single-hole positive and negative sockets or porous positive and negative sockets, wherein the overloaded thermal metal plate switch device in the porous positive and negative socket device can transfer heat and radiation in the middle or at the proper position of the positive and negative poles of the socket conductive piece or the conductive piece of the socket The heat reaches the position socket or the socket housing, and at least one or more series of overloaded thermal metal plate switches or temperature switches or thermal resistors or overlying fuses or temperature sensing elements can be arranged in place to transfer heat to the heat conductor. The radiation heat reaches the position. When the power is overloaded, the thermal metal plate switch automatically cuts the tax and cuts off the power; the contact hole of the socket is in contact with the power to generate high heat, and the thermal metal plate switch heats off automatically to take off the power supply. Preferably, the power supply is: Any overload in the use of power or poor contact of the conductive strip of the socket produces high thermal energy. The component that uses the power supply is turned off. (4) Closed or the temperature fuse or temperature sensor device is placed in the appropriate position around the conductive elastic piece of the socket or in the socket box. Or heat transfer or radiation heat transfer outside the socket box can be applied to the safety overheating device of the present invention. Preferably, when the socket conductive shrapnel is in poor contact, high heat is generated, and the conductive tab of the socket is contacted or non-contacted to conduct heat or radiate heat to the middle of the positive and negative socket conductive shrapnel or a suitable heat conduction position device to fix the temperature switch or the thermistor. Or reverting fuse or temperature sensing element or heat 200937788 moving metal piece switch 'When the temperature reaches the set point to turn off the power supply, in order to reach the temperature, the power supply is maintained. The PTC electric heater is applied to the breaking circuit to adhere or heat the above components. To the application of the hot metal sheet, the PTC electric heater power supply 舆 temperature switch is connected in parallel with the same pole circuit. The PTC electric heater lacks the other pole power source and does not generate heat. When the power is overloaded or the contact of the socket conductive piece is bad, the high heat is turned off and the output power is generated. The other pole power source uses the electrician to wind the power supply and immediately input the PTC electric heater to generate the temperature to maintain the temperature switch or the thermistor or the returning fuse or the temperature sensing element or the thermal metal plate switch to turn on the power at a high temperature, and The use of a temperature switch in conjunction with a PTC or heat transfer to a moving metal sheet has been described herein for use by the inventors. Preferably, the present invention is provided with a relay electromagnet power supply application, and a temperature switch or a thermistor or an overlying fuse or a temperature sensing element or a thermal metal plate switch of the socket conductive elastic piece 〇 intermediate device can be selected for application, such as a power supply. The serial connection of the thermal metal plate switch is connected to the socket. The conductive film application is the over-breaking power supply. The relay electromagnetic power supply is connected by a thermal metal plate switch to the thermistor or the returning fuse or the temperature sensing element. The power supply, the other pole of the electromagnetic power supply is directly input by the power supply. Preferably, at least one positive and negative hole socket or a porous socket, the device is in the socket conductive piece or in the heat conduction position socket or the socket device temperature switch or the thermistor or the temperature fuse or the cover wire or the temperature sense Query components or thermal metal plate switches to contact or non-contact 0 conductive heat or radiative heat transfer to temperature switches or thermal resistance or thermal fuses or override fuses or temperature sensing components or thermal metal sheets The switch generates high heat when the contact of the conductive piece of the socket or the socket exceeds the fault. When the temperature reaches the set power supply, the power supply element of the socket piece device is electrically connected to the power supply component. Here, it is stated that the device is in the socket or outside the socket due to the socket conductive piece. It is within the scope of the invention to contact the power source to generate a high heat and to disconnect the power supply or issue a warning light or warning. The disclosure of the present invention is a preferred embodiment. Any change or modification of the present invention originating from the technical idea of the present invention and being easily inferred by those skilled in the art will not depart from the patent scope of the present invention. 15 200937788 In summary, the structural features and implementations of the present invention have been disclosed in detail, and fully demonstrate that the present invention is highly advanced in terms of purpose and efficacy, and has great industrial value, and is currently on the market. As far as the application is concerned, according to the spirit of the patent law, the present invention fully complies with the requirements of the new patent. I ask your review board to inspect and pray for the patents.

16 200937788 [Simple description of the diagram] Figure 1 is a safety invention of the socket power supply overload and overheating. The socket is provided with a schematic view of the overloaded thermal metal plate switch or the temperature switch or the temperature sensing element. Figure 1 - A is a kind of socket power supply overload overheating safety invention, simple socket set overload thermal metal plate switch or temperature switch or temperature sensing component sectional view diagram Figure 1 - B is a socket power supply overload overheating safety invention, socket set overload heat Side view of a moving metal switch or temperature switch or temperature sensing element. Figure 2 shows a socket power supply overload and overheat safety invention. The plug-in device is a hot metal plate switch or a temperature switch or a temperature sensing element. The power supply is shown in Figure 2. Figure 1-2 shows a socket power supply overload and overheat safety invention. In the middle of the insert or at the appropriate position, set the overload thermal metal plate switch or temperature switch or temperature sensing component. Figure 3 and circle three-A and Figure III-B are a kind of socket power supply overload and overheat safety invention 'overload thermal metal plate switch The device is placed at the appropriate position of the conductive piece of the socket to heat transfer or radiate heat. When the electrical contact is poor, a high thermal overload thermal metal plate switch jumps off and starts the power supply. Figure 4 is a schematic diagram of a power supply overload overheating safety of a socket, and a schematic diagram of the conduction and breaking structure of the overload thermal metal plate switch. _5 and Figure i-A is a kind of socket power supply overload overheating safety invention, overload thermal metal sheet strict 4 off conduction and cut off top view structure. The six-six-six-six socket power supply overload and overheating safety invention, the overload thermal-powered gold-brow-eye switch has a fixed, open-and-off structure. - Seven is a 'handle power supply overload heat transfer safety invention, overload thermal switch and socket insert set I insulation thermal conduction 馐 heat conduction to temperature switch or sensing temperature component structure diagram. Every eight sockets are connected to the power supply overload and overheat safety invention. The electrical and overload thermal switches and socket inserts are provided with an insulating heat conductor to conduct heat conduction to the temperature switch or to sense the temperature component structure. FIG. 9 is a socket power supply overload and overheat safety invention. The relay is combined with the thermal metal plate switch as a one-piece schematic. 17 200937788 ❹ [Main component symbol description] 101 thermal switch structure 103 socket 105 power indicator or warning sound 10? Thermal metal sheet i〇9 thermal metal sheet contact reply cylinder 111 switch frame 113 power input conductive Contact 115 power plug 1 Π heat-moving sheet structure fixing screw 119 switch positioning plate 121 shrapnel fixing seat 123 socket conductive shrapnel 102 shell 104 power output conductive sheet 106 breaking hot metal sheet contact cylinder 108 sliding switch or button switch 110 switch Fixed seat 112 thermal metal plate conductive contact 114 power input fixing screw 116 power input terminal 118 switch positioning bump 120 center shaft 122 socket hole 124 socket conductive plate fixing screw 125 temperature switch or thermistor or thermal fuse or return fuse Or temperature sensing element or thermal metal plate switch 126 insulation heat conduction or insulating thermal conductive silicone or insulating thermal material

127 socket missile film 129 relay 131 relay power wheel out contact 133 socket base 135 conduction positioning point 137 start button 139 plug insert 141 thermal switch reply button 143 push column 128 electromagnetic coil 130 relay power input contact 132 electromagnetic The coil 134 is turned off and the positioning point 136 is turned off, the button 138 is maintained, the contact point 140 is inserted, the plug 142, the relay movable piece 18

Claims (1)

200937788 X. Patent application scope: Bu-type socket power supply overload overheating safety invention, mainly includes: wire metal plate switch, socket socket missile chip, which is characterized in that: at least one positive and negative hole socket or porous socket, device at least one or A plurality of suitable selection of the thermal metal plate switch or the temperature switch or the reset type fuse series device in the middle of the socket conductive elastic piece or in the appropriate position of the socket or in the socket or outside the socket, 'preparation of electricity exceeds the load or the contact hole of the socket is poorly contacted to generate high heat. Heat conduction or radiation heat transfer to the hot moving gold >1# Guanjie degree money return style to make a slave to the mosquito point to open the socket power supply, and can set the power indicator or warning. 2. The invention of reducing power supply overload and overheating safety mainly includes: plug, plug insert, overload thermal metal plate switch, temperature switch, temperature fuse, temperature sensing component, characterized in that at least the pole plug insert is provided with a conductive contact combination For overloaded thermal metal plate switch or temperature switch or temperature fuse or temperature sensing component, when the electric overload is overloaded, the hot metal plate switch generates high heat or the socket is electrically conductive. #Contact badly produces high heat, and the county heat is transferred to the hot metal# The conductive contact turns off the power supply. 3, - kind of socket power supply overload overheating safety invention, mainly includes: overload thermal metal plate switch structure body, power slide switch, power indicator light, socket, sliding switch cylinder dialing thermal metal plate conduction power supply and start source The characteristic is: the financial touch gold W structure structure is set up with electric motor terminal 舆 hot moving gold; | film off with screw 0 fixed at the close contact, the power output end hand contact with the hot metal plate contact contact wheel The power supply to the socket conductive piece, the sliding switch column is detected, the thermal metal plate contact switch turns on the power supply and the power supply is turned off, and the overloaded thermal metal plate contact switch springs open the power supply, which can be installed at least one The pole hole socket is electrically closed or the positive and negative pole sockets are separately installed, and the power indicator light or warning sound can be set. 4, - a kind of power supply thief shaft safety invention, mainly including · overload thermal metal plate switch, socket, socket conductive shrapnel or plug insert, temperature off or thermistor or thermal fuse or overturned fuse or temperature sensing component Or a thermal metal plate switch characterized in that at least one positive and negative aperture socket or porous socket device has at least one or more suitable temperature switches or thermistors or thermal fuses or blanket fuses or temperature sensing elements or thermal metal The chip switch 200937788 is connected in series with the conductive elastic piece or the plug insert of the socket to contact or non-contact device to insulate or conduct heat or to insulate the thermal conductive hair gel or the insulating heat conductive material to conduct heat to the temperature switch or thermistor or the thermal fuse or the submerged fuse or Temperature sensing element or thermal gold JJ switch, when the power exceeds the load or the brewing guide (4), the high heat is generated to heat or ride the hot metal to the hot metal plate contact switch or the temperature switch or the reset fuse reaches the temperature. Set the point to power off the socket. 5, a socket power supply overload overheating safety invention, mainly includes: relay, thermal metal plate contact switch, socket, socket conductive sheet, characterized in that: relay 舆 thermal switch combination is a 'relay power supply wheel at least one positive Negative hole socket or multi-hole socket device, power supply a bungee input relay, relay power supply by thermal metal plate contact switch output serial connection or relay power supply output serially connected to the hot metal plate contact switch output serially connected to the socket conductive shrapnel, The relay electromagnetic one-pole power supply is connected in series by the hot metal plate contact switch output, and the relay electromagnetic device can be wheeled by the temperature switch or the temperature sensor or the power source directly by the other pole power source. When the power is overloaded by the hot metal Chip contact switch jumps off and break relay electromagnetic power supply, socket positive and negative wire short circuit relay electromagnetic voltage drop relay millisecond enemy power supply, socket conductive sheet contact badly produces high heat temperature switch or temperature sensor reaches temperature set point power supply At the same time, the electromagnetic power supply magnetic tripping relay power supply output is turned on. 〇6. The utility model relates to a socket power supply overload overheating safety invention according to claim 3, wherein the power supply is turned on and the power is turned off, and the sliding switch column 艎 toggles the hot metal piece to replace various switch modes. The moving metal piece turns on the power supply, and the power is turned off, and is not limited to the sliding switch. 7. A socket power supply overload overheating safety invention according to claim 1 or 2 or 3 or 4 or 5, wherein the thermal metal plate switch is overloaded or the temperature switch is overheated and jumpable, and the device can be manually controlled. Turn the switch on or off or press the manual switch to reset or automatically return to the power supply. 8. The invention relates to a socket power supply overload overheating safety invention according to claim 6, wherein the thermal metal plate switch is turned on and the power source is provided with a positioning shrapnel. 20 200937788 9. A socket power supply overload overheating safety invention according to claim 1 or 2 or 3 or 4 or 5, wherein the optional device is in a suitable position of the socket conductive piece to contact or non-contact device insulation heat conductor Or device insulation thermal conductive silicone or insulating heat conductive material to the thermal switch or the thermal temperature setting to reach the temperature switch or thermistor or thermal fuse or the return fuse or temperature sensing component or the thermal metal plate switch to turn off the power. 10. The utility model as claimed in claim 1 or 3 or 4, wherein the socket is powered by an overload and overheating safety invention, wherein the socket is surrounded by a thermal metal plate switch and a socket temperature switch or a thermistor or a temperature fuse or The returning fuse or temperature sensing element or the thermal metal plate switch 舆 relay three sets of components are applied to the socket. 〇U, such as the socket type power supply overload overheating safety invention described in claim i or 3 or 4, wherein the at least one hole positive and negative socket device thermal metal plate contact switch, which is overloaded during power usage Or the contact of the conductive shrapnel of the socket generates high thermal energy to turn off the component of the power supply, the thermal metal plate switch or the temperature switch or the temperature sensor, and the device is placed at the appropriate position of the conductive elastic piece of the socket or in the socket box or outside the socket box to conduct heat or The thermal heat transfer can be applied to the safety overload superheater of the present invention. 12. The invention relates to a socket power supply overload overheating safety invention according to claim 5, wherein the magnetic device electromagnetic power source can be directly input by one pole power source, and the other pole power source is connected by a power source 〇 series of thermal residual chip switches. Connected to the socket conductive piece in series to the relay electromagnetic power supply or the thermal metal plate switch series connected the thermistor or the temperature fuse or the temperature switch or the temperature sensing element to the relay device, when the power is overloaded or the socket is electrically conductive Poor contact with the chip produces a high-heat-breaking power supply and those who have turned off the power. 13. The invention relates to a socket power supply overload overheating safety invention according to claim 1 or 3 or 4, wherein the temperature is used when the power is used or the contact of the conductive pad of the socket generates a high heat start_power supply and the power supply is turned on, the temperature is Arrival set to start the power supply, in order to achieve the power supply to maintain the (10) circuit 'application blower to maintain high temperature and the above components adhere to heat transfer to the thermal metal sheet to open the conductive contact or thermistor or temperature switch or temperature sensing The component is powered off. 14. A power supply overload overheating according to claim 1 or 3 or 4 of the patent application. 200937788 Safety invention, in which the socket is overloaded during power take-off or the conductive fret of the socket is poorly contacted to generate high heat, and the device is overloaded with a hot metal switch.舆The temperature switch or the thermistor or the temperature fuse or the temperature sensing component is connected in series. The power socket is overloaded by the thermal metal plate switch. The contact of the conductive shrapnel is not good. The high heat is removed from the temperature switch by the temperature switch. The invention is characterized in that the socket overload and overheat safety device is turned on and used. 15. A socket power supply overload overheating safety invention as claimed in claim 1 or 2 or 4 wherein at least one positive and negative plug blade is provided with at least one temperature switch or thermistor or thermal fuse or blanket fuse Or the temperature sensing element or the thermal metal plate switch is connected in series at the plug insert to contact or non-contact device insulation heat conductor or insulating guide heat-insulating rubber or insulating heat-conducting material to conduct heat to temperature switch or thermistor or thermal fuse Or an overriding fuse or temperature sensing element or a thermal metal plate switch, when the power is exceeded, the conductive contact of the plug or the plug is poor, resulting in high heat to conduct heat or radiate heat to the thermal metal plate contact switch or temperature switch. Or the return-on fuse reaches the temperature set point to turn off the power to the outlet. 16. A socket power supply overheating safety invention according to claim 1 or 2 or 3 or 4 or 5, wherein a power indicator light or a warning sound can be provided. twenty two