TW201228154A - Power saving socket device in power-saving stage - Google Patents

Abstract

The present invention relates to a power saving socket device in a power-saving stage, particularly, to a socket device which can utilize the working temperature of a first heating element of a main socket to control a subsidiary socket control loop to form a common connected or disconnected path. The base of the socket device has an extension cord connected to an external power supply, and the base surface is provided with a main socket and more than one subsidiary sockets for electrical connections of preset electronic devices and peripherals, wherein at least one subsidiary sockets are respectively connected in parallel and then connected with a subsidiary socket temperature sensory switch in series, and electrically connected to both sides of the power supply side of the subsidiary socket control loop. After the main socket is connected in series with the main socket temperature sensory switch and the first heating element which are connected in parallel, it will then be connected in parallel with the power supply side, control whether the subsidiary socket control loop forms a connected path or not based on the working temperature generated by the current amount of the first heating element that flows through the main socket control loop, and control whether the main socket control loop divides the current or not to thereby achieve the energy-saving effect.

Description

201228154 VI. Description of the Invention: [Technical Field] The present invention provides a power-saving socket device in a power-saving mode, and after the main device of the electronic device, the heating element for the material of the main socket is controlled by the material The generated temperature, the control sub-inlay circuit is formed outside the circuit: the circuit device of the road or the open circuit, to control the path of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The power supply of its peripheral equipment will save power. [Previous technology] Press, the computer host with various peripheral devices such as printers, projectors, etc., composed of electronic device groups, you can play the computer = variety, picture or image broom or edit, briefing The production of the film is different (4), etc., and the various lions work in the lions, and the various electronic Fs are all products. When Lei Meng dreams, most of them need to supply power to start the operation of the sub-devices. (4) The functions of the gamma, the secrets of the city's electric wire insertion, can not be supplied to the fresh (four) sub-devices, the secret electricity needs = socket 'set the hole for each hole, respectively, to obtain the power of the f, but also the function of the device; but various Electronic S Hui, various electronic plugs, after the hole in the socket that is electrically connected to the extension cable, 'all kinds of electronic hers are on standby _ :: each: the electronic council consumes a little -- H Xiao consumes a lot of power; or when the computer host is on standby Or when the shutdown is not used in 201228154, if the station has a Greens ship to the ship ^ to the simple f, the _ side of the sub-device will still be, and complain, and continue to consume power, so the power supply to the computer and peripheral equipment t-type electronic device Extension line 'in actual operation At the time of implementation, there are still inconveniences and troubles of the eve, such as: (1) The multiple electronic devices connected to various peripheral devices of the computer mainframe, pb uses the extension cable for power supply, and when the computer mainframe is operated, all kinds of peripheral devices must Power supply, boot to match the operation of the host computer, but when the shame host is in standby or shutdown, most users do not power off and stop supplying power to each peripheral device, which will cause the electronic devices to be in standby. In the state, the power supply is still continuously consumed, and a waste of power is formed. (2) The average consumer does not understand the power consumption of various electronic and electrical products, and the extension cord socket for power supply is electrically connected to the computer host of the electronic device and various peripheral devices. The formation of a synchronous full-power supply second extension line instantaneously flows through a large number of power sources, which easily causes the extension line to burn out due to excessive current, which not only affects the safety of the electronic device but also causes a fire. (3) When the weather is unstable and lightning or lightning occurs, or most electronic and electrical products are connected in series to the power supply of the same extension line, it will easily lead to a sudden high voltage situation in the power supply in the room, which will result in The electronic and electrical products are affected by the transient high-voltage and the faults and damages 201228154 is based on 'how to solve the current extension cord socket in the electronic device and the various peripheral devices are electrically plugged in. The problem, in the various types of sub-lamps, the money, the division, the job, the power outage, resulting in the lack of operation ^, that is, Lin (four) people and the business of the industry to explore the direction of improvement. [Summary of the Invention]

_ Therefore, in view of the above-mentioned problems and deficiencies, the inventors have collected relevant information, evaluated and considered through multiple parties, and have accumulated many years of experience accumulated in this industry. ' Through continuous trial and modification, we have designed this kind of transmission sensing master. The current of the socket flows through the electronic circuit and the temperature is high and low, and the power supply of the auxiliary socket is controlled to turn on or not, thereby achieving the invention patent of the power-saving socket device in the power saving. The main purpose of the present invention is to provide a seat body connected to the outside, and an extension cord connected to the outside. The surface of the city body is provided with a preset electronic sound: a position for electrical insertion, and The auxiliary socket is connected to the power supply side of the sub-socket control circuit by the sub-socket in the series sub-socket temperature-sensing switch, and the main socket is connected in series to the main-socket temperature-sensing switch in parallel and the first heating element. Parallel to the power supply side, and then by the temperature of the current and the small temperature of the heating element flowing through the main socket control loop to control the sub-outlet control loop to form a path or not, and control the main socket control loop to divert or not, and To achieve the effect of saving electricity. The secondary object of the present invention is to use the electronic circuit to have the characteristic of the impedance 201228154 and the characteristic of the temperature sense_closed circuit temperature higher than the open circuit temperature plus the setting of the sub-socket temperature sensing, the closing circuit temperature is lower than the main socket temperature sensing opening and closing road The temperature, so, when the current flows through the electrons back _, the temperature will be generated to make the sub-socket 'the sense of the attack'. The main socket is warm and the majority is closed. (4) It is in a closed state. That is, when the power is close to zero (power consumption), the power is turned on (when the temperature sense is greater than _temperature scale, it is no feed, close to zero impedance, that is, close to zero power consumption), until the temperature of the recording temperature switch is lower than because of current shunting. When the open circuit temperature is open, the open circuit temperature is generally higher than the open circuit temperature by 1 Q (.〇), and the current will flow through the electronic circuit (such as: the first heating element) and then warm up until it exceeds The closed-loop temperature of the main socket temperature switch makes the main socket warm and touches again - the closed circuit, so the cycle goes on, so that the energy-saving plug-in wire that is controlled by the pure-skilled circuit is still small. It can be said that it is a festival in power saving. The green product in the green. The re-purpose of the present invention is to place the main socket control loop and the sub-socket control loop in the heat preservation box to reduce the temperature sense of the main socket _ and the heat dissipation effect of the auxiliary socket temperature switch to extend The passage time of the main socket temperature sensor switch and the sub-socket temperature sensor switch also reduces the time for the current to flow through the heating element, and the energy saving is further improved. 7 Another object of the present invention is the first circuit of the main socket control circuit. The main socket temperature sensing switch is connected in parallel with the first heating element and the overcurrent protection device, and the first heating element and the overcurrent protection H are connected in series, and the first circuit is further connected in parallel with -group or above. The second loop (or the third loop, etc.) 201228154 The first loop (or the third loop, etc.) is provided with a second temperature switch (or a third temperature switch, etc.) in series, and a second heat generator (or a three-heating body, etc., that is, by a parallel first circuit, a group or more than a second circuit (or a circuit), and then connected in series to the main socket circuit, and a group or a group of two Loop (or third loop, fourth loop In the road, etc., the impedance value between the heating elements is large and small, and the first heating element is larger than the second heating element> the third heating element (> the fourth heating element, etc., and so on) Then, each of the temperature sensing switches senses the current*, low' of the main socket, and senses the temperature change of the first heating element, the second heating element (or the first heating element 4), and the order of the paths formed between the circuits. In order to increase the impedance value of the heating element connected in series with each temperature sensing switch, the larger the impedance value of the heating element connected in series in each temperature sensing switch, the more the path is formed, that is, the second temperature sensing switch precedes The third temperature sense switch (the third temperature sense switch precedes the fourth temperature sense switch, etc., and so on), and the recording temperature sense switch is not connected to the heating element (in fact, the wire is also a heating element, but the wire The impedance value is very low, so it is negligible. Therefore, the path is finally formed. Therefore, it is possible to select different current sizes to select the heating element holding path of the most appropriate impedance value, that is, to maintain the temperature of the main socket control circuit. The switch maintains the path without causing the temperature of the heating element to be too high And reducing the switching frequency of the temperature sensitive switch to increase its life, that is, the natural phenomenon that heat is generated by using current flowing through all the electronic circuits to control the power path or open circuit of the secondary socket temperature switch of the auxiliary socket control circuit, and Provide one or more secondary outlet control loops to form a power path or open circuit, resulting in more energy efficient and extended product life

S 7 201228154. Another object of the present invention is to provide an electronic circuit, the two ends of the electronic circuit are connected in parallel with the two terminals of the sub-socket temperature sensing switch of the sub-socket control circuit, and the trigger circuit of the electronic circuit is connected in series with a current-limiting resistor. Parallel to the first heating element' so that the voltage across the first heating element can be divided by the current limiting resistor to obtain a trigger switch for the current to flow into the electronic circuit for accelerating the sub-outlet control loop. A further object of the present invention is to provide a coil of an AC normally open relay in series with the first heating system in the power saving socket device, and a secondary switch temperature sensing switch on the secondary outlet control loop of the relay. End, using the current flowing through the AC normally open relay coil to accelerate the start of the secondary socket control loop 'at the same time, by the first heating element flowing through the main socket control loop or the AC normally open reading || line_current A, The temperature generated by the small control to control the auxiliary socket to form the secret or not, and control the main plug-in loop to divert or not 'avoid the parent flow f open electricity n coil temperature is too high or even burned, and achieve the effect of safety and power saving. [Embodiment] In order to achieve the above object and effect, the technical means and structure of the present invention, the scales of the preferred embodiment of the present invention are described in detail below, and the advantages are fully understood. See the first and second figures, which are the three-dimensional appearance and simple circuit diagram of the present invention. It can be clearly seen that the section 201228154 of the power saving section of the present invention has a secondary socket control circuit 2 and a main socket control electric socket device. The utility model comprises a seat body circuit 3, wherein: the seat body 1 has an extension line 11 electrically connected to an external preset power supply' and the extension line 1 i is extended by the face 2 f < ancient + 4 The surface 'is then divided into two main sockets 1, 2 or more sub-sockets i 3 .

The sub-socket control circuit 2 is provided with a power supply side 2, and the power supply side Η has a live power supply end α) 211, a ground power supply end (N) 2i2, and is powered by a hot line & α) 211 respectively (4) _ flow switch 2丄3, sub-socket temperature sensor switch 22, sub-socket power-on display circuit 23 resistance 2 3 1, light-emitting diode 2 3 2 and parallel main-pad electrical display circuit Η 4 after 're-series to ground supply terminal 2 2, and the power supply side 2 work of the fire line power supply end (L) 21 1, the ground line power supply end (Ν) 2丄2, and then parallel surge absorber 24. The main socket control circuit 3 is a light-emitting diode that is connected to the first heat generating body 3丄2, the overcurrent protector^3, and the main socket power-on display circuit 314 by using the first-loop circuit breaker temperature sense switch 311. After 3丄4 2, connect to the ground power supply terminal (N) 212, and the power supply side 2丄 between the live power supply terminal (L) 211 and the ground power supply terminal (N) 2 1 2, and then parallel surge absorption The device 24, the resistor 3141, the light-emitting diode 314 2, and the first heating element 312 and the overcurrent protector 313 are electrically connected in series, and the main socket is energized to display the resistance 3 of the circuit 3 14; [4 1. The light-emitting diodes 314 2 are also electrically connected in series. s 201228154 When assembling the above components, the marriage body i _ is provided for the auxiliary socket control circuit 2 and the main socket control circuit 3, and the main body socket 12 of the base body is connected to the first circuit of the main socket control circuit 3 respectively. 31 ^ Loop 3 2 (the first loop 31 and the second loop 32 are connected in parallel) after the parallel main socket energizes the display circuit 314, and then with one or more sub-jacks 13 in parallel with the sub-socket control loop 2 The power supply side is electrically connected to the power supply side of the sub-socket control circuit 2, and the hot line power supply end (1)^1, the ground power supply end (N) 212' is electrically connected to the extension line 11 of the base i, and is utilized. The power supply side 21 of the live line power supply end (L) 2 workers, the overcurrent protection switch 2 13, the sub-socket temperature sensor switch 22, the ground line power supply end (N) 212 between the 'connected one or more than the sub-socket丄3, the auxiliary socket 13 is connected in parallel with the sub-socket power-on display circuit 2 3, and then the sub-socket temperature-sensing switch 2 2 of the sub-socket control circuit 2 is connected in parallel, and the first-loop 3 1 of the main socket control circuit 3 is respectively connected in parallel (ie, - The heating element 312 is connected in series with overcurrent protection benefit 313), the main socket temperature sensing switch 311 and the main The socket power-on display circuit 314 (including the series resistor 3 2 4 i, the light-emitting diode 3 丄 42), and the first circuit 31 and the second circuit 3 2 of the main socket control circuit 3 are respectively connected to the main socket 12. Ground power supply terminal (N) 21 2 ' to complete the power saving socket device of the present invention. The above-mentioned seat body 1 is electrically connected to the indoor power socket through the extension cable 11 to obtain the preset power supply of the commercial power to transmit the preset power supply to the supply surface 2 i of the secondary socket control circuit 2; And by the power supply side 2 201228154 1 parallel surge absorber 2 4 'when the extension line 11 transmits the power supply

Pressure, causing the secondary socket control circuit 2, the main socket control circuit 3 failure, damage 'its fire line power supply, the secondary side control circuit 2 power supply side 2 work, the reference end (L) 21 1 series of overcurrent protection switch 213, is a bimetal switch (mechanical switch) with a current resistance up to 15 amps (4), a sub-socket temperature switch 22, a main socket temperature switch 3 1 of the main socket control circuit 3, and is resistant to current values. i 双 Ampere (4) or more bimetal switch (mechanical switch). In addition, the socket >1 sense switch 2 2 senses that the 'w degree' of the first heating element 3 1 2 is higher than the closed circuit temperature, and the secondary socket temperature is closed at both ends to form a closed circuit 'to provide power supply. The side 21 and the power supply of the one or more sub-sockets 3 form a path state; the sub-socket temperature sensor switch 2 2 senses the μ degree of the first heating element 3 12 , and if it is lower than the open circuit temperature thereof, the auxiliary socket The temperature sensing switch 2 2 forms an open circuit at both ends of the power supply side 2 and the power supply of the one or more sub-sockets 丄3, and is in an open state; and the closed circuit temperature of the secondary socket temperature sensor 2 2 is higher than the closed circuit temperature Open circuit temperature to effectively control one or more sub-outlets! 3 power supply or power off. The main socket control circuit 3 and the sub-socket control circuit 2 can be placed in the insulation box 201228154 box to reduce the heat dissipation effect of the main socket temperature sensor switch 3]_1 and the sub-socket temperature sensor switch 2 2, and the heat energy is as much as possible. The use of thermal energy to extend the passage time of the main socket temperature sensor switch 311 and the sub-socket temperature sensor switch 2 2 can also reduce the time for the current to flow through the first heating element 312 to achieve more advanced energy saving. The electronic circuit of the power-saving socket device of the present invention passes through the first heating element 312 of the main socket control circuit 3 (eg, an AC switch [TR ϊ Ac ], a relay [R e 1 ay], a resistor, a heating wire, a diode) The heat generated by the body, the enameled wire, the PPTC, the integrated circuit (I ntegrat ^ · C ircuit), the transistor or the diode, etc., is used to control the main socket temperature sensor 31 1 and the main socket temperature switch 31 1 When the circuit is closed, the other electronic circuits are bypassed, that is, most of the current will flow through the main socket temperature switch 311 (because the impedance value of the electronic circuit is much larger than the main socket temperature switch 31 1 after the circuit is closed) The impedance value, while the current flowing is large and small, is inversely proportional to the impedance value. At this time, the power consumption of the entire socket device will be less than the power consumption of the energy-saving socket device that is generally controlled by the electronic circuit ( Please also refer to the 11th, 12th, and 13th drawings. It can be said that it is a green product in power saving and green. Please refer to the second, third and fourth figures for a simple circuit diagram of the present invention, a three-dimensional appearance of the preferred embodiment, and a simplified circuit diagram of still another embodiment. As can be clearly seen from the figure, the present invention The power-saving socket device is connected to the first circuit 31 of the main socket control circuit 3 of the base 1 (the main socket temperature 12 in parallel is 201228154, the switch 31 1 , the heating element 312 and the overcurrent protector 3丄3) a heating element 312, an overcurrent extinguisher 3 13, a second temperature sensing switch 321 of paralleling one or more sets of second circuits 32, a second heating element 3 2 2 and a third temperature sensing switch of the third circuit 3 3 3 3丄, the third heating element 3 3 2 (or the fourth circuit of the fourth circuit, etc., the figure is not shown, and the first

The heat body 312, the second heat generating body 3 22 and the third heat generating body 3 3 2, etc., may be a low-impedance wire, an enameled wire, a metal terminal, a nickel wire, a resistor, a heating wire, or an integrated circuit Untegrate Cii" (:uit), transistor, diode, AC switch (TRI AC) or relay (R e 1 ay)#'All kinds of heat generating objects that generate heat energy' and the first heat generating body 3 1 2 The value of the second heat generating body 32 2 is greater than the resistance value of the second heat generating body 3 2 2 and the impedance value of the second heat generating body 3 2 2 is greater than the impedance value of the third heat generating body 3 3 2 (or the third heat generation). The impedance value of the body 3 3 2 is greater than the impedance value of the fourth heating element, and the impedance value of the fourth heating element is greater than the impedance value of the fifth heating element, etc., and so on, but not shown in the figure), as for the wire The impedance value can be calculated according to the formula p X 1/α=Ω. The first heating element 312 of the main socket control circuit 3, the one or more second heating elements 3 2 2, the third heat conductor 3 3 2, and the like may be electrically connected in a series or parallel manner and in a conducting state. Furthermore, the main socket temperature sensing switch 311 of the main socket control circuit 3 can be connected in parallel with the first heating element 312 of the first circuit 31, the overcurrent protection device 31 3 and the first or more sets of the second circuit 3 2 Two temperature sense switch 3 21 201228154

The third heat-sensing switch 3 31 and the third heat-generating switch 3 31 and the third heat-generating body 3 3 2 of the second heat-generating body 3 2 2 and the third heat-generating body 3 3 are insulated from a heat-conducting tree (a material for rapid heat conduction such as a name plate or a copper plate) In contact with the main socket temperature sensing switch 31 1 , the second temperature sensing switch 3 21 , the third temperature sensing switch 3 3 , etc., the first heating element 312 and the second heating element 3 2 2 can be sensed at the same time. Second heating element 3 3 2 (wire, enameled wire, metal terminal, nickel wire, resistor, heating wire, integrated circuit (I ntegrate C lrcult), transistor, diode, AC switch [TR industrial AC] P PTC , or the temperature of a relay such as a relay (R eiay). When the total current value flowing in the secondary socket control circuit 2 and the main socket control circuit 3 is greater than 15 amps, the overcurrent protection switch 213 of the secondary socket control circuit 2 is automatically disconnected to form an open state to prevent over-excession. The current causes the socket device to burn out, and the safety of the socket device is improved: when the power supply side 21 is electrically connected to the extension line, when the power supply generates an abnormally high voltage, it is absorbed by the surge absorber 24 Abnormal high voltage, and led to the ground power supply terminal (N) 212, outward discharge, can avoid the secondary socket control circuit 2, the main socket control circuit 3, affected by the instantaneous high voltage, prevent the main socket of the socket device主机2 The main unit 4 1 of the electronic device 4 electrically connected (such as a computer, a television or an audio system), and one or more sub-outlets 13 are electrically connected to a plurality of peripheral devices 4 2 (eg, a printer) , scanners, speakers, speakers, etc., failure, burning, damage, etc. 14 201228154

^When the electric socket is placed in the implementation, the main unit, one or more sub-sockets 13 of the base 1 can be used for the host of the plurality of electronic devices 4 1 and the Hubian Lai 42 respectively And the power cable of the host 41 (such as a computer, television or stereo, etc.) is electrically plugged into the main socket 12 and various peripheral devices 42 (such as: printer, broom, projector, gamma, gamma, The multimedia video player (the tool for the peripheral application of the DV main unit 41) is electrically plugged into the sub-socket 13 on the second 1=. When the host 41 of the electronic device 4 is turned on, there will be more than 〇5 amps (A). The current passes through the first circuit 3 of the main socket control circuit 3, the first heating element 3 1 2, and simultaneously passes through the sub-socket, the temperature senses 2, the main socket temperature sensor 31 1 debt measurement first-heating body 3丄2 The heat energy and temperature are such that when the sensing temperature of the heating element 3 1 2 is about 4 ° C (°c), the sub-socket temperature sensor switch 2 is in a path state, and the power supply of the sub-socket control circuit 2 is provided. The side 21 and the one or more auxiliary sockets 3 form a passage for each of the peripheral components of the one or more auxiliary sockets 13 to be electrically connected 4 2 energizing, starting, and the first heating element 312 of the first circuit 31 of the main socket control circuit 3, if the heating and temperature rise continue, that is, when the temperature of the first heating element 312 is at 50 degrees Celsius (C), That is, a second temperature sensing switch 3 21 of the second circuit 3 2 is activated, so that the second temperature sensing switch 31 forms a path, and the current of the first circuit 31 is shunted by the second circuit 32 to slow down and lower the first The heat energy and temperature of a heating element 312 are provided for the first heating element 312

S 15 201228154 Holds under the temperature of the Queen (greater than the temperature of the room temperature), and uses the over-current protection shy 3*1 3 to protect the power supply state of the first-loop 3丄, and the first circuit of the second circuit 3 2 The heating element 3 2 2 starts to generate heat and rises; and when the main socket 12 is electrically connected to the host 41, if the current is between 2 amps and 5 amps, the second heating element 3 2 of the first loop 3 2 2, the temperature will exceed 6 degrees Celsius (C) 'that is through the third set of third circuit 33 (or fourth circuit, fifth road, etc.) third temperature switch 3 3 丨 conduction, for this third interest The path 3 / into the path 'and to divert the first circuit 31, the second circuit $ 2 of electricity \ to reduce the second heating element 3 2 of the second heating element 3 2 2 thermal energy, temperature; and the first heating element 312, the second The heating element 3 2 2 or the third heating element 3 3 2 'is both low-impedance clocks (eg, wires, enameled wires, metal terminals)

, recording wire, resistor, heating wire, transistor, diode, AC switch (T RIAC), any kind of heating element], can withstand 1 () ampere (eight) current. Furthermore, if the current ' flowing through the third heat generating body 3 3 2 of the third circuit 3 3 is between 5 amps (A) and 7 amps (A), the third heat generating body

3 3 2 generated micro temperature, can be used for the sub-socket temperature sensor switch 2, the second temperature sensor switch 3 21, the third temperature sensor switch 3 31, keep in the path state, if the second phase of the gas circuit 3 3 When the current L of the heating element 3 3 2 is greater than 7 amps (A), the temperature generated by the third heating element 332 will be greater than 65 degrees Celsius (° C.), at which time the main socket temperature switch will be activated. 3 i丄, and the main socket control loop 3 impedance value will be the lowest, low shot to let 1 ampere (A 201228154) current flow and not over temperature, to make a socket (4)

When the main thin _ road 3 green is lower than the pre-performance, the first heating element 312, the second heating element W2, and the third heating element 332 are cooled to provide a warm feeling for the main socket (4) 1 1 or even the third The third temperature-sensing switch 331 of the circuit 3] forms an open circuit. At this time, the third circuit 33 also forms a disconnected state, and the path of the sub-loop 31 and the second circuit 32 can be maintained. In the case where the recording control system 3 is a small current, the sub-socket control circuit 2 forms a path with the first circuit 3丄, and supplies power to the main socket 12 and each sub-socket 丄3; if in the main socket = system When the loop 3 belongs to the medium current, the path is formed by the sub-socket control loop 2, the first loop, and the second loop 32 to supply the main plug 2 and the power of each sub-jack 3; 3 When it is a large current, it is necessary to form a path through the sub-socket control circuit 2, the first-loop 3i and the second circuit 3, the third circuit 3 3, and even the main socket temperature sense to provide a main socket 12 And the power consumption of each of the auxiliary sockets 13. That is, the external power supply is electrically connected through the extension line 11 of the base body 1 to The power supply to the power supply side 21 of the secondary outlet control circuit 2, and the current value supplied by the power supply side 21 is large and small, to the first heating element 312 of the main socket control circuit 3, and the secondary socket temperature sensing switch 2 is controlled. The main socket temperature sensor switch 31 1 is in the conduction mode. When the sub-socket control circuit 2 and the main socket control circuit 3 are in the path state, the sub-socket temperature sensor switch 2 2 is turned on first, and then the main socket temperature sensor switch 31 1 is turned on; In the secondary socket control circuit 2, the main socket control 201228154 said 3 is broken road scale '1 peach control socket quality sense switch 3 1 1 after the circuit, then control the socket temperature sense _22 open circuit; (four) from the power supply side 21 supply The current value of the first heating element 3 i 2 to the main socket control circuit 3 is large and small, and the main socket temperature sensing switch 311 and the sub-socket are in a sequence of passage or open circuit, and the control domain control circuit 3 is controlled via Divide 3 2 帛 first loop 3 3 and so on, and control sub-socket control = road 2 can only form a path after the host 4 丄 _ of electronic money 4, and only after the host 4 1 of the electronic device 4 is turned off Shaped road, and achieve the power saving effect of the power saving socket device of the present invention And the main socket control circuit 3 is connected in parallel with the first loop 31 or the second loop 3 2 above the group, when the second temperature switch 3 2 1 of the second loop 3 2 is higher than the sensing temperature When the closed circuit temperature is closed, the second circuit 3 2 is turned on to shunt the current of the first circuit 31; and the main socket control circuit 3 is a group or a second circuit 3 2 above the plate (the third circuit 3 3, The second temperature-sensing switch 321 (the third temperature-sensing switch M1, the fourth temperature-sensing_ or the fifth temperature-sensing switch, etc.) of the fourth circuit or the third-channel or the like) is shunted, and is slower than the sub-reception control circuit 2 The socket temperature sensor switch 2 2 is activated, so that the sub-socket temperature sense switch 2 of the sub-insertion can be controlled, and after the host 41 of the electronic device 4 is turned on, a path is formed, and the host is formed on the electronic device 4 4 1 After shutdown, an open circuit is formed. & In addition, when the main socket i 2 is electrically connected to the host 4 in the standby or power-off state, the amount of current in the main socket control circuit 3 is lower than 〇·5 amps, 18 201228154 and the main socket control circuit 3 (4) - the heating element 3! 2, the second heating element 3 2 2, the third heating element 3 3 2, the temperature will be lowered to less than 4 摄 摄 ( ° C), then the secondary socket temperature _2, the main socket temperature Sense switch 311,

A temperature-sensing switch 3 21 and a third temperature-sensing switch 3 31 form a power supply of each sub-socket 13 in series with the sub-socket control circuit 2 in a disconnected manner, so as to turn off the power supply of each of the sub-station 1 3 The plugged various types of peripherals 4 2 are powered off, and the energy saving effect is achieved. When the line 41 is in standby or off state, the peripheral devices 4 2 will not be _ power, that is, the object (four) can, save For the purpose of electricity (please refer to the seventh, ninth, and tenth diagrams at the same time), the main unit 41 of the electronic device 4 and the peripheral device 42 have different power consumption during the opening, shutdown or the length of use, thereby effectively reducing the socket device. The cumulative power consumption also achieves a large amount of power saving effect, and the daily power consumption is about (/ ◦ 8 4 degrees / day 0. 1 〇 2 degrees 〆 day), and the power saving is reduced about every day ( -8 2 · 6 %~-8 5.7%) of electricity consumption, where:

Total power consumption (W/day)=host (S1) & peripheral power-on (s 2 ) (Wm+ s) + heating element 3 1 2 power consumption (Tr iac, W average / day) + standby loss (L1 , W / day) It can be clearly seen that the power-saving wire insertion device (Gt) of the present invention is maintained in a power consumption curve table with a low power consumption of 87.5% to 8 9 . (4) between 'watts' Compared with other power-saving extension wire-type extension-type Yanwu line sockets, the extended wire section of the invention has lower power consumption and is indeed reduced.

19 S 201228154 Less electronic device 4 and peripheral equipment 4 2 Daily power consumption. When the power is off, the sub-socket temperature sensor switch 2 of the sub-socket control circuit 2 2. The main socket temperature-sensing switch 31 of the main socket control circuit 3 is in the off state, and no heat is generated. Since the first heating element 312 is in communication with the main socket 12, when the main unit 41 is turned on, the main unit 41 can be started instantaneously, and the sub-socket temperature sensing switch 2 2 senses the temperature of the first heating element 312, and then the child is heated. The temperature of the body 312 activates the secondary socket control circuit 2 and the peripheral device 4 2, the temperature of the first heating element 312 is continuously increased, and the main socket temperature sensing switch 311 'is activated to divert the first heating element 312, and the first The hair, the body, and the body 3 1 2 are kept at a temperature of one turn, so that the power required by the host 41 of the electronic device 4 and the peripheral device 42 can be safely supplied. Please refer to

4 is a simplified circuit diagram of the present invention, and the circuit diagram of (4) of the embodiment is clearly shown in the figure. The sub-socket control circuit 2 of the present invention is on the live power supply end of the power supply side 21 ( L) 2 .

1. The grounding power supply terminal (N) 212 can be electrically connected in parallel; the secondary socket is connected to the circuit 2 and the surge is H2 4, and the main circuit 3 is operated by the first circuit. The main socket temperature sensor switch 3丄丄,) — the heating element 312, the overcurrent protector 3丄3 and the main socket power-on display channel 314, the resistor 3141, the light-emitting diode 3 14 2, through and the way electrical connection Sub-socket temperature sense off 2 2 (can be connected in parallel with 1 sub-switch) Accelerate the start of the field socket control loop 2), to display back to the $23 series resistor 231 and the light-emitting diode 232 through the sub-socket (can be green light 20 201228154 Diode) 'Shows the operation of the secondary socket control loop 2; and on the power supply side 2.1. When power is supplied, if an unstable high voltage is generated, it can be transmitted to the ground power supply terminal (N) 2丄2 through the spur wave, and then sent out to avoid the high voltage. Returning money, prevent the bribe device 4 2 on the secondary socket 13 from being damaged and malfunctioning with the domain 4 on the recording block 1 2 . And the main socket temperature sensing switch 3 2 on the main socket control circuit 3 is used for supplying a large current for diverting the current of the first heating element 312 to prevent the first heating element 312 from being burned. - the heat of the heating element 3丄2 can quickly activate the sub-socket temperature of the sub-socket control circuit 2, and turn on one or more sub-sockets i3; the main socket is energized to display the circuit 3丄4, including The series resistor 3141 and the light emitting diode (led) 314 2 cooperate with the sub-socket temperature sensor 2, and display the operation of the main socket control circuit 3, and simultaneously display the circuit 3 i 4 through the main socket to • connect in series The resistor 3141 and the light-emitting diode 3142 (which may be a red light-emitting diode) indicate whether the total power supply is energized through the extension line 1丄. Referring to the fifth and eighth figures, it is a simplified circuit diagram of another embodiment of the present invention, and a simplified circuit diagram of a preferred embodiment. As can be clearly seen from the figure, the gambling control road of the present invention can be clearly seen. 2 secret start switch 2 2 can also be connected in parallel - AC _ (TRIAC) 3 44, the first heating element 312 of the first loop 31, the overcurrent protector 313, to accelerate the start of the sub-socket control loop 2, Socket 1 3 [by the first loop 3

S 21 201228154 1 The current value of the current rail first-circuit 3 i flowing through - the variable voltage is divided by the parallel resistor 3 4 i to obtain the current of the current switch (TRI ACGate) To quickly start the sub-socket control loop 2, to energize the sub-socket 丄 3)]. When the first heating element 312 is at a large current, the secondary socket temperature sense_2 2 of the secondary socket control circuit 1 can also be activated to turn on the secondary sockets 丄3 and activate the main socket temperature sensing switch on the main socket control circuit 3. 3丄丄, to divert the current of the first heating element 312 to avoid the first heating element 3 i 2, the AC switch (TRIAC), etc. burned 'AC switch' is in a low voltage [about 3 volt (V)] state Start down, it is not easy to spark, and has a long service life. Please refer to the sixth figure, which is a simplified circuit diagram of the present invention--the embodiment. It can be clearly seen from the figure that the sub-socket control circuit 2 of the present invention is on the side of the power supply side 21 - side, and there is a surge in parallel. The absorber 24 and the main socket of the main socket control circuit 3 are energized to display the circuit 314, and then pass through the live power supply terminal (L) 21 1 , the overcurrent protection switch 213, the series sub-socket temperature sensor switch 2 2, the sub-socket temperature sensor switch 2 The two ends of the switch are the two ends of the switch of the parallel relay (R e 1 ay ) 2 21 , between the main socket 12 and the power supply side, and then connected to the main socket control circuit 3, and the main socket control circuit 3 The main socket temperature sensing switch 31 1. The first circuit 31, the second circuit 3 2 and the second circuit 3 3 are connected in parallel, and the coil of the relay is connected in series with the first heating element 31 22 1 ' After the coil of the relay, that is, 201228154, the relay H paste ^qing Road 2 can be used to supply power to each sub-socket 13 to cut the speed of the sub-socket to control the heating element 312 at high current, it can also start _: = back =; ==2' to conduct _ seat 13, _ main 'socket temperature switch 311, to divert the first - fine 'In order to avoid the first - 312 were burned. Please refer to ninth, tenth, tenth, and + _

Ming's power consumption comparison curve, and then, 1' [three figures, this is the hair,., power consumption summer comparison curve, power consumption number 1 table, another - power consumption data comparison table, and - The power consumption data comparison table, as can be clearly seen from the figure, the power saving socket device of the present invention can activate each sub-socket 13 after the main socket 12 is negative, and after the main socket 12 is turned off, In order to cut off the power supply of each sub-socket i 3, so that each sub-socket 13 is loaded with no standby power, the power saving effect can be achieved, and the power-saving plug-in (G t, Gm, gs ) of the present invention is combined with 〆 General use of extension cord sockets, other scales of electric power trailers (Ym, Yt, Ys 'Pm, pt, Ps), etc., to compare the power consumption, by the following electricity consumption formula: Total electricity consumption (W /day): Host 41 (s1) & peripherals 4 2 Power-on (S2) (Wm+s) + Heater 312 power consumption (Tr i ac, W average / day) + standby loss (L1, W / It can be clearly seen that: s 23 201228154 The power-saving socket (Gt, Gm, Gs) of the present invention maintains a low power consumption of 87.5%~8 9 . 3% in the electricity consumption curve table. Between (W, Watt). The commonly used extension cord socket consumes 10% of electricity, other power-saving extension cord sockets (Ym, Yt, Ys; Pm, Pt, Ps), etc., and the power consumption is: 丫 丫 (丫: 11, 丫1: , 丫 3) = 88.6% ~ 90.6% (, 'Watt), Lu

P card (Pm, Pt, Ps) = 88. 1%~9〇.1% (W, watt); It can be seen that the power saving socket device (G t, Gm, G s) of the present invention consumes less power. It is true that the power consumption of the host 41 and the peripheral device 42 of the electronic device 4 is reduced every day. Then compare the standby power consumption of the general extension cable socket, the power consumption of the power saving socket device of the present invention, wherein (the test voltage is 112Vac, the host 4 · 1 daily power-on time 1 OH rs ): then the general socket standby loss = 5 4 9W / day 2 0 . 5 5 degrees / day = [(host standby current + peripheral standby current) X test voltage X ( 2 4 - boot time)]: = (0.05 + 0.3) >< 112 \ (24 — 10) = 549W / day. The standby loss of the power-saving socket device of the present invention: standby power consumption of the main socket 12 is straight=0. 0 5A=0 · 07 8 24 201228154 degrees/day, the standby loss of the host 41=7 8 . 4W/day (the host 4 w is Desktop computer] [Host standby test voltage χ ( 2 4 - boot time) - 0. 05χ112χ(24~ι〇) = 78 · 4W/day = 〇 · 0 7 8 degrees / day. 】

As for the standby power consumption of the sub-socket 13 = 〇.3〇a=〇7 〇度/day 'saving power every day=4 7 QW/day (peripheral device ^ 2 for printer, broom, etc.) [peripheral standby current X test voltage X (u a boot time) = 〇. 3x1 12x (24-10) = 47 〇 w / day = 〇. 4 7 degrees / day. 】 This creation can save energy consumed by peripheral standby. Therefore, the above description is only a preferred complement of the present invention, and is not limited to the full-time a of the present invention. The power saving device of the present invention has a sub-socket control circuit 2 disposed inside the base 1. The main socket controls the road 3' and is connected in series with the main socket 12, one or more sub-sockets 丄3, and through the first loop of the recording control chest 3, the group or more than one group The second circuit 3 2 (the third circuit 3 3 , the fourth circuit or the fifth circuit, etc.) uses the first heating element 312, the one or more second heating elements 3 2 2 (or the third heating element, respectively) 3 3 2. The fourth heating element or the fifth heating element, etc.) senses the current value of the main socket 12 and the main socket control circuit 3, and generates different thermal energy temperatures, thereby controlling the temperature of the sub-socket of the paste socket control circuit 2. Switch 2 2. The main socket temperature sensor switch 311 of the main socket control circuit 3 in series is turned on or off. # Main socket: 2 Electrically plugged electronic equipment 25 201228154 Set 4 host 41 'If it is in standby or off state When the power of the secondary socket control circuit 2 is cut off, resulting in one or more sub-inserts The seat 3 is de-energized, and the peripheral devices 42 are also powered off. For the purpose of saving money, in the domain 4 of the electronic device 4, the peripheral device 4 is turned off and the power is turned off. The sub-socket control circuit 2 is connected in series with the overcurrent protection switch 2丄3' and the auxiliary socket device does not generate the work burned by the current amount, and when the power supply side 21 supplies the power source to generate an unstable high voltage, The wave absorber 24 connects the abnormally high voltage to the ground power supply terminal 2丨2, and discharges it outward, thereby providing a practical effect of the socket device to achieve energy saving and safety of use, so that the structure and device of the wire can be achieved by the present invention. Such simple modifications and equivalent visualizations are encompassed by the invention, and are included in the scope of the patent of the present invention, and are combined with Chen Ming. In the above-mentioned power saving (4) electric wire insertion of the present invention, it can have the following advantages when it is put into practical use and implementation, such as: (1) The main socket 丄2 of the seat i of the power-saving socket device, and the host for the electronic device 4 41 electrical plug-in, one or more sub-socket workers 3 for all kinds of peripheral devices 4 2 electrical plug, that is, when the computer host 4 is in standby or off state, through the main socket control loop 3 main socket The temperature sensing switch 31 1 senses the flow rate of the current of the main socket 12, causing the temperature of the first heating element 312 and the second heating element 32 2 to change, and the control sub-socket temperature sensing switch 2 2 forms an open circuit, and provides a Or more than one auxiliary socket 13 forms an open circuit, and the various peripherals 26 201228154 device 4 2 are powered off, thereby turning the energy saving and the purpose. (-) sensing the change in the current value of the main socket 12 through the field j socket control circuit 2, the main socket control circuit 3, and using the first heating element 3丄2, one or more second heating elements 3 2 2, The three heating elements 3 3 2 produce different low temperature changes. When the current value exceeds the preset current value (15 amps), the overcurrent of the loop 2 is controlled by the secondary socket.

The Bao Laiguan 2 1 3 forms an open circuit to prevent the socket device from being burned, and the safety of the power supply sub-device 4 is improved. Therefore, the invention has a red temperature _Wei design, which utilizes a power-saving socket device and a spur socket control loop and a main socket control loop to control the first loop, a group or a group of the main socket through the main socket. The above second loop (third loop, fourth loop or fifth loop, etc.) senses the change of the current value of the main socket, and then uses the temperature change of the first heating element, one or more second heating elements , controlling the secondary socket temperature sensing switch, the main socket temperature sensing switch, the second or the second temperature sensing switch on the -_ forming a path or an open circuit, controlling the passage or the disconnection of one or more sub-outlets, how to reach the control electronic device Each type of peripheral power is set to be the main protection focus. When the domain of the electronic device is in the _ _ machine-like g, all kinds of peripheral devices that are electrically connected do not need to consume the source of power, and the power and duty are deducted. The over-current protection is set by the auxiliary socket control circuit to prevent the wire from being used for the burnt-out county, which is the advantage of saving electricity and safety. Yes, only, ^

27 S 201228154 is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, so that the use of the present specification and the contents of the drawings is the same as that of the invention. Structural changes are all included in the scope of the patent of the present invention. In summary, the (four) socket device of the above-mentioned materials of the present invention can be used for the purpose and purpose of the device. The creation of excellent practicality is in accordance with the application requirements of the invention patent, and the application is made according to law. It is hoped that the trial committee will grant the case as early as possible to protect the inventor's hard work. If there is any doubt in the trial committee, please give me a letter. The inventor will try his best to cooperate with him.

28 201228154 [Simple description of the drawings] The first figure is a three-dimensional appearance of the present invention. The second figure is a simplified circuit diagram of the present invention. The third drawing is a perspective view of a preferred embodiment of the present invention. The fourth figure is a simplified circuit diagram of still another embodiment of the present invention. The fifth drawing is a simplified circuit diagram of another embodiment of the present invention. Figure 6 is a simplified circuit diagram of still another embodiment of the present invention. Φ Figure 7 is a schematic diagram of power saving data in accordance with a preferred embodiment of the present invention. The eighth figure is a simplified circuit diagram of still another preferred embodiment of the present invention. The ninth figure is a graph comparing the power consumption of the present invention. The tenth figure is a graph of the comparison of the power consumption of the present invention. The eleventh figure is a comparison table of power consumption data of the present invention. The twelfth figure is another comparison table of power consumption data of the present invention. The thirteenth figure is another comparison table of power consumption data of the present invention. [Description of main component symbols] 13. Sub-socket 1, base 1 1 , extension cord 12, main socket 2 21, delay switch 2, sub-socket control circuit 21, power supply side 201228154 211, hot-wire power supply terminal 212, ground power supply terminal 213, over current protection switch 2, sub-socket temperature sensor switch 3, main socket control circuit 31, first circuit 311, main socket temperature sensor switch 312, first heating element 313, overcurrent protector 314, main socket power-on display Circuit 3 1 4 1 , resistor 314 2, light emitting diode 3 2, second circuit 3 21, second temperature sensor 4, electronic device 2 3, sub-socket power display circuit 2 31, resistor 2 3 2, light two The polar body 2 4, the surge absorber 3 2 2, the second heating element 3 3, the third circuit 3 31, the third temperature sensitive switch 3 3 2, the third heating element 3 4, the electronic switch trigger circuit 桓 3 41, Resistor 3 4 2, light-emitting diode 3 4 3, electrolytic capacitor 3 4 4, electronic switch 4 1 , host 4 2, peripheral equipment

Claims (1)

201228154 VII. Patent application scope: 1. A power-saving socket device in power-saving, which includes a seat body, a main socket, a secondary socket, a main socket control loop, and a secondary socket control loop, wherein: » Xuanzu body βχ has a connection to the outside An extension of the power supply and a pre-set on the surface of the base. The main socket of the sub-device is electrically plugged, and more than one sub-socket; the sub-socket (four) circuit is provided with a temperature sensed switch on the circuit, and is provided with a power supply side electrically connected with the extension line of the base body, and utilizes On the side of the power supply side, the sub-socket control system is connected to the circuit, and then more than one sub-socket connected in parallel with each other; «Hai main socket control circuit series main socket, sub-socket control circuit series sub-socket, and then parallel to the sub-socket control circuit Side; «Hai main socket control circuit is equipped with main socket temperature sensor switch and parallel connection - after heating element and then connected to main socket" and then through the main socket control circuit, the first - heating body current, small charm heat In order to activate the secret touch socket temperature switch, the main socket is inserted into the first circuit and the first (four) sequence, the control system _ seat control loop forms the path or not, and controls the main socket control circuit to divert or not, It goes to the power saving effect in power saving and the purpose of power saving. 2. For example, please refer to the power-saving socket device in the power-saving section of the patent model ii, in which the main socket temperature-sensing switch of the main socket control circuit is connected in parallel with the first-loop with the first heating element, and then in parallel-group Or the second circuit with the temperature sensing switch and the second heating element above, the heat of the first heating element is used to activate the temperature switch of the auxiliary socket and the second temperature switch, and the temperature of the towel is closed. The second temperature sense switch 'the second temperature sense switch _ road precedes the main socket temperature sense switch, the first heat generation S 31 201228154 body impedance value is greater than the second heat generator body impedance value. 3. The power-saving socket device in the power-saving according to claim 1, wherein the coil of the first heat-generating system AC normally-opening relay uses the heat of the first heat-generating body to activate the secondary socket temperature-sensing switch and the main socket The temperature sensing switch, wherein the closed circuit temperature of the auxiliary socket temperature sensing switch is lower than the closed circuit temperature of the main socket temperature sensing switch. 4. The power-saving socket device in the power-saving according to claim 1, wherein the first heat-generating system exchanges the coil of the normally-opening relay, and the two ends of the normally-on switch of the relay are connected in parallel with the auxiliary circuit of the secondary socket. Both ends of the socket temperature sensing switch are provided for speeding up the auxiliary socket control circuit to supply power to the secondary socket. 5. The power-saving socket device in the power-saving according to claim 1, wherein the two ends of the sub-socket temperature-sensing switch of the sub-socket control circuit are connected in parallel with the two ends of the electronic switch and use the main flow The current of the first heating element on the socket control circuit activates both ends of the switch of the electronic switch for speeding up the auxiliary socket control circuit to supply power to the secondary socket. 6. The power-saving socket device in the power-saving according to claim 5, wherein the electronic switch is an AC switch (TRIAC), and the two ends of the contact of the AC switch are connected in parallel with the two ends of the temperature switch of the sub-socket. The trigger contact (switch gate) of the switch is connected in series - after limiting the current resistance, and then the first loop of the first heating element is connected in parallel. Thus, the magnitude of the current flowing through the first loop is multiplied by the impedance value of the first loop to be changed. The voltage value is divided by the series resistance of the electronic switch trigger circuit module to obtain the current flowing into the gate of the electronic switch (the TRI Ac Gate) to control the electronic switch to turn on or off 32 201228154 For speeding up the secondary socket control loop to supply power to the secondary socket. 7. The power-saving socket device in the power-saving according to claim 5, wherein the electronic switch is a relay (Re lay), and the two ends of the contact at both ends of the relay are connected in parallel with the two ends of the temperature switch of the secondary socket, the relay The coil is connected in series with the heating element, so that the current of the first heating element can be activated by the current flowing through the first heating circuit to accelerate the starting of the secondary socket control circuit to supply power to the secondary socket. 8. The power-saving socket device in the power saving according to the first aspect of the patent scope of the fifth aspect, wherein the first heating element of the first circuit of the main socket control circuit, the third heating element of the third circuit or the second heating element , is a wire, enameled wire, metal terminal, nickel wire, resistor, electric wire, integrated circuit (jnte avoid rate circuit, transistor, diode, AC switch (TRIAC), PPTC or relay coil. The power-saving socket device in the power saving mentioned in the scope of claim i, wherein the sub-socket temperature-sensing switch is at a temperature higher than its closed-circuit temperature, and the secondary socket temperature-sensing switch is formed at both ends to turn on the power supply. Or more than one sub-socket circuit of the source control Wei: the secret temperature sense switch machine measured temperature is lower than its open circuit temperature ' _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The power supply control circuit; and the temperature of the sub-socket is __the temperature is higher than the temperature of the _ road. The power-saving socket device in the power saving mentioned in the first paragraph of the patent application, the temperature between the coffee and the hair, and the heat conduction Component (can be 33 201228154 Plate or copper plate for fast heat conduction)) Contact 5 for each temperature switch, which can sense each heating element (wire, enameled wire, metal terminal, nickel wire, resistor, heating wire, integrated circuit) Temperature of (I ntegrate C ircuit), transistor, diode, AC switch (TRIAC), PPTC or relay [R e 1 ay]. 34