CN104103976B - Electronic installation and power supply adaptor - Google Patents

Abstract

A kind of electronic installation, it comprises power supply plug-in connection. Power supply plug-in connection comprises switch module and plug connector. Switch module comprises gearing shaft, elastic component, the first drive, the second drive, button gear and button. Button is fixedly connected with button gear, and button gear is meshed with the first drive, and the second drive is fixedly connected with the first drive. Gearing shaft runs through elastic component, the first drive and the second drive successively. Plug connector offers slot, and the second drive part is housed in slot. The power supply adaptor that the present invention also provides a kind of and above-mentioned power supply plug-in connection to match, power supply adaptor comprises rotary switch and is set in the second driving-belt on rotary switch. User presses button can drive button gear, the first drive, the second drive and the second driving-belt successively, and then opens and closes rotary switch. Electronic installation of the present invention is easy to operate, and capable of reducing energy consumption.

Description

Electronic installation and power supply adaptor

Technical field

The present invention relates to a kind of electronic installation, especially relate to a kind of energy-saving electronic device and be mated the power supply adaptor of use.

Background technology

Middle-size and small-size household electrical appliances, electronic product provide its required power supply in the mode of external power adapter mostly, power supply adaptor is plugged in supply socket by input plug, output plug on power supply adaptor inserts in the slot of electronic product, thus, electric current passes through input plug, power supply adaptor, output plug successively, finally pass in electronic product electronic product and then carry out work. General household outlet conventionally stealthy on limit, corner or other stretch out one's hand and be difficult for reaching place, therefore, in the time stopping using electronic product, people select to allow product standby conventionally, but product still can consume a part of electric energy in the time of standby. For solving standby energy consumption issues, a switch is set the power supply slot of electronic product is other, user in the time stopping using product, can be easily by this switch output current of adapter of cutting off the electricity supply, thereby reduce power consumption. The input current of adapter but this switch failing is cut off the electricity supply, power supply adaptor approximately 0.5 watt of consumed power under Light Condition. For this reason, be necessary to provide a kind of adapter of cutting off the electricity supply to avoid power consumption and to be convenient to the device that user operates.

Summary of the invention

In view of foregoing, the invention provides a kind of capable of reducing energy consumptionly, and be convenient to the electronic installation of user's operation and be mated the power supply adaptor of use.

A kind of electronic installation, this electronic installation comprises power supply plug-in connection, circuit board and housing, this circuit board is housed in this housing, this power supply plug-in connection is arranged on this circuit board, this power supply plug-in connection comprises switch module and the plug connector of adjacent setting, this plug connector comprises body, the first electrode and the second electrode, and this first electrode and this second electrode are installed on this body, and outstanding this body and the electric connection of this circuit board respectively. this switch module comprises pedestal, gearing shaft, elastic component, the first drive, the second drive, button gear and button, this elastic component, this first drive and this button gear are all housed in this pedestal, this the second drive part is housed in this pedestal, this button is installed on this pedestal rotationally and part is given prominence to outside this housing, this button gear is fixedly connected with this button, this first drive is meshed with this button gear, this second drive is fixedly connected with this first drive, this gearing shaft wears this elastic component successively, this first drive and this second drive, the two ends of this elastic component support respectively the inwall of this first drive and this pedestal, the body of this plug connector is formed with slot, this first electrode and this second electrode all part are housed in this slot, another part of this second drive is housed in this slot.

The suitable power supply adaptor of a kind of and above-mentioned electronic installation, it comprises main body, plug and two wires, these two wires are electrically connected this plug and this main body, this main body comprises upper cover body, lower cover and is installed in the circuit unit on this lower cover, this circuit unit is for changing AC power into dc source, and this plug comprises pedestal. this plug also comprises the first driving-belt for matching with this second drive, this first driving-belt is installed in the pedestal of this plug, and the two ends of this first driving-belt are fixedly connected with one end of these two wires respectively, the main body of this power supply adaptor also comprises rotary switch and the second driving-belt, this rotary switch is installed in the input of this circuit unit to control the conducting of this circuit unit and to cut out, this second driving-belt is set on this rotary switch and its two ends are fixedly connected on respectively the other end of these two wires, in the time that this second drive drives this first driving-belt to rotate, this second driving-belt is driven by this first driving-belt and rotates with conducting or open and close this rotary switch, thereby control the conducting of this circuit unit and this power supply and close.

The present invention arranges rotary switch by the input of the main body at power supply adaptor, sheathed the second driving-belt on rotary switch, and the second driving-belt is connected with the first driving-belt by wire and forms a closed circle; A power supply plug-in connection is set in electronic installation, when plug inserts power supply plug-in connection, the first driving-belt engages with the second drive, user presses button can drive button gear, the first drive and the motion of the second drive successively, and then drive the second driving-belt rotation, thereby control the conducting of rotary switch and close. Thus by the power supply of powered-down adapter completely of the button on the power supply plug-in connection of electronic installation, thereby reduce energy consumption, and operation is convenient.

Brief description of the drawings

Fig. 1 is the schematic diagram of electronic installation in embodiment of the present invention.

Fig. 2 is the three-dimensional exploded view of plug-in connection of powering in embodiment of the present invention.

Fig. 3 is the three-dimensional exploded view at another visual angle of plug-in connection of powering shown in Fig. 2.

Fig. 4 is the partial enlarged drawing of plug-in connection of powering shown in Fig. 2.

Fig. 5 is the three-dimensional exploded view of power supply adaptor in embodiment of the present invention.

Fig. 6 is the partial enlarged drawing of power supply adaptor shown in Fig. 5.

Fig. 7 is the use state diagram of plug-in connection and power supply adaptor of powering in embodiment of the present invention.

Fig. 8 is plug-in connection and the power supply adaptor partial sectional view along VIII-VIII of powering shown in Fig. 7.

Main element symbol description

Electronic installation	100
		Power supply plug-in connection	10
Housing	12、50
		Matrix	121
Receiving space	122、1416
		Sidewall	123、1412
Projection	125
		Fixing feet	127
Switch module	14
		Pedestal	141、211
First surface	1411、1611
		The first axis hole	1413
The second axis hole	1414
		Second surface	1415、1615
The first accepting groove	1417
		Installing hole	1418
The second accepting groove	1419
		Gearing shaft	142
Main body	1421、1461、25
		Stiff end	1423、1463
Elastic component	143、219
		The first drive	144
The second drive	145
		The first end face	1451
The second end face	1452
		Button power transmission shaft	146
Button gear	147
		The first groove	1471
Button	148
		Lug	1483
Fixing hole	1485
		The second groove	1486
Plug connector	16
		Body	161、212、1481
Accepting hole	162
		The first electrode	163
Conductive part	1631、1641
		Connecting portion	1633、1643
The second electrode	164
		Slot	165
Power supply adaptor	20
		Plug	21
Mating surface	2121
		The first side	2122
The first stopper slot	2123
		The second stopper slot	2124
The 3rd stopper slot	2125
		The first slot	2126
The second slot	2127
		The second side	2128
Mounting groove	2129
		The first driving-belt	213
Sheath	214
		The first conducting strip	215
The second conducting strip	217
		Exit pin	218
Wire	23
		Upper cover body	251
Lower cover	253
		Inserting groove	2531
Circuit unit	256
		Input	2562
Output	2565
		Rotary switch	257
The second driving-belt	258
		Electric-conductor	259
Circuit board	40

Following detailed description of the invention further illustrates the present invention in connection with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1, the electronic installation 100 of embodiment of the present invention comprises power supply plug-in connection 10, circuit board 40 and housing 50. Circuit board 40 is housed in housing 50. Power supply plug-in connection 10 parts are housed in housing 50, and the outstanding housing 50 of part, and power supply plug-in connection 10 is installed on circuit board 40, and are electrically connected with circuit board 40. The electric current of power supply (not shown) output flows in power supply plug-in connection 10, and then circuit board 40 is powered so that electronic installation 100 carries out work, and the conducting of power supply plug-in connection 10 controllable power with close. Electronic installation 100 in present embodiment is digital video switching box, is appreciated that electronic installation 100 also can be other household electrical appliances or electronic product, as cable modem etc.

Power supply plug-in connection 10 comprises housing 12, switch module 14, plug connector 16. Switch module 14 setting adjacent with plug connector 16 being all housed in housing 12, and switch module 14 parts are housed in plug connector 16, and switch module 14 is relative with plug connector 16 fixing.

See also Fig. 2 and Fig. 3, housing 12 comprises matrix 121, two side 123, multiple protruding 125 and multiple fixing feet 127. Two side 123 vertically extends to form from the opposite end of matrix 121, and jointly forms receiving space 122 with matrix 121. From two side 123, the one end away from matrix 121 protrudes out formation to projection 125 in opposite directions respectively, and projection 125 is approximate is parallel to matrix 121, for supporting switch assembly 14 and plug connector 16. Multiple protruding 125 for being symmetrical arranged. Fixing feet 127 extends to form away from one end of matrix 121 from two side 123 respectively, and fixing feet 127 is approximately perpendicular to matrix 121, and it is for being fixedly connected on housing 12 circuit board 40 (consulting Fig. 1). Multiple fixing feet 127 are symmetrical set. Be appreciated that projection 125 can extend to form a plane, the one end with closed on both sides wall 123 away from matrix 121 in the one end away from matrix 121 in opposite directions from two side 123. In present embodiment, projection 125 is six, and fixing feet 127 is four. Be appreciated that multiple protruding 125 can be asymmetric setting, multiple fixing feet 127 also can be asymmetric setting. Projection 125 quantity is not limited to six, can be other quantity, as seven, eight, ten etc. The quantity of fixing feet 127 is also not limited to four, can be other quantity, as five, six, seven etc.

Switch module 14 is housed in the receiving space 122 of housing 12, and the housing 50 of the outstanding electronic installation 100 of part. Switch module 14 comprises pedestal 141, gearing shaft 142, elastic component 143, the first drive 144, the second drive 145, button power transmission shaft 146, button gear 147 and button 148. Gearing shaft 142 fixedly runs through pedestal 141. Gearing shaft 142 wears elastic component 143, the first drive 144 and the second drive 145 successively, and is housed in pedestal 141, and the first drive 144 is fixedly connected with the second drive 145. The two ends of elastic component 143 are held in respectively the inwall of the first drive 144 and pedestal 141. Button power transmission shaft 146 fixedly runs through pedestal 141. Button gear 147 is set on button power transmission shaft 146, and is contained in pedestal 141, and button gear 147 engages with the first drive 144. Button 148 is installed on pedestal 141 rotationally, and is fixedly connected with button gear 147. In the time pressing button 148, button 148 drives button gear 147 to rotate, and button gear 147 drives the first drive 144 to rotate around gearing shaft 142, and then drives the second drive 145 to rotate. In the present embodiment, elastic component 143 is springs. Be appreciated that elastic component 143 can be also the flexible members such as resilient sleeve.

See also Fig. 4, pedestal 141 is roughly rectangle block, and it is housed in the receiving space 122 of housing 12. Pedestal 141 comprises that first surface 1411(consults Fig. 2), with the parallel relative second surface 1415 of first surface 1411 and sidewall 1412. First surface 1411, second surface 1415 and sidewall 1412 are all roughly rectangular surfaces, and sidewall 1412 connects first surface 1411 and second surface 1415. Pedestal 141 connects and offers the first axis hole 1413 towards second surface 1415 from the approximate mid-section of first surface 1411, and connects and offer the second axis hole 1414 towards second surface 1415 from the edge of first surface 1411. The central axis of the first axis hole 1413 parallels with the central axis of this second axis hole 1414. Pedestal 141 offers rectangle receiving space 1416 from second surface 1415 towards first surface 1411. The diapire of receiving space 1416 offers respectively the first accepting groove 1417 and the second accepting groove 1419, the first accepting grooves 1417 communicate with the second accepting groove 1419 towards first surface 1411, and the first accepting groove 1417 is positioned at the approximate mid-section position of pedestal 141. The first accepting groove 1417 is connected with the first axis hole 1413, and the second accepting groove 1419 is connected with the second axis hole 1414. On the sidewall 1412 of contiguous the second axis hole 1414, offer installing hole 1418, installing hole 1418 is connected with the second accepting groove 1419. On the sidewall 1412 of pedestal 141 contiguous installing holes 1418, be formed with respectively mark " ON " " OFF ", and mark " ON " " OFF " is positioned at the vertical homonymy of installing hole 1418.

Gearing shaft 142 inserts in pedestal 141 by the first axis hole 1413, and gearing shaft 142 is housed in receiving space 1416 and the first accepting groove 1417. Gearing shaft 142 comprises main body 1421 and stiff end 1423, and stiff end 1423 protrudes out the one end that is formed at main body 1421. Main body 1421 is shaft-like, and it is housed in receiving space 1416 and the first accepting groove 1417. The shape of stiff end 1423 is roughly pie, and the diameter of stiff end 1423 is a bit larger tham the diameter of the first axis hole 1413, and fixed card is located in the first axis hole 1413.

The first drive 144 is hollow cylindrical, and its outer surface is dentalation. The first drive 144 is set in the main body 1421 of gearing shaft 142 rotationally, and is housed in the first accepting groove 1417. The central axis of the rotation of the first drive 144 and the first axis hole 1413 coincides.

The second drive 145 is hollow cylindrical, and it is fixedly connected with the first drive 144, and is set in rotationally in the main body 1421 of gearing shaft 142, and is housed in the receiving space 1416 of pedestal 141. The second drive 145 is roughly right-angled trapezium along the cross section of the direction perpendicular to pedestal 141 first surfaces 1411. The rotation of the second drive 145 and the first axis hole 1413 central axis coincide. The second drive 145 comprises first end face 1451 adjacent with the first drive 144 and the second relative end face 1452, the first end faces 1451 are plane with the first end face 1451, and the second end face 1452 is inclined-plane. The second drive 145 thickness vertically increases gradually. The second drive 145 in present embodiment is gear.

Button power transmission shaft 146 inserts the second axis hole 1414 and is housed in the second accepting groove 1419 of pedestal 141. Button power transmission shaft 146 is roughly the same with the shape of gearing shaft 142. Button power transmission shaft 146 comprises main body 1461 and protrudes out the stiff end 1463 that is formed at main body 1461 one end. Main body 1461 is shaft-like, and it is housed in the second accepting groove 1419. The shape of stiff end 1463 is roughly pie, and the diameter of stiff end 1463 is a bit larger tham the diameter of the second axis hole 1414, and fixed card is located in the second axis hole 1414.

Button gear 147 is roughly cylindric, and it is meshed with the first drive 144, and is housed in the second accepting groove 1419 of pedestal 141. The central axis of the rotation of button gear 147 and the second axis hole 1414 coincides. On the sidewall of button gear 147, offer the first groove 1471, and the axial cross sectional shape of the vertical button gear 147 of the first groove 1471 is the circular arc that is greater than semicircle, accommodates the main body 1461 of button power transmission shaft 146 in order to partial fixing.

The shape of button 148 is roughly rectangle, and it is arranged on pedestal 141 by installing hole 1418 and the outstanding housing 50 of part rotationally, and button 148 is fixedly connected with button gear 147. Button 148 comprises body 1481 and a pair of lug 1483, and a pair of lug 1483 protrudes out respectively and is formed on 1,481 two relative sidewalls of body. On a pair of lug 1483, offer respectively two corresponding fixing holes 1485 of position, and the central axis of the center line of fixing hole 1485 and the second axis hole 1414 coincides, the diameter of fixing hole 1485 is identical with the diameter of the first groove 1471 on button gear 147. It is corresponding with the position of the first groove 1471 on button gear 147 that the sidewall of button 148 contiguous button gears 147 offers the second groove 1486, the second grooves 1486, and be connected with fixing hole 1485. Button power transmission shaft 146 runs through fixing hole 1485 and the first groove 1471 and the second groove 1486. Button power transmission shaft 146 inserts the second axis hole 1414, insert again a fixing hole 1485 on lug 1483, run through again the first groove 1471 and the second groove 1486, fixing hole 1485 from another lug 1483 is outstanding, now, button gear 147 parts are housed between a pair of lug 1483, thereby button 148 is fixedly connected with button gear 147.

The shape of plug connector 16 is roughly rectangle. Plug connector 16 comprises body 161, the first electrode 163 and the second electrode 164. The first electrode 163 and the second electrode 164 all part are housed in body 161, and give prominence to body 161 respectively. Body 161 comprise first surface 1611 and with the parallel relative second surface 1615 of first surface 1611. The first surface 1611 of body 161 offers accepting hole 162, accommodates the second drive 145 for part. On the sidewall of body 161, offer slot 16 5, slot 16 5 is connected with accepting hole 162. The first electrode 163 is identical with the shape of the second electrode 164, be all roughly L shaped, and all part be housed in slot 16 5. The first electrode 163 comprises conductive part 1631 and protrudes out the connecting portion 1633 that is formed at conductive part 1631 one end, and wherein this connecting portion 1633 also can conduct electricity. Conductive part 1631 is installed on a sidewall of slot 16 5, and connecting portion 1633 parts are contained in slot 16 5, and from the outstanding body 161 of the sidewall relative with conductive part 1631. The shape of the second electrode 164 and the first electrode 163 is roughly the same. The second electrode 164 comprises conductive part 1641 and connecting portion 1643, and wherein conductive part 1641 is fixed on the sidewall of slot 16 5 away from the first electrode 163 conductive parts 1631, the outstanding body 161 of connecting portion 1643. The connecting portion 1633 of the first electrode 163 and the connecting portion 1643 of the second electrode 164 are consulted Fig. 1 with circuit board 40(respectively) etc. other electronic components be electrically connected.

When assembling power supply plug-in connection 10, first gearing shaft 142 is inserted in pedestal 141 by the first axis hole 1413, successively elastic component 143, the first drive 144 and the second drive 145 are set on gearing shaft 142 successively, and are housed in pedestal 141; Button gear 147 is housed in the second accepting groove 1419, and engages with the first drive 144, button 148 is installed on pedestal 141, button power transmission shaft 146 is run through to fixing hole 1485 and the button gear 147 on button 148 successively; Then the first electrode 163 and the second electrode 164 are installed on respectively on the body 161 of plug connector 16; The second drive 145 is housed in slot 16 5 by the accepting hole 162 of plug connector 16, now, switch module 14 and plug connector 16 mutually against, and the second end face 1452 of the second drive 145 forms grafting space (not shown) with the sidewall of slot 16 5, because the second end face 1452 is inclined-plane, so the distance between the contiguous sidewall of the second end face 1452 of body 161 and second end face of the second drive 145 of plug connector 16 diminishes gradually along direction of insertion, the space of pegging graft diminishes along direction of insertion gradually along the axial width of the second drive 145; Finally housing 12 is set in outside switch module 14 and plug connector 16, with floatless switch assembly 14 and plug connector 16.

See also Fig. 5 and Fig. 6, power supply adaptor 20 comprises 21, two wires 23 of plug and main body 25. One end of two wires 23 is housed in respectively in plug 21, and the other end of two wires 23 is housed in respectively in main body 25. Plug 21 comprises pedestal 211, the first driving-belt 213, the first conducting strip 215, the second conducting strip 217, exits pin 218 and elastic component 219. The first driving-belt 213, the first conducting strip 215, the second conducting strip 217 and exit pin 218 and be all installed in pedestal 211. The two ends of the first driving-belt 213 be fixedly connected with one end of two wires 23 respectively. One end of the first conducting strip 215 be movably set in one end of a wire 23 and with its electric connection, the outstanding pedestal 211 of the other end of the first conducting strip 215. One end of the second conducting strip 217 be movably set in one end of another root wire 23 and with its electric connection, the outstanding pedestal 211 of the other end of the second conducting strip 217.

Pedestal 211 comprises body 212 and extends to form in the sheath 214 of body 212 one end, sheath 214 and external insulation, and sheath 214 is for connecting body 212 and main body 25. The shape of body 212 is roughly the rectangular block suitable with slot 16 5. Body 212 comprises mating surface 2121, the first side 2122 and the second side 2128, and mating surface 2121 connects the first side 2122 and the second side 2128. Body 212 offers the first stopper slot 2123, the 3rd stopper slot 2125 from mating surface 2121. The first stopper slot 2123 is circular, and its adjacent body 212 is away from one end of sheath 214. The 3rd stopper slot 2125 is square, and it communicates with the first stopper slot 2123. Body 212 from the first side 2122 and the second side 2128 offer respectively mounting groove 2129. One end of body 212 contiguous sheaths 214 is circular arc towards offer the second stopper slot 2124, the second stopper slots 2124 away from the direction of sheath 214. The two ends of the second stopper slot 2124 are all positioned at one end that body 212 is adjacent with sheath 214, and it communicates with the first stopper slot 2123. The two side of the 3rd stopper slot 2125 offers respectively two the first slots 2126, the position of two the first slots 2126 is corresponding, the first slot 2126 communicates with the 3rd stopper slot 2125, and the first slot 2126 is positioned at one end of the 3rd stopper slot 2125 contiguous sheaths 214. The two side of the 3rd stopper slot 2125 offers respectively two the second slots 2127, the position of two the second slots 2127 is corresponding, the second slot 2127 communicates with the 3rd stopper slot 2125, and the second slot 2127 is positioned at the 3rd stopper slot 2125 one end away from sheath 214.

The first driving-belt 213 activities are housed in the second stopper slot 2124, and its two ends are fixedly connected with one end of two wires, 23 contiguous plugs 21 respectively. The first driving-belt 213 in present embodiment is tooth bar.

The first conducting strip 215 parts are housed in the second stopper slot 2124, and outstanding the second stopper slot 2124 of part. One end of the first conducting strip 215 is set on a wire 23, and outstanding the second stopper slot 2124 of its other end is also housed in the mounting groove 2129 of the first side 2122, for being electrically connected with the conductive part 631 of the first electrode 163. The second conducting strip 217 is identical with the shape of the first conducting strip 215. The second conducting strip 217 is contained in the second stopper slot 2124, and outstanding the second stopper slot 2124 of part. One end of the second conducting strip 217 is set on another root wire 23, and its other end is given prominence to the second stopper slot 2124, and is housed in the mounting groove 2129 of the second side 2128, for being electrically connected with the conductive part 1641 of the second electrode 164.

Exit pin 218 activities and be housed in the 3rd stopper slot 2125, because the 3rd stopper slot 2125 communicates with the first stopper slot 2123, therefore under external force, exit pin 218 and can on the 3rd stopper slot 2125 of plug 21, move towards the first stopper slot 2123. Elastic component 219 is roughly V-arrangement, and its partial fixing is housed in and exits on pin 218, and the two ends of elastic component 219 are fastened in two the first slots 2126, exits thus pin 218 and is relatively fixed on pedestal 211. Under External Force Acting, exit pin 218 on body 212 along after moving away from the direction of sheath 214, elastic component 219 is along with exiting pin 218 telemechanical together, in the time that elastic component 219 moves to the second slot 2127, the two ends of elastic component 219 and two the second slots 2127 fasten, and exit pin 218 and are relatively fixed on pedestal 211.

Main body 25 be shaped as rectangle, it comprises upper cover body 251, lower cover 253, circuit unit 256, rotary switch 257, the second driving-belt 258 and pair of conductive part 259. Circuit unit 256, rotary switch 257, the second driving-belt 258 and pair of conductive part 259 are all contained in lower cover 253, and upper cover body 251 is for sealing lower cover 253. Rotary switch 257 is installed on circuit unit 256. The second driving-belt 258 is set on rotary switch 257, and its two ends are fixedly connected with away from one end of plug 21 with two wires 23 respectively. One end of pair of conductive part 259 is installed on respectively on circuit unit 256, and the other end of pair of conductive part 259 is set in respectively on two wires 23.

One end of lower cover 253 is equiped with inserting groove 2531, and its other end is connected with sheath 214. Inserting groove 2531 is for socket power. Circuit unit 256 comprises input 2562, output 2565 and transformer (not shown), and input 2562 is electrically connected with power supply, and output 2565 is for exporting power supply main body 25. AC power flows to the input 2562 of circuit unit 256, then the transformer of flowing through, and AC power changes dc source into, and dc source flows into the output 2565 of circuit unit 256, thereby the power supply that output 2565 flows out is dc source.

Rotary switch 257 is installed on the input 2562 of circuit unit 256, for controlling the conducting of power supply and circuit unit 256 and closing. The second driving-belt 258 is sheathed on rotary switch 257, and its two ends are connected with two wires 23 respectively. The shape of pair of conductive part 259 is identical, and its shape is roughly square. One end of pair of conductive part 259 is movably set in respectively on two wires 23, and the other end of this pair of conductive part 259 is fixedly connected on respectively on the output 2565 of circuit unit 256, for power supply being sent to respectively to two wires 23.

Assembling power adapter 20, first by the first driving-belt 213, the first conducting strip 215, the second conducting strip 217 and exit on the body 212 of pedestal 211 that pin 218 is installed in respectively plug 21; One end of the first conducting strip 215 and the second conducting strip 217 is set in respectively to one end of two wires 23, one end of two wires 23 is fixedly connected with the two ends of the first driving-belt 213 respectively; Two wires 23 are inserted in sheath 214, and the other end of two wires 23 is fixedly connected with the second driving-belt 258 respectively, the first driving-belt 213, two wires 23 and the second driving-belt 258 are connected to form a closed circle between two thus; Then circuit unit 256 and rotary switch 257 are installed in respectively in lower cover 253, the second driving-belt 258 is set on rotary switch 257; One end of pair of conductive part 259 is electrically connected with two wires 23 respectively, and the other end of this pair of conductive part 259 is fixedly connected on the output of circuit unit 256; Finally upper cover body 251 is sealed to lower cover 253. In the time that the first driving-belt 213 rotates, it drives the second driving-belt 258 to rotate, the second driving-belt 258 driven rotary switches 257, thus control the conducting of power supply and circuit unit 256 and close.

When use, see also Fig. 7 and Fig. 8, the plug of power supply adaptor 20 21 is inserted in the slot 16 5 of power supply plug-in connection 10 of electronic installation 100, when plug 21 enters behind the grafting space of plug connector 16, the body 212 of plug 21 produces squeezing action power to the second drive 145, the second drive 145 moves towards switch module 14, and then compression elastic piece 143. Continue to insert, when the position of the first stopper slot 2123 of plug 21 and the position of the second drive 145 are when corresponding, the body 212 of plug 21 disappears to the extruding force of the second drive 145, and elastic component 143 recovers deformation, and the second drive 145 restores under the active force of elastic component 143. Now, the second drive 145 parts are accommodated in the first stopper slot 2123 of plug 21, and the first driving-belt 213 is set on the second drive 145, and in present embodiment, the first driving-belt 213 is meshed with the second drive 145. Meanwhile, the first conducting strip 215 in plug 21 contacts with the conductive part 1631 of the first electrode 163 of plug connector 16, and the second conducting strip 217 in plug 21 contacts with the conductive part 1641 of the second electrode 164 of plug connector 16.

Button 148 is pressed to ON mark end, button 148 drives button gear 147 to rotate by button power transmission shaft 146, because button gear 147 engages with the first drive 144, thereby button gear 147 drives the first drive 144 to rotate, the first drive 144 drives the second drive 145 to rotate by gearing shaft 142. Because the second drive 145 engages with the first driving-belt 213, so the second drive 145 drives the first driving-belt 213 to rotate, because the first driving-belt 213 and wire 23 and the second driving-belt 258 are in turn connected to form a closed circle, thus, the second driving-belt 258 rotates. And then the second driving-belt 258 driven rotary switches 257 rotate to conducting state.

While closing, button 148 is pressed to OFF mark end, button 148 drives button gear 147 to rotate recovery by button power transmission shaft 146, and then button gear 147 drives the first drive 144 to rotate recovery, the first drive 144 drives the second drive 145 rotations to restore by gearing shaft 142, the second drive 145 drives wire 23 and the second driving-belt 258 to rotate recovery by the first driving-belt 213, and final the second driving-belt 258 driven rotary switches 257 rotate to initial closed state. After closing, the pin 218 that exits of plug 21 is advanced towards slot 16 5, exit after pin 218 enters grafting space the second drive 145 is produced to squeezing action power, thereby the second drive 145 is moved towards switch module 14, and then first driving-belt 213 remove and the engagement of the second drive 145, plug 21 can be extracted from slot 16 5. Now, the elastic component 219 in plug 21 is housed in the second slot 2127, prevents from exiting pin 218 return back in the 3rd stopper slot 2125 with this.

Present embodiment arranges rotary switch 257 by the input 2562 of the circuit unit 256 at power supply adaptor 20, on rotary switch 257, sheathed the second driving-belt 258, the second driving-belts 258 are connected to form a closed circle through wire 23 and the first driving-belt 213; Power supply plug-in connection 10 is set in electronic installation 100, plug 21 makes the first driving-belt 213 engage with the second drive 145 while inserting in power supply plug-in connection 10, recycling button 148 drives button gear 147, the first drive 144 and the second drive 145 to move successively, and then drive the second driving-belt 258 to rotate, thereby control the conducting of rotary switch 257 and close. The power supply of main body 25 that thus can powered-down adapter 20 by the button 148 on the power supply plug-in connection 10 of electronic installation 100, thus energy consumption reduced, and operation is convenient; Due to after plug 21 inserts in the slot 16 5 of electronic installation 100, the first driving-belt 213 is meshed with the second drive 145, thereby can avoid plug 21 to pitch; Also to make to pull up plug 21 more easy for the pin 218 that exits on plug 21.

Be appreciated that, the second end face 1452 of the second drive 145 also can be plane, the sidewall that simultaneously makes the second end face 1452 of relative the second drive of slot 16 5 is inclined-plane, as long as can make the second end face 1452 of the second drive 145 and the grafting space that the sidewall of slot 16 5 forms diminish gradually along direction of insertion along the axial width of the second drive 145. Even, grafting space width is constant, and the thickness of plug 21 is diminished gradually along direction of insertion, as long as can compress or discharge elastic component 143 in plug 21 plug processes.

Button power transmission shaft 146 can omit, and button 148 is fixedly connected with button gear 147, when External Force Acting is during in button 148, can drive equally button gear 147 telemechanicals.

In addition, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection domain that all should belong to patent claim of the present invention the with distortion.

Claims (10)

1. an electronic installation, this electronic installation comprises power supply plug-in connection, circuit board and housing, this electricityRoad plate is housed in this housing, and this power supply plug-in connection is arranged on this circuit board, this power supply plug-in connectionComprise switch module and the plug connector of adjacent setting, this plug connector comprises body, the first electrode and the second electricityThe utmost point, this first electrode and this second electrode are installed on this body, and give prominence to this body and this circuit respectivelyPlate is electrically connected, and it is characterized in that: this switch module comprises pedestal, gearing shaft, elastic component, theOne drive, the second drive, button gear and button, this elastic component, this first drive and this are pressedKey gear is all housed in this pedestal, and this second drive part is housed in this pedestal, and this button rotatesBe installed on this pedestal and outstanding this housing of part outside, this button gear is fixedly connected with this button, thisThe first drive is meshed with this button gear, and this second drive is fixedly connected with this first drive,This gearing shaft wears this elastic component, this first drive and this second drive, this elastic component successivelyTwo ends support respectively the inwall of this first drive and this pedestal, the body of this plug connector is formed with slottingGroove, this first electrode and this second electrode all part are housed in this slot, another of this second drivePart is housed in this slot.

2. electronic installation as claimed in claim 1, is characterized in that: this second transmission relatively of this bodyDistance between madial wall and this second drive of wheel diminishes gradually along direction of insertion.

3. electronic installation as claimed in claim 2, is characterized in that: this second drive is gear,It comprises the first end face and second end face relative with this first end face, and this first end face is plane and vicinityThis first drive, this second end face is inclined-plane, thereby makes this body madial wall of this second end face relativelyAnd the distance between this second end face diminishes gradually along direction of insertion.

4. electronic installation as claimed in claim 1, is characterized in that: this power supply plug-in connection also comprisesHousing, this switch module and this plug connector are all housed in the housing of this power supply plug-in connection, thereby make thisSwitch module is relative with this plug connector fixing.

5. electronic installation as claimed in claim 1, is characterized in that: this button comprises body and a pair ofLug, this pair of lug protrudes out formation from two relative sidewalls of this keying body, on this pair of lugOffer two corresponding fixing holes of position, on the sidewall of this button gear, offer the first groove, shouldVertical this button gear shaft of the first groove to cross sectional shape be the circular arc that is greater than semicircle, the sidewall of this buttonOn offer second groove corresponding with this first groove location, this switch module also comprises button transmissionAxle, this button power transmission shaft runs through these two fixing holes and this first groove and this second groove, and this buttonGear parts is housed between this pair of lug.

6. with the suitable power supply adaptor of electronic installation described in the claims 1, it comprises masterBody, plug and two wires, these two wires are electrically connected this plug and this main body, and this main body comprisesLid, lower cover and be installed in the circuit unit on this lower cover, this circuit unit is for by alternating currentDc source is changed in source into, and this plug comprises pedestal, it is characterized in that: this plug also comprise for thisThe first driving-belt that the second drive matches, this first driving-belt is installed in the pedestal of this plug, andThe two ends of this first driving-belt are fixedly connected with one end of these two wires respectively, the master of this power supply adaptorBody also comprises rotary switch and the second driving-belt, the input that this rotary switch is installed in this circuit unit withControl the conducting of this circuit unit and close, this second driving-belt is set on this rotary switch and its two endsBe fixedly connected on respectively the other end of these two wires, in the time that this first driving-belt rotates, this second transmissionBand is driven by this first driving-belt and rotates with conducting or close this rotary switch, thereby controls this circuit listUnit is with the conducting of this power supply and close.

7. power supply adaptor as claimed in claim 6, is characterized in that: this first driving-belt is tooth bar.

8. power supply adaptor as claimed in claim 6, is characterized in that: the pedestal of this plug comprises thisBody, the body of this Plug base comprises the first side and second side relative with the first side, this plugThe body of pedestal from this first side and this second side offer respectively mounting groove, this plug also comprisesOne conducting strip and the second conducting strip, this first conducting strip and this second conducting strip all part are housed in this plugIn the body of pedestal, the body of outstanding this Plug base in one end of this first conducting strip and be housed in this firstIn the mounting groove of side, the body of outstanding this Plug base in one end of this second conducting strip and be housed in thisIn the corresponding mounting groove of two side faces, the other end of this first conducting strip and this second conducting strip is set in respectivelyOne end of these two wires, this power supply adaptor also comprises pair of conductive part, one end of this pair of conductive partBe set in respectively the other end of these two wires, and the other end of this pair of conductive part is fixedly connected on respectivelyThe output of this circuit unit.

9. power supply adaptor as claimed in claim 8, is characterized in that: this Plug base also comprises oneSheath, this sheath connects the main body of body and this power supply adaptor of this Plug base, these two wire portionsDivide and be housed in this sheath, and be partly housed in the body of this Plug base, and these two conductor partBe housed in the main body of this power supply adaptor, this Plug base body also comprises a mating surface, this mating surfaceConnect this first side and this second side, the body of this Plug base offers for portion from this mating surfaceDivide first stopper slot of accommodating this second drive, open one end of contiguous this sheath of body of this Plug baseBe provided with the second stopper slot, this second stopper slot communicates with this first stopper slot, and this first driving-belt part is receivedHold in this first stopper slot and partly and be housed in this second stopper slot, these two conductor part are housed inIn this second stopper slot.

10. power supply adaptor as claimed in claim 9, is characterized in that: the body of this Plug base fromThis mating surface also offers the 3rd stopper slot, and the 3rd stopper slot is communicated with this first stopper slot, and the 3rdOn the two side of stopper slot, offer respectively two the first slots and two the second slots, this plug alsoComprise and exit pin and elastic component, this exits pin activity and is housed in the 3rd stopper slot, the elasticity of this plugThe shape of part is roughly V-arrangement, and its partial fixing is housed in this and exits in pin, and its two ends are fastened on respectivelyIn these two first slots so that this to exit pin relative fixing with the body of this Plug base, when exiting pinIn the 3rd stopper slot, in the time that the direction of this first stopper slot is moved, the two ends of the elastic component of plug are de-Move from two the first slots and with exiting pin, while moving to two the second slot places, plugTwo ends and two second slots of elastic component fasten.