Socket with variable voltage and electricity utilization modes
Technical Field
The invention relates to the field of sockets, in particular to a socket with variable voltage and electricity utilization modes.
Background
As is known, the popularization of the socket greatly reduces the limitation caused by the insufficient length of the power cord when the electric appliances are used at home, but some small-sized electric appliances, such as notebook computers, need to be provided with a converter and a current stabilizer, which bring great inconvenience to the use and carrying of the electric appliances, so that the socket with variable voltage and power utilization needs to be designed to solve the problems.
Disclosure of Invention
The object of the present invention is to provide a variable voltage and power form socket which overcomes the above-mentioned drawbacks of the prior art.
The invention is realized by the following technical scheme.
A variable voltage and utility form outlet comprising a body, said body including a control chamber;
the control cavity is internally provided with a control mechanism for controlling whether power is transmitted in the socket or not, the front side of the control cavity is provided with a first chute, the first chute is provided with a first sliding block in a sliding manner, the rear side of the first chute is provided with a second chute, a second sliding block is arranged in the second chute in a sliding manner, the top end wall of the second sliding block is provided with a third chute, the third chute is internally provided with third sliding blocks in a bilateral-symmetrical sliding manner, the outer end surface of each third sliding block is fixedly provided with a rack, the top end surface of each second sliding block is fixedly provided with a first connecting rod, the top end surface of each first connecting rod is fixedly provided with a bearing block, the bottom end surface of each first sliding block is fixedly provided with an extrusion block, the left side and the right side of each extrusion block are fixedly provided with matching blocks, a first spring is connected between each extrusion block and the bearing block, and;
the fuselage right side is equipped with the transform chamber, the transform intracavity contains becomes the direct current with voltage or becomes the transform mechanism of low-voltage, the transform intracavity is equipped with the fourth spout, it is equipped with the fourth slider to slide in the fourth spout, the top is equipped with first contact piece in the fourth slider, fourth slider bottom is equipped with the second contact piece, transform chamber right-hand member wall is equipped with the iron core, the iron core left side is equipped with the more first coil of the number of turns, the iron core right side is equipped with the less second coil of the number of turns, transform chamber right-hand member wall downside is fixed and is equipped with the rectifier.
Further, be equipped with first pivot in the control chamber, be equipped with the gear on the first pivot, bilateral symmetry is equipped with the cam about the first pivot, second spout rear side is equipped with the fifth spout, it is equipped with the fifth slider to slide in the fifth spout, the fixed conducting block that is equipped with of fifth slider rear end face, control chamber rear end wall is equipped with first live wire, first live wire bilateral symmetry is equipped with the second live wire, works as the conducting block makes backward sliding first live wire with the second live wire intercommunication.
Furthermore, the left side of the machine body is located on the upper side of the first live wire and is provided with a zero line, the left end of the machine body is provided with a power supply external connection block, and the left end wall of the transformation cavity is provided with a fixed block.
Further, the fixed block can be fixed the second live wire with the zero line, the zero line with it is equipped with first wire to connect between the first contact piece, the second live wire with the second contact piece is connected and is equipped with the second wire, the iron core with the rectifier left end face be equipped with first contact piece contact complex first wire piece, first wire piece downside be equipped with second contact piece contact complex second wire piece, the iron core right-hand member is equipped with the third wire piece, third wire piece right-hand member is equipped with first jack.
Further, the right end of the iron core is provided with a fourth lead block located on the lower side of the third lead block, the right end of the fourth lead block is provided with a second jack, the right end of the rectifier is provided with a fifth lead block, the right end of the fifth lead block is provided with a direct current positive connector, the lower side of the fifth lead block is provided with a sixth lead block, and the right end of the sixth lead block is provided with a direct current negative connector.
The invention has the beneficial effects that: the socket has the advantages of simple structure and convenient operation, can ensure the power-on and power-off states of the socket when in use and not in use through the control mechanism, stably maintains the states, has the functions of converting alternating current into direct current and converting high-voltage direct current into low-voltage for use, and has higher integration degree.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
FIG. 1 is a schematic top view of an embodiment of the present invention;
FIG. 2 is a schematic view of the structure A-A of FIG. 1;
FIG. 3 is a schematic diagram of B-B of FIG. 2;
fig. 4 is a schematic diagram of the structure C-C in fig. 3.
Detailed Description
The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The socket with variable voltage and power consumption described with reference to fig. 1-4 includes a body 10, the body 10 includes a control cavity 36, the control cavity 36 contains a control mechanism 90 for controlling whether to transmit power in the socket, the front side of the control cavity 36 is provided with a first sliding slot 46, the first sliding slot 46 is provided with a first sliding block 45 in a sliding manner, the rear side of the first sliding slot 46 is provided with a second sliding slot 52, the second sliding slot 52 is provided with a second sliding block 59 in a sliding manner, the top end wall of the second sliding block 59 is provided with a third sliding slot 51, the third sliding slot 51 is provided with a third sliding block 50 in a sliding manner, the outer end surface of the third sliding block 50 is fixedly provided with a rack 47, the top end surface of the second sliding block 59 is fixedly provided with a first connecting rod 39, the top end surface of the first connecting rod 39 is fixedly provided with a bearing block 40, the bottom end surface of the first sliding block 45 is fixedly, the left side and the right side of the extrusion block 43 are fixedly provided with matching blocks 44, a first spring 41 is connected between the extrusion block 43 and the bearing block 40, and a second spring 63 is connected between the third sliding block 50 and the first connecting rod 39;
the fuselage 10 right side is equipped with and changes the chamber 64, it becomes the direct current or becomes the transform mechanism 90 of low-voltage to include in the transform chamber 64 with voltage, be equipped with fourth spout 32 in the transform chamber 64, it is equipped with fourth slider 16 to slide in the fourth spout 32, the top is equipped with first contact piece 15 in the fourth slider 16, 16 bottoms of fourth slider are equipped with second contact piece 65, transform chamber 64 right-hand member wall is equipped with iron core 19, iron core 19 left side is equipped with the more first coil 18 of turn, iron core 19 right side is equipped with the less second coil 20 of turn, transform chamber 64 right-hand member wall downside is fixed and is equipped with rectifier 29.
Be equipped with first pivot 49 in the control chamber 36, be equipped with gear 48 on the first pivot 49, bilateral symmetry is equipped with cam 62 about first pivot 49, second spout 52 rear side is equipped with fifth spout 54, it is equipped with fifth slider 53 to slide in the fifth spout 54, the fixed conducting block 58 that is equipped with of fifth slider 53 rear end face, control chamber 36 rear end wall is equipped with first live wire 56, first live wire 56 bilateral symmetry is equipped with second live wire 61, works as conducting block 58 makes to the backward slip first live wire 56 with second live wire 61 communicates.
The fuselage 10 left side is located 56 upsides in first live wire are equipped with zero line 11, the fuselage 10 left end is equipped with power external connection piece 38, it is equipped with fixed block 34 to alternate chamber 64 left end wall, fixed block 34 can fix second live wire 61 with zero line 11, zero line 11 with it is equipped with first wire 14 to connect between the first contact piece 15, second live wire 61 with the second contact piece 65 is connected and is equipped with second wire 33, iron core 19 with rectifier 29 left end face be equipped with first contact piece 15 contact complex first wire piece 31, first wire piece 31 downside be equipped with second contact piece 65 contact complex second wire piece 30, iron core 19 right-hand member is equipped with third wire piece 21, third wire piece 21 right-hand member is equipped with first jack 22, iron core 19 right-hand member is equipped with be located the fourth wire piece 23 of third wire piece 21 downside, the right end of the fourth lead block 23 is provided with a second jack 24, the right end of the rectifier 29 is provided with a fifth lead block 25, the right end of the fifth lead block 25 is provided with a direct current positive electrode connector 26, the lower side of the fifth lead block 25 is provided with a sixth lead block 27, and the right end of the sixth lead block 27 is provided with a direct current negative electrode connector 28.
The working state is as follows:
the first slider 45 is pressed with a finger, the first slider 45 is pressed to slide backward, the first sliding block 45 slides backwards to drive the extrusion block 43 and the matching block 44 to slide backwards, the pressing block 43 slides backwards to slide the third sliding block 50 outwards, the third sliding block 50 slides outwards to contact with the matching block 44, at this time, the rack 47 on the third sliding block 50 is meshed with the gear 48, the mating block 44 slides the second slide 59 rearward by the third slide 50, the third slide block 59 slides backwards to drive the gear 48 to rotate, the gear 48 rotates to rotate the cam 62 through the first rotating shaft 49, the cam 62 rotates to press the fifth slider 53 to slide backward so that the conductive block 58 slides backward, sliding the conductive block 58 rearwardly so that the first line 56 is in electrical communication with the second line 61;
when the finger leaves the first slider 45, the third slider 50 slides the third slider 50 inwards through the second spring 63, the third slider 50 slides inwards to make the rack 47 and the gear 48 not engaged, and the pressing block 43 drives the first slider 45 to slide forwards under the action of the first spring 41;
when the voltage reduction is needed, the fourth slider 16 is moved upwards to enable the first contact block 15 and the second contact block 65 to be in contact with the second lead block 30 and the first lead block 31 on the iron core 19, the higher voltage is changed into the lower voltage, a plug is inserted into the first jack 22 and the second jack 24, the use can be achieved, when a user needs direct current, the fourth slider 16 is moved downwards to enable the first contact block 15 and the second contact block 65 to be in contact with the second lead block 30 and the first lead block 31 on the rectifier 29, alternating current is changed into direct current, and the positive electrode and the negative electrode of equipment using the direct current are connected to the direct current positive electrode connecting port 26 and the direct current negative electrode connecting port 28 for use.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.