CN222422572U - Socket - Google Patents

Abstract

The utility model discloses a socket which comprises a lower base, a power-on wire piece, an upper top cover, a top rod and an elastic reset piece, wherein the lower base comprises a base body and a base support which are connected, the power-on wire piece is arranged on the inner side of the base body and is provided with a clamping part, the upper top cover comprises a top cover body and a top cover support which are connected, the top cover body is provided with a socket which is arranged facing the clamping part, the top cover body is buckled with the base body, the top cover support is butted with the base support to form a rotating hole, the top rod is provided with an action part, a pressing part and a first rotating shaft part, the first rotating shaft part is rotatably arranged in the rotating hole, the action part can be pressed to enable the top rod to rotate, the action part can act on an inserting end of the power-on inserting piece when the top rod rotates, and the elastic reset piece enables the top rod to reset. The pressing part of the ejector rod is pressed, and the energizing insert is pushed to be separated from the clamping part of the energizing piece by the action part of the ejector rod, so that a user can conveniently realize disconnection of the socket and the plug by one hand.

Description

Socket

Technical Field

The utility model relates to the technical field of sockets.

Background

The socket is widely used for switching on or off the power supply of various household appliances.

In the related art, a plug of a household appliance is plugged into a socket, so that the household appliance is electrified. When the household appliance needs to be powered off, a user operates the plug to pull the plug out of the socket, so that the household appliance is powered off.

However, when the user pulls out the plug, the user needs to fix the socket with one hand and then pull out the plug from the socket with the other hand, so that it is inconvenient if the user needs to complete pulling out the plug with one hand.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the socket, which is convenient for separating the electric plug sheet from the electric wire sheet of the socket.

The embodiment of the application provides a socket, which comprises:

the lower base comprises a base body and a base bracket, wherein the base bracket is arranged on the inner side of the base body;

The power-on wire sheet is arranged on the inner side of the base body and is provided with a clamping part for inserting a power-on inserting sheet of a plug;

The upper top cover comprises a top cover body and a top cover support, wherein the top cover body is provided with a socket facing the clamping part, and the top cover support is arranged on the inner side of the top cover body;

The ejector rod is provided with an action part, a pressing part and a first rotating shaft part positioned between the action part and the pressing part, wherein the first rotating shaft part is rotatably arranged in the rotating hole, the action part can be pressed to control the ejector rod to rotate, and the action part can move towards the end part of the clamping part away from the socket when the ejector rod rotates so as to act on the insertion end of the electrified insertion sheet;

And an elastic reset piece configured to rotate the ejector rod towards the opposite direction of the pressing direction.

According to some embodiments of the utility model, one of the top cover bracket and the base bracket is provided with a rotary opening groove, and the other is provided with a limiting part, and the limiting part is arranged on an opening of the rotary opening groove or is embedded into the rotary opening groove so as to form the rotary hole;

or, the base support is provided with a rotary open slot, the other base support is also provided with a rotary open slot, and the two rotary open slots are buckled to form the rotary hole.

According to some embodiments of the utility model, the top cover bracket comprises two top positioning plates fixedly arranged on the top cover body, a positioning gap for accommodating the ejector rod is defined between the two top positioning plates, a rotating open slot for forming the rotating hole is formed at the end part of each top positioning plate, one end part of the first rotating shaft part is rotationally embedded in one rotating open slot, and the other end part is rotationally embedded in the other rotating open slot.

According to some embodiments of the utility model, the socket further comprises a button, the top cover body is provided with a pressing opening, the button is slidably arranged at the pressing opening and is configured to act on the pressing portion of the ejector rod when pressed, so that the acting portion of the ejector rod moves towards the clamping portion.

According to some embodiments of the present utility model, a transmission part is protruded on the inner side of the button, one of the transmission part and the pressing part is provided with a waist-shaped hole, and the other is provided with a second rotating shaft part which is rotatably and slidably arranged in the waist-shaped hole;

Or, the inner side of the button is provided with a transmission part in a protruding mode, the end portion of the transmission part is provided with a guide opening groove, and the pressing part is provided with the second rotating shaft part and is used for rotating and sliding arranged in the guide opening groove;

Or, the inner side of the button is provided with a transmission part in a protruding mode, and the elastic reset piece is used for enabling the transmission part to keep propping against the pressing part.

According to some embodiments of the utility model, the top cover body comprises a top plate and a coaming connected to the peripheral edge of the top plate, the coaming is connected with the base body, and the pressing opening is formed in the top plate and the coaming.

According to some embodiments of the utility model, the ejector pin further has a limiting projection located between the first rotating shaft portion and the pressing portion, the limiting projection being for abutting against the upper top cover when the ejector pin moves toward the pressing direction.

According to some embodiments of the utility model, the live wire piece comprises a neutral wire piece and a live wire piece, the neutral wire piece and the live wire piece are provided with clamping parts, and the action part of the ejector rod is used for acting on a live plug-in piece inserted into the clamping part of the neutral wire piece and/or a live plug-in piece inserted into the clamping part of the live wire piece;

The live wire piece comprises a zero wire piece, a live wire piece and a ground wire piece, wherein the zero wire piece, the live wire piece and the ground wire piece are provided with clamping parts, and the action part of the ejector rod is used for acting on an electrifying inserting piece inserted into the clamping parts of the zero wire piece and/or an electrifying inserting piece inserted into the clamping parts of the live wire piece and/or an electrifying inserting piece inserted into the clamping parts of the ground wire piece.

According to some embodiments of the present utility model, the power line sheet includes a neutral sheet and a live sheet having a consistent structure, and the power line sheet includes a main sheet and a plurality of clamping portions sequentially disposed on the main sheet, where the clamping portions include an extension sheet and two elastic pressing sheets, the extension sheet is connected to the main sheet and extends along a width direction of the main sheet, and the two elastic pressing sheets are respectively connected to two edges of the extension sheet and are used for clamping the power on tab.

According to some embodiments of the utility model, the elastic restoring member is at least one of a spring, a tension spring, or a torsion spring.

As can be seen from the above technical solutions, the embodiment of the present application has the advantage that, compared with the prior art, two hands are required to cooperate to conveniently operate the plug to be pulled out, so as to achieve disconnection of the two. According to the application, a user can push the electrified inserting sheet and the clamping part of the electrified sheet to be separated by pressing the pressing part of the ejector rod and utilizing the action part of the ejector rod, so that the ejector rod can be conveniently operated by one hand by the user, the disconnection between the socket and the plug is realized, and the situation that the wet hand directly removes the operation plug to be pulled out from the socket is effectively avoided, thereby avoiding the electric shock risk of the user.

In addition, the rotation hole is formed between the base bracket and the top cover bracket, so that the first rotation shaft part of the ejector rod can be conveniently assembled at the corresponding position of the base bracket or the top cover bracket before the lower base and the upper top cover are assembled. When the lower base and the upper top cover are assembled together, the first rotating shaft part of the ejector rod is just assembled in a rotating hole formed between the base bracket and the top cover bracket, so that the ejector rod is convenient to assemble, and the assembling time of the socket is saved. And the first rotating shaft part is simple to assemble, and industrial equipment can be applied to automatically assemble the socket.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a socket according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a jack and a socket according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of an internal structure of a socket according to an embodiment of the utility model;

FIG. 4 is a schematic view of another angle structure of FIG. 3;

FIG. 5 is a schematic diagram of the overall structure of another socket according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram of a push rod and a button according to an embodiment of the present utility model;

FIG. 7 is a schematic diagram of a push rod and another button according to an embodiment of the present utility model;

Fig. 8 is a schematic structural diagram of a power-on wire sheet according to an embodiment of the present utility model.

Wherein the reference numerals have the following meanings:

100. The power-on wire device comprises a lower base, 110, a base body, 120, a base bracket, 121, a bottom positioning plate, 122, a limiting part, 130, a fixing frame, 200, a power-on wire sheet, 201, a zero wire sheet, 202, a fire wire sheet, 203, a ground wire sheet, 210, a main wire sheet, 220, a clamping part, 221, an extension wire sheet, 222, an elastic pressing sheet, 300, an upper top cover, 310, a top cover body, 311, a top plate, 312, a coaming, 313, a pressing opening, 314, a socket, 320, a top cover bracket, 321, a top positioning plate, 322, a rotating opening groove, 400, an elastic resetting piece, 500, a push rod, 510, an acting part, 520, a pressing part, 530, a first rotating shaft part, 540, a second rotating shaft part, 550, a limiting bulge, 600, a button, 610, a transmission part 611, a waist-shaped hole, 612, a guide opening groove, 700, a socket and 710, and a power-on inserting piece.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, upper, lower, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, the meaning of a number is one or more, the meaning of a number is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and the meaning of a number is understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

In the description of the present utility model, the descriptions of the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The utility model is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 4, a socket provided in an embodiment of the utility model includes a lower base 100, a power-on wire piece 200, an upper top cover 300, a push rod 500 and an elastic reset member 400, wherein the lower base 100 includes a base body 110 and a base support 120, the base body 110 is a bottom shell of the socket, the base support 120 is disposed on an inner side of the base body 110, and the two are integrally disposed. The power-on wire piece 200 is disposed inside the base body 110, the power-on wire piece 200 has a clamping portion 220, and the power-on insert 710 of the plug 700 can be inserted into the clamping portion 220, so that the power-on wire piece 200 powers on the plug 700. The upper top cover 300 comprises a top cover body 310 and a top cover bracket 320, wherein the top cover body 310 is a top shell of a socket, the top cover body 310 is provided with a socket 314 facing the clamping part 220, and the power-on inserting sheet 710 is inserted into the inner side of the top cover body 310 through the socket 314 and is just inserted into the clamping part 220 of the power-on wire sheet 200. The top cover supporter 320 is disposed at the inner side of the top cover body 310, both are integrally arranged. The top cover body 310 is buckled with the base body 110, and the top cover support 320 is butted with the base support 120 to form a rotation hole therebetween. The ejector 500 is provided in a sheet-like body, and the ejector 500 has an acting portion 510, a pressing portion 520, and a first rotating shaft portion 530 located between the acting portion 510 and the pressing portion 520. Wherein, the first rotating shaft portion 530 is rotatably disposed in the rotating hole, the acting portion 510 may be pressed to control the rotation of the ejector 500, and the acting portion 510 may move toward the end of the clamping portion 220 away from the socket 314 when the ejector 500 rotates to act on the insertion end of the power-on tab 710. The elastic restoring member 400 is configured to rotate the jack 500 in the opposite direction to the pressing direction.

Specifically, when the power-on tab 710 and the clamping portion 220 of the power-on tab need to be separated, the user presses the pressing portion 520 of the ejector 500, and the ejector 500 rotates about the first rotation shaft 530 under the action of the user, and at this time, the acting portion 510 of the ejector 500 moves toward the end of the clamping portion 220 away from the socket 314. When the ejector 500 rotates by a set angle, the acting portion 510 of the ejector 500 abuts against the insertion end of the power-on tab 710, and with the continued rotation of the ejector 500, the acting portion 510 of the ejector 500 pushes the power-on tab 710 to move toward the socket 314, and the power-on tab 710 is separated from the clamping portion 220 of the power-on wire 200, thereby completing the power-off operation of the plug 700 and the socket.

It will be appreciated that two hands are required to cooperate to facilitate the operation of plug 700 extraction to effect disconnection of the two, as compared to the prior art. In the application, a user can push the electrified inserting sheet 710 to be separated from the clamping part 220 of the electrified sheet by pressing the pressing part 520 of the ejector rod 500 through the action part 510 of the ejector rod 500, so that the ejector rod 500 can be conveniently operated by one hand by the user, the disconnection between the socket and the plug 700 can be realized, and the situation that the wet hand directly operates the plug 700 to be pulled out of the socket can be effectively avoided, thereby avoiding the electric shock risk of the user.

In addition, the base bracket 120 is disposed on the inner side of the base body 110, the top cover bracket 320 is disposed on the inner side of the top cover body 310, and when the upper top cover 300 is fastened to the lower base 100, the end of the base bracket 120 is abutted to the end of the top cover bracket 320, and a rotation hole is formed between the end of the base bracket 120 and the end of the top cover bracket, so that the ejector 500 is rotatably disposed in the rotation hole through the first rotation shaft 530, thereby realizing the rotation setting of the ejector 500. And, the rotation hole is formed between the base bracket 120 and the top cover bracket 320, so that the first rotation shaft part 530 of the top rod 500 can be conveniently assembled at a position corresponding to the base bracket 120 or the top cover bracket 320 before the lower base 100 and the upper top cover 300 are assembled. When the lower base 100 and the upper top cover 300 are assembled together, the first rotating shaft portion 530 of the top rod 500 is just assembled in the rotating hole formed between the base bracket 120 and the top cover bracket 320, so that the top rod 500 is assembled more conveniently, and the assembling time of the socket is saved. And, the first rotating shaft part 530 is simply assembled, and the socket can be automatically assembled by using industrial equipment.

In order to make it possible for the user to press the ejector 500 more effort-saving, in one possible embodiment, the distance X1 from the pressing portion 520 to the first rotating shaft portion 530, the distance X2 from the acting portion 510 to the first rotating shaft portion 530 is greater than the distance X2, so that according to the lever principle, the user does not need to apply a larger force to the pressing portion 520 of the ejector 500, and the acting portion 510 of the ejector 500 can provide a sufficiently large pushing force to the power-on tab 710, so that the ejector 710 is separated from the clamping portion 220 of the power-on wire 200, and thus the experience of the user to the socket is improved.

In order to form a rotation hole between the base bracket 120 and the top cover bracket 320, in one possible embodiment, referring to fig. 3 and 4, the end of the top cover bracket 320 is provided with a U-shaped rotation opening groove 322, the base bracket 120 is provided with a limiting part 122, and the limiting part 122 is embedded in a partial area of the rotation opening groove 322, thereby forming the rotation hole. The limiting portion 122 is embedded inside the rotating opening groove 322, so that the positioning between the base bracket 120 and the top cover bracket 320 can be realized, and the positioning between the lower base 100 and the upper top cover 300 can be further realized. Or the limiting part 122 is shielded only from the opening of the rotation opening groove 322, thereby forming a rotation hole. Alternatively, the rotation opening groove 322 may be disposed on the base bracket 120, and the limiting portion 122 may be disposed on the top cover bracket 320.

In other possible embodiments, the end of the base bracket 120 is provided with a semicircular rotary open slot 322, and the end of the top cover bracket 320 is also provided with a semicircular rotary open slot 322 (not shown). When the base bracket 120 is abutted against the top cover bracket 320, the two rotating opening grooves 322 are buckled to form a rotating hole.

In some embodiments, referring to fig. 3 and 4, the top cover bracket 320 includes two top positioning plates 321, and the two top positioning plates 321 are fixedly disposed on the inner side of the top cover body 310 and are disposed in parallel. A positioning gap is defined between the two top positioning plates 321, and the thickness of the main body of the ejector 500 is matched with the positioning gap and is positioned in the positioning gap. The end of each top positioning plate 321 is provided with the above-described rotation opening grooves 322, and two rotation opening grooves 322 are used to form two rotation holes. One end portion of the first rotating shaft portion 530 is rotatably fitted into one rotating opening groove 322, i.e., rotatably disposed in one rotating hole, and the other end portion is rotatably fitted into the other rotating opening groove 322, i.e., rotatably disposed in the other rotating hole, whereby the ejector 500 is rotatably disposed between the two top positioning plates 321 through the first rotating shaft portion 530. It can be appreciated that, by the arrangement of the two top positioning plates 321, the ejector 500 can be stably rotatably arranged on the top cover fixing frame 130 through the rotation opening grooves 322 formed on the two top positioning plates 321. And, the two top positioning plates 321 are used to limit the two sides of the ejector 500 in the thickness direction, so as to limit the movement of the ejector 500 in the plane where the positioning gap is located, thereby ensuring that the acting portion 510 of the ejector 500 can precisely act on the insertion end of the power-on insert 710, and further push the power-on insert 710 outwards to move.

Further, the base bracket 120 includes two bottom positioning plates 121 and a limiting portion 122, wherein the two bottom positioning plates 121 are fixedly disposed on the inner side of the base body 110 and are disposed in parallel, and the two top positioning plates 321 are disposed between the two bottom positioning plates 121 and are used for limiting the two top positioning plates 321. The limiting portion 122 is connected to the base body 110 and a side portion of the bottom positioning plate 121, and the limiting portion 122 is used for being embedded in the inner side of the rotation opening groove 322 or blocking the opening of the rotation opening groove 322, so as to form a rotation hole.

In some embodiments, the resilient return member 400 is at least one of a spring, a tension spring, or a torsion spring. One end of the elastic restoring member 400 may be connected to the inner side of the base body 110, and the other end thereof is directly connected to the push rod 500, so that the elastic restoring member 400 is used for providing an elastic restoring force to the push rod 500, or the other end of the elastic restoring member 400 may be indirectly connected to the push rod 500 for providing an elastic restoring force to the push rod 500, for example, the elastic restoring member 400 is connected to the button 600, and the button 600 is connected to the pressing portion 520 of the push rod 500, so that the elastic restoring member 400 also restores the push rod 500 when restoring the button 600.

In some embodiments, referring to fig. 3 and 4, the socket further includes a button 600, the top cover body 310 is provided with a pressing opening 313, and the button 600 is slidably disposed in the pressing opening 313. The inner side of the button 600 is configured to act on the pressing portion 520 of the jack 500 when pressed, so that the acting portion 510 of the jack 500 moves toward the grip portion 220. The elastic restoring member 400 is disposed on the base body 110 or the top cover body 310 and connected to the push rod 500 or the button 600, and the elastic restoring member 400 directly or indirectly rotationally restores the push rod 500. It will be appreciated that the button 600 is provided on the top cover body 310, and the user can push the button 600 to act on the pressing portion 520 of the push rod 500, thereby moving the acting portion 510 of the push rod 500 to push the power-on tab 710 outwards. It can be seen that, by setting the button 600, the user can conveniently push the push rod 500 to rotate by the button 600.

To facilitate the user pressing the button 600 inward, in one possible embodiment, the top cover body 310 includes a top plate 311 and a surrounding plate 312, the surrounding plate 312 is connected to the edge around the top plate 311, the surrounding plate 312 is connected to the base body 110, and the pressing opening 313 is formed in the top plate 311 and the surrounding plate 312. It will be appreciated that the pressing opening 313 forms a notch in the shroud 312, which provides an operating space for a user's finger when the user presses the button 600, thereby facilitating the user to press the button 600 toward the base, and thus facilitating the operation of the ejector 500.

Of course, referring to fig. 5, the pressing opening 313 may be directly formed on the top plate 311, and does not need to extend to the shroud 312.

In order to realize the driving connection of the push button 600 with the pressing part 520 of the push rod 500, in one possible embodiment, referring to fig. 6, the inner side of the push button 600 is protruded with a driving part 610, and the driving part 610 is provided with a waist-shaped hole 611. Meanwhile, the pressing part 520 is provided with a second rotating shaft part 540, and the second rotating shaft part 540 is rotatably provided at the waist-shaped hole 611 and is capable of sliding along the waist-shaped hole 611. Or the pressing part 520 is provided with a waist-shaped hole 611, the transmission part 610 is provided with a second rotating shaft part 540, and the second rotating shaft part 540 is rotatably arranged in the waist-shaped hole 611 and can slide along the waist-shaped hole 611.

Specifically, when the button 600 is pressed inward, the second rotating shaft 540 rotates relative to the button 600 through the waist-shaped hole 611 and slides along the waist-shaped hole 611, so that interference between the button 600 and the ejector 500 is avoided when the button 600 is pressed, and thus the ejector 500 can be pushed to rotate by pressing the button 600. Meanwhile, the button 600 is connected with the push rod 500, and the elastic reset member 400 may act on the inner side of the button 600, thereby driving the push rod 500 to rotate and reset through the button 600.

In another embodiment, referring to fig. 7, the inner side of the button 600 is protruded with a transmission part 610, and an end of the transmission part 610 is provided with a U-shaped guide opening groove 612. The pressing portion 520 is provided with a second rotating shaft portion 540, and the second rotating shaft portion 540 is rotatably provided in the guide opening groove 612 and is slidable along the guide opening groove 612. It will be appreciated that when the button 600 is pressed inward, the second rotating shaft 540 rotates relative to the button 600 through the guide opening groove 612 and slides along the guide opening groove 612, so that interference between the button 600 and the ejector 500 during pressing is avoided, and thus the ejector 500 can be pushed to rotate by pressing the button 600. The second rotating shaft portion 540 is embedded in the guiding open groove 612 through the guiding open groove 612, so that positioning between the button 600 and the ejector 500 is realized, and the button 600 can be ensured to act on the ejector 500 better, so that rotation of the ejector 500 is controlled stably.

Of course, the transmission portion 610 protrudes from the inner side of the button 600, and the elastic restoring member 400 is connected to the ejector 500, so that the transmission portion 610 is kept in contact with the pressing portion 520, and thus the pressing portion 520 may act on the pressing portion 520 of the ejector 500 when pressed, so as to control the rotation of the ejector 500.

In order that the acting portion 510 of the ejector 500 does not excessively press the clamping portion 220 of the power-on wire piece 200, in one possible embodiment, referring to fig. 6, the side portion of the ejector 500 has a limit protrusion 550, and the limit protrusion 550 is located between the first rotating shaft portion 530 and the pressing portion 520. When the ejector rod 500 rotates by a set angle under the action of the button 600, the acting part 510 of the ejector rod 500 pushes the power-on inserting sheet 710 to be separated from the clamping part 220 of the power-on wire sheet 200, and the limit protrusion 550 just abuts against the flanging at the position of the pressing opening, so that the acting part 510 of the ejector rod 500 is limited to continue to move towards the clamping gap of the clamping part 220, the acting part 510 of the ejector rod 500 is prevented from excessively extruding the clamping part 220 of the power-on wire sheet 200, and the clamping force on the power-on inserting sheet 710 is ensured to be kept for a long time by the clamping part 220 of the power-on wire sheet 200, so that the power-on inserting sheet 710 is electrified.

In one possible embodiment, referring to fig. 3, the live wire tab 200 includes a neutral wire tab 201 and a live wire tab 202, each of the neutral wire tab 201 and the live wire tab 202 having a clamping portion 220. The action portion 510 of the ejector 500 is used to act on the power plug 710 plugged into the clamping portion 220 of the neutral blade 201 and/or the power plug 710 plugged into the clamping portion 220 of the hot blade 202. Specifically, the ejector 500 is provided with an action portion 510 (see fig. 6), and when the ejector 500 rotates, the action portion 510 pushes the power plug 710 plugged into the neutral wire piece 201, and possibly pushes the power plug 710 plugged into the hot wire piece 202. Of course, the ejector 500 may be further provided with two action portions 510 (refer to fig. 2), and when the ejector 500 rotates, one action portion 510 pushes the power plug 710 plugged into the neutral wire piece 201, and the other action portion 510 pushes the power plug 710 plugged into the live wire piece 202. The above-mentioned multiple setting methods that provide can set up according to actual need nimble.

In another possible embodiment, referring to fig. 3, the power lead 200 includes a neutral lead 201, a live lead 202 and a ground lead 203, where the neutral lead 201, the live lead 202 and the ground lead 203 each have a clamping portion 220, and the action portion 510 of the ejector 500 is used to act on the power plug 710 plugged into the clamping portion 220 of the neutral lead 201 and/or the power plug 710 plugged into the clamping portion 220 of the live lead 202 and/or the power plug 710 plugged into the clamping portion 220 of the ground lead. Specifically, the ejector 500 is provided with an action portion 510, and when the ejector 500 rotates, the action portion 510 pushes the power plug 710 plugged into the neutral wire piece 201, possibly pushes the power plug 710 plugged into the live wire piece 202, and possibly pushes the power plug 710 plugged into the ground wire piece 203. Or, the ejector 500 may be further provided with two action portions 510, and when the ejector 500 rotates, the two action portions 510 respectively push the power-on inserting pieces 710 inserted into the two power-on wire pieces 200, where the two power-on wire pieces 200 are any two of the neutral wire piece 201, the live wire piece 202 and the ground wire piece 203, and the application is not limited. It is also possible that the ejector 500 is further provided with three action portions 510, and the three action portions 510 are used for pushing the power-on tabs 710 plugged onto the neutral tab 201, the live tab 202 and the ground tab 203, respectively. The above-mentioned multiple setting methods that provide can set up according to actual need nimble.

In some embodiments, referring to fig. 8, the power strip 200 includes a neutral strip 201 and a hot strip 202 that are identical in structure, the power strip 200 includes a main strip 210 and a plurality of clamping portions 220 sequentially disposed on the main strip 210, and each clamping portion 220 is plugged with one power plug 710. The clamping portion 220 includes an extension electrical sheet 221 and two elastic pressing sheets 222, wherein one end of the extension electrical sheet 221 is connected to an edge of the main electrical sheet 210 near the socket 314, and the other end extends toward the direction of the socket 314, that is, the extension electrical sheet 221 extends along the width direction of the main electrical sheet 210. One end of one elastic pressing piece 222 is connected with one edge of the extension electric piece 221, one end of the other elastic pressing piece 222 is connected with the other edge of the extension electric piece 221, and a clamping gap for pressing the energizing tab 710 is formed between the two elastic pressing pieces 222. It can be appreciated that, by the arrangement of the extending electric pieces 221, the clamping portion 220 has a sufficient height of the two elastic pressing pieces 222 relative to the base body 110, so that a sufficient space is provided between the elastic pressing pieces 222 and the base body 110, and the acting portion 510 of the ejector 500 can move on the lower side of the elastic pressing pieces 222, so as to push the power-on tab 710 to be separated from the elastic pressing pieces 222.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. A socket, comprising:

the lower base comprises a base body and a base bracket, wherein the base bracket is arranged on the inner side of the base body;

The power-on wire sheet is arranged on the inner side of the base body and is provided with a clamping part for inserting a power-on inserting sheet of a plug;

The upper top cover comprises a top cover body and a top cover support, wherein the top cover body is provided with a socket facing the clamping part, and the top cover support is arranged on the inner side of the top cover body;

The ejector rod is provided with an action part, a pressing part and a first rotating shaft part positioned between the action part and the pressing part, wherein the first rotating shaft part is rotatably arranged in the rotating hole, the action part can be pressed to control the ejector rod to rotate, and the action part can move towards the end part of the clamping part away from the socket when the ejector rod rotates so as to act on the insertion end of the electrified insertion sheet;

And an elastic reset piece configured to rotate the ejector rod towards the opposite direction of the pressing direction.

2. The socket of claim 1, wherein one of the top cover bracket and the base bracket is provided with a rotation opening groove, and the other one is provided with a limiting part, and the limiting part is arranged at an opening of the rotation opening groove or is embedded into the rotation opening groove so as to form the rotation hole;

or, the base support is provided with a rotary open slot, the other base support is also provided with a rotary open slot, and the two rotary open slots are buckled to form the rotary hole.

3. The socket according to claim 1 or 2, wherein the top cover bracket includes two top positioning plates fixedly provided to the top cover body, a positioning gap for accommodating the jack is defined between the two top positioning plates, a rotation opening groove for forming the rotation hole is formed at an end portion of each top positioning plate, one end portion of the first rotation shaft portion is rotatably embedded in one rotation opening groove, and the other end portion is rotatably embedded in the other rotation opening groove.

4. The socket of claim 1, further comprising a button, wherein the top cover body is provided with a pressing opening, and the button is slidably disposed in the pressing opening and is configured to act on the pressing portion of the jack when pressed, so that the acting portion of the jack moves toward the clamping portion.

5. The socket of claim 4, wherein a transmission part is protruded on the inner side of the button, one of the transmission part and the pressing part is provided with a waist-shaped hole, and the other is provided with a second rotating shaft part which is rotatably and slidably arranged in the waist-shaped hole;

Or, the inner side of the button is provided with a transmission part in a protruding mode, the end portion of the transmission part is provided with a guide opening groove, and the pressing part is provided with the second rotating shaft part and is used for rotating and sliding arranged in the guide opening groove;

or, a transmission part is protruded on the inner side of the button, and the elastic reset piece is used for enabling the transmission part to keep propping against the pressing part.

6. The socket of claim 4, wherein the top cover body comprises a top plate and a surrounding plate connected to the peripheral edge of the top plate, the surrounding plate is fastened to the base body, and the pressing opening is formed in the top plate and the surrounding plate.

7. The socket of claim 1, wherein the jack further has a limit projection between the first rotating shaft portion and the pressing portion for abutting against the upper top cover when the jack moves a set angle toward the pressing direction.

8. The socket according to claim 1, wherein the power-on wire piece comprises a neutral wire piece and a live wire piece, the neutral wire piece and the live wire piece are provided with clamping parts, and the action part of the ejector rod is used for acting on a power-on inserting piece inserted into the clamping part of the neutral wire piece and/or a power-on inserting piece inserted into the clamping part of the live wire piece;

Or, the power-on line piece comprises a zero line piece, a live line piece and a ground line piece, wherein the zero line piece, the live line piece and the ground line piece are all provided with clamping parts, and the action part of the ejector rod is used for acting on the power-on inserting piece inserted into the clamping part of the zero line piece and/or the power-on inserting piece inserted into the clamping part of the live line piece and/or the power-on inserting piece inserted into the clamping part of the ground line piece.

9. The socket of claim 1, wherein the power line sheet comprises a neutral sheet and a live sheet which are identical in structure, the power line sheet comprises a main sheet and a plurality of clamping parts sequentially arranged on the main sheet, the clamping parts comprise an extension sheet and two elastic pressing sheets, the extension sheet is connected with the main sheet and extends along the width direction of the main sheet, and the two elastic pressing sheets are respectively connected to two edges of the extension sheet and used for clamping power-on inserting sheets.

10. The socket of claim 1, wherein the resilient return member is at least one of a spring, a tension spring, or a torsion spring.