阅读说明：本技术 具有过载保护功能的智能插座面板 (Intelligent socket panel with overload protection function ) 是由 沈维浩 于 2020-12-09 设计创作，主要内容包括：本发明揭示一种具有过载保护功能的智能插座面板,包括插座面板本体,支架与插座面板本体之间设置有齿轮和转动块；齿轮的前端面上一体成型有转轴,插座面板本体中设置有轴孔,转轴的前端面上一体成型有正六边形状的凸台,齿轮的后端设置有第一盲孔,支架的内底部上一体成型有第一定位销；转动块的后端设置有第二盲孔,支架的内底部上一体成型有第二定位销,第二盲孔中设置有弹簧,转动块的前端面中部设置有嵌槽,每个安装孔中均嵌固有第一弹性导电针,位于转动块前侧的插座面板本体中设置有长形孔,位于转动块后方的支架中嵌固有两根第二弹性导电针；本发明能够避免插座面板本体出现燃烧、起火的现象,消除了安全隐患。(The invention discloses an intelligent socket panel with an overload protection function, which comprises a socket panel body, wherein a gear and a rotating block are arranged between a bracket and the socket panel body; a rotating shaft is integrally formed on the front end face of the gear, a shaft hole is formed in the socket panel body, a boss in a regular hexagon shape is integrally formed on the front end face of the rotating shaft, a first blind hole is formed in the rear end of the gear, and a first positioning pin is integrally formed on the inner bottom of the bracket; a second blind hole is formed in the rear end of the rotating block, a second positioning pin is integrally formed on the inner bottom of the support, a spring is arranged in the second blind hole, an embedding groove is formed in the middle of the front end face of the rotating block, a first elastic conductive pin is embedded and fixed in each mounting hole, an elongated hole is formed in the socket panel body located on the front side of the rotating block, and two second elastic conductive pins are embedded and fixed in the support located behind the rotating block; the socket panel can avoid the phenomena of burning and firing of the socket panel body, and eliminates potential safety hazards.)

1. The utility model provides an intelligent socket panel with overload protection function, includes socket panel body (1), the outside cover of socket panel body (1) front end is equipped with dress escutcheon (2), its characterized in that: screw holes (15) are formed in four corners of the socket panel body (1), screws can penetrate through the screw holes (15) to fix the socket panel body (1) on a cassette, an n-shaped support (3) is arranged on the back of the right side of the socket panel body (1), two ends of the support (3) are fixed to the back of the socket panel body (1), a gear (4) and a rotating block (5) are arranged between the support (3) and the socket panel body (1), the gear (4) and the rotating block (5) are distributed in the vertical direction, and the gear (4) is meshed with the rotating block (5); a rotating shaft (41) which is coaxial with the gear (4) is integrally formed on the front end face of the gear (4), a shaft hole (11) is formed in the socket panel body (1), the rotating shaft (41) is inserted into the shaft hole (11) and is rotationally connected with the shaft hole (11), a lug boss (42) which is in a regular hexagonal shape is integrally formed on the front end face of the rotating shaft (41), the sum of the lengths of the lug boss (42) and the rotating shaft (41) is equal to the length of the shaft hole (11), a first blind hole (43) is formed at the rear end of the gear (4), a first positioning pin (31) is integrally formed on the inner bottom of the support (3), the first positioning pin (31) is inserted into the first blind hole (43), and the gear (4) is rotationally connected with the first positioning pin (31); the rear end of turning block (5) is provided with second blind hole (51), integrated into one piece has second locating pin (32) on the interior bottom of support (3), second locating pin (32) part inserts in second blind hole (51), turning block (5) rotate with second locating pin (32) and be connected, be provided with spring (6) in second blind hole (51), the both ends of spring (6) respectively with the interior bottom of second blind hole (51) and the front end counterbalance of second locating pin (32), the preceding terminal surface middle part of turning block (5) is provided with caulking groove (52) that are used for supplying fuse (7) embedding, all be provided with in turning block (5) of each tip rear side of caulking groove (52) by preceding mounting hole (53) that extend backward, all inlay inherent first elasticity conductive needle (8) in every mounting hole (53), the front end of two first elasticity conductive needles (8) is equallyd divide and is used for respectively with one of them of fuse (7) in caulking groove (52) The plug comprises conductive ends which are abutted, the rear end face of each first elastic conductive needle (8) is flush with the rear end face of a rotating block (5), an elongated hole (12) is formed in a socket panel body (1) located on the front side of the rotating block (5), the elongated hole (12) extends in the horizontal direction, when a fuse (7) located in an embedded groove (52) rotates to the horizontal state, the elongated hole (12) is used for enabling the fuse (7) in the embedded groove (52) to penetrate through from back to front, two second elastic conductive needles (9) are embedded in a support (3) located behind the rotating block (5), and when the fuse (7) located in the embedded groove (52) rotates to the vertical state, the front ends of the two second elastic conductive needles (9) are respectively abutted to the rear end of one first elastic conductive needle (8); the socket is characterized in that a wire holder (10) is embedded on the rear surface of the socket panel body (1), one second elastic conductive pin (9) is electrically connected with one end of the wire holder (10) through a first wire (91), the other second elastic conductive pin (9) is electrically connected with a phase wire wiring hole (13) in the socket panel body (1) through a second wire (92), and the other end of the wire holder (10) is electrically connected with a phase wire in a power line.

2. The smart jack panel with the overload protection function according to claim 1, wherein two positioning protrusions (54) are uniformly distributed in the circumferential direction and are integrally formed on the front end surface of the rotating block (5), each positioning protrusion (54) is of a dome-shaped structure, four positioning grooves (14) are uniformly distributed in the circumferential direction and are arranged on the rear surface of the jack panel body (1), when an embedded groove (52) in the rotating block (5) rotates to a horizontal state, the two positioning protrusions (54) are respectively embedded with two positioning grooves (14), when the embedded groove (52) in the rotating block (5) rotates to a vertical state, the two positioning protrusions (54) are respectively embedded with the other two positioning grooves (14), and the shape of each positioning groove (14) is matched with the shape of the positioning protrusion (54).

3. The smart jack panel with the overload protection function according to claim 1, wherein two arc-shaped holes (55) are uniformly distributed in the circumferential direction at the edge of the rotating block (5), two guide rods (33) are integrally formed on the inner bottom of the bracket (3) and distributed in the vertical direction, and each guide rod (33) is inserted into one of the arc-shaped holes (55) and slidably connected with the arc-shaped hole (55).

4. The smart jack panel with the overload protection function according to claim 1, further comprising a dismounting tool for dismounting the fuse (7), wherein the dismounting tool comprises a rotating handle (201) and a positioning plate (202), a coaxially arranged rotating column (203) is integrally formed at one end of the rotating handle (201) facing the positioning plate (202), a jack (204) is arranged in the positioning plate (202), the rotating column (203) penetrates through the jack and is rotationally connected with the jack (204), an outwardly expanded expanding portion (205) is arranged at the jack (204) far away from one end of the rotating handle (201), a snap spring (206) is arranged in the expanding portion (205), the snap spring (206) is in fit clamping connection with the rotating column (203) in the expanding portion (205), and the snap spring (206) is attached to the bottom of the expanding portion (205), the rotary handle (201) is attached to the positioning plate (202), one end, far away from the rotary handle (201), of the rotary column (203) is used for being inserted into the shaft hole (11), one end, far away from the rotary handle (201), of the rotary column (203) is provided with a hexagonal counter bore (207) used for being matched and plugged with the boss (42), an insertion block (208) is integrally formed on the end face, far away from one side of the rotary handle (201), of the positioning plate (202), and when the rotary column (203) is inserted into the shaft hole (11), the insertion block (208) is used for being inserted into the elongated hole (12); the rotating column (203) is inserted into the shaft hole (11) and the positioning plate (202) is attached to the socket panel body (1) after the plug block (208) is inserted into the elongated hole (12).

Technical Field

The invention relates to the technical field of electrical connection devices, in particular to an intelligent socket panel with an overload protection function.

Background

Socket panel is indispensable electrical connection device, and the socket panel that uses on the market at present does not all possess the overload prevention function, so, when the socket panel overload phenomenon appears, leads to socket panel to appear burning, the phenomenon of catching fire easily to can damage socket panel, still can cause the conflagration even, have very big potential safety hazard.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the intelligent socket panel with the overload protection function, after the fuse is arranged in the socket panel body, when the socket panel body is overloaded, the fuse can be automatically fused, namely, the circuit can be disconnected, so that the phenomena of burning and firing of the socket panel body can be avoided, and the potential safety hazard is eliminated.

The invention discloses an intelligent socket panel with an overload protection function, which comprises a socket panel body, wherein a decoration frame is sleeved outside the front end of the socket panel body, screw holes are formed in four corners of the socket panel body and used for screws to penetrate through so as to fix the socket panel body on a cassette, a n-shaped support is arranged on the back of the right side of the socket panel body, two ends of the support are fixed with the back of the socket panel body, a gear and a rotating block are arranged between the support and the socket panel body, the gear and the rotating block are distributed in the vertical direction, and the gear is meshed with the rotating block; the front end face of the gear is integrally provided with a rotating shaft which is coaxial with the gear, a shaft hole is formed in the socket panel body, the rotating shaft is inserted into the shaft hole and is in rotating connection with the shaft hole, the front end face of the rotating shaft is integrally provided with a lug boss in a regular hexagon shape, the sum of the lengths of the lug boss and the rotating shaft is equal to the length of the shaft hole, the rear end of the gear is provided with a first blind hole, the inner bottom of the support is integrally provided with a first positioning pin, the first positioning pin is inserted into the first blind hole, and the gear is in rotating connection with the first positioning pin; the rear end of the rotating block is provided with a second blind hole, a second positioning pin is integrally formed on the inner bottom of the support, the second positioning pin is partially inserted into the second blind hole, the rotating block is rotatably connected with the second positioning pin, a spring is arranged in the second blind hole, two ends of the spring respectively abut against the inner bottom of the second blind hole and the front end of the second positioning pin, the middle part of the front end face of the rotating block is provided with an embedded groove for embedding a fuse, the rotating block at the rear side of each end part of the embedded groove is provided with a mounting hole extending from front to back, each mounting hole is fixedly embedded with a first elastic conductive pin, the front ends of the two first elastic conductive pins are respectively abutted against one conductive end of the fuse in the embedded groove, the rear end face of each first elastic conductive pin is flush with the rear end face of the rotating block, a long hole is arranged in the socket panel body at the front side of the rotating block and extends along the horizontal direction, when the fuse in the caulking groove rotates to a horizontal state, the elongated hole is used for allowing the fuse in the caulking groove to pass through from back to front, two second elastic conductive pins are embedded in the support behind the rotating block, and when the fuse in the caulking groove rotates to a vertical state, the front ends of the two second elastic conductive pins are respectively used for abutting against the rear end of one first elastic conductive pin; the rear surface of the socket panel body is fixedly embedded with a wire holder, one of the second elastic conductive pins is electrically connected with one end of the wire holder through a first wire, the other second elastic conductive pin is electrically connected with a phase wire wiring hole in the socket panel body through a second wire, and the other end of the wire holder is electrically connected with a phase wire in a power wire.

The invention discloses an intelligent socket panel with an overload protection function, wherein two positioning bulges which are uniformly distributed in the circumferential direction are integrally formed on the front end surface of a rotating block, each positioning bulge is of a dome-shaped structure, four positioning grooves which are uniformly distributed in the circumferential direction are arranged on the rear surface of a socket panel body, when an embedded groove in the rotating block rotates to a horizontal state, the two positioning bulges are respectively embedded with the two positioning grooves, when the embedded groove in the rotating block rotates to a vertical state, the two positioning bulges are respectively embedded with the other two positioning grooves, and the shape of each positioning groove is matched with that of the positioning bulge; by adopting the circumferential positioning structure, after the rotating block rotates clockwise by 90 degrees, namely when the caulking groove in the rotating block rotates from a vertical state to a horizontal state, the two positioning bulges can be separated from the original two positioning grooves and are embedded with the other two positioning grooves; or after the rotating block rotates 90 degrees anticlockwise, namely when the caulking groove in the rotating block rotates from a horizontal state to a vertical state, the two positioning bulges can be separated from the original two positioning grooves and are embedded with the other two positioning grooves; namely, after the rotating block rotates clockwise or anticlockwise by 90 degrees, the rotating block can be positioned; the utility model provides so make second locating pin part insert in the second blind hole, and the both ends of spring respectively with the interior bottom of second blind hole and the front end of second locating pin offset, the purpose is in order to break away from the constant head tank or at the in-process with the constant head tank gomphosis at the location arch for the turning block has the leeway of displacement from beginning to end.

The invention discloses an intelligent socket panel with an overload protection function, wherein two arc-shaped holes which are uniformly distributed in the circumferential direction are formed in the edge of a rotating block, two guide rods which are distributed in the vertical direction are integrally formed on the inner bottom of a support, and each guide rod is inserted into one of the arc-shaped holes and is in sliding connection with the arc-shaped hole; after adopting this kind of structure, when the relative support of turning block rotated, the guide bar can play the guide effect to the turning block with the cooperation in arc hole.

The invention relates to an intelligent socket panel with an overload protection function, wherein the intelligent socket panel with the overload protection function also comprises a dismounting tool for dismounting a fuse, the dismounting tool comprises a rotating handle and a positioning plate, one end of the rotating handle, facing the positioning plate, is integrally formed with a coaxially arranged rotating column, a jack is arranged in the positioning plate, the rotating column is penetrated in the jack and is rotationally connected with the jack, far away from one end of the rotating handle, is provided with an outward-expanding expansion part, a clamp spring is arranged in the expansion part and is in matched clamping connection with the rotating column in the expansion part, the clamp spring is attached to the bottom of the expansion part, the rotating handle is attached to the positioning plate, one end, far away from the rotating handle, of the rotating column is used for being inserted into a shaft hole, one end, far away from the rotating handle, of the rotating column is provided with a counter bore with a regular hexagon shape for matched insertion, when the rotating column is inserted into the shaft hole, the inserting block is used for being inserted into the elongated hole; the rotating column is inserted into the shaft hole, and the positioning plate is attached to the socket panel body after the inserting block is inserted into the elongated hole; after the disassembly and assembly tool is adopted, when a fuse is required to be installed on the socket panel body, firstly, the inserting block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, then, the rotating handle is rotated, the caulking groove on the rotating block is rotated to be in a horizontal state, after the caulking groove on the rotating block is rotated to be in the horizontal state, the positioning bulge on the rotating block can be embedded with the positioning groove on the socket panel body, namely, the rotating block can realize positioning, then, the disassembly and assembly tool is taken down, and the fuse is placed in the elongated hole; then the dismounting tool is matched with the socket panel body again, namely, the plug block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, the fuse in the elongated hole can be gradually pushed into the caulking groove in the process that the plug block is gradually inserted into the elongated hole, after the plug block is completely inserted into the elongated hole, the fuse can be pushed out from the elongated hole and completely enter the caulking groove, then the rotating handle is rotated, the caulking groove on the rotating block is rotated to a vertical state, after the caulking groove on the rotating block is rotated to the vertical state, the positioning bulge on the rotating block can be embedded with the positioning groove on the socket panel body, namely, the rotating block can realize positioning, at the moment, the elastic ends of the two first elastic conductive pins can respectively abut against one of the ends of the fuse, and the elastic ends of the two second elastic conductive pins can respectively abut against the rear end of one of the first elastic conductive pins, and finally, taking down the dismounting tool.

According to the socket panel, after the fuse is installed in the socket panel body, when the socket panel body is overloaded, the fuse can be automatically fused, so that a circuit can be disconnected, the phenomena of burning and firing of the socket panel body can be avoided, and potential safety hazards are eliminated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic front view of the present invention with the decorative frame removed;

FIG. 3 is a schematic rear view of the present invention with the decorative frame removed;

FIG. 4 is a schematic right side view of the present invention with the decorative frame, the first conductive wire and the second conductive wire removed;

FIG. 5 is a schematic cross-sectional view of the fuse with the first and second wires removed and after the fuse has been rotated to an upright position in accordance with the present invention;

FIG. 6 is an enlarged view of the structure at A in FIG. 5;

FIG. 7 is a schematic cross-sectional view of the fuse with the first and second wires removed and after the fuse has been rotated to a horizontal position in accordance with the present invention;

FIG. 8 is an enlarged view of the structure at B in FIG. 7;

FIG. 9 is a schematic cross-sectional view of the disassembled tooling after being matched with the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 9 at C;

FIG. 11 is a perspective view of a turning block;

fig. 12 is a perspective view of the turning block.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the invention. That is, in some embodiments of the invention, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The intelligent socket panel with the overload protection function comprises a socket panel body 1, wherein a decoration frame 2 is sleeved outside the front end of the socket panel body 1, screw holes 15 are formed in four corners of the socket panel body 1, screws can pass through the screw holes 15 to fix the socket panel body 1 on a cassette, an n-shaped support 3 is arranged on the back of the right side of the socket panel body 1, two ends of the support 3 are fixed to the back of the socket panel body 1, a gear 4 and a rotating block 5 are arranged between the support 3 and the socket panel body 1, the gear 4 and the rotating block 5 are distributed in the vertical direction, and the gear 4 is meshed with the rotating block 5; a rotating shaft 41 which is coaxial with the gear 4 is integrally formed on the front end face of the gear 4, a shaft hole 11 is formed in the socket panel body 1, the rotating shaft 41 is inserted into the shaft hole 11 and is rotatably connected with the shaft hole 11, a lug boss 42 with a regular hexagonal shape is integrally formed on the front end face of the rotating shaft 41, the sum of the lengths of the lug boss 42 and the rotating shaft 41 is equal to the length of the shaft hole 11, a first blind hole 43 is formed at the rear end of the gear 4, a first positioning pin 31 is integrally formed on the inner bottom of the bracket 3, the first positioning pin 31 is inserted into the first blind hole 43, and the gear 4 is rotatably connected with the first positioning pin 31; the rear end of the rotating block 5 is provided with a second blind hole 51, a second positioning pin 32 is integrally formed on the inner bottom of the bracket 3, part of the second positioning pin 32 is inserted into the second blind hole 51, the rotating block 5 is rotatably connected with the second positioning pin 32, a spring 6 is arranged in the second blind hole 51, two ends of the spring 6 are respectively abutted against the inner bottom of the second blind hole 51 and the front end of the second positioning pin 32, the middle part of the front end surface of the rotating block 5 is provided with a caulking groove 52 for embedding the fuse 7, the rotating block 5 at the rear side of each end part of the caulking groove 52 is provided with a mounting hole 53 extending from front to rear, each mounting hole 53 is internally embedded with a first elastic conductive pin 8, the front ends of the two first elastic conductive pins 8 are respectively abutted against one conductive end of the fuse 7 in the caulking groove 52, the rear end surface of each first elastic conductive pin 8 is flush with the rear end surface of the rotating block 5, the socket panel body 1 positioned on the front side of the rotating block 5 is provided with an elongated hole 12, the elongated hole 12 extends along the horizontal direction, when the fuse 7 positioned in the caulking groove 52 rotates to the horizontal state, the elongated hole 12 is used for allowing the fuse 7 in the caulking groove 52 to pass through from back to front, two second elastic conductive pins 9 are embedded in the bracket 3 positioned on the rear side of the rotating block 5, and when the fuse 7 positioned in the caulking groove 52 rotates to the vertical state, the front ends of the two second elastic conductive pins 9 are respectively used for abutting against the rear end of one first elastic conductive pin 8; a wire holder 10 is embedded on the rear surface of the socket panel body 1, one of the second elastic conductive pins 9 is electrically connected with one end of the wire holder 10 through a first wire 91, the other second elastic conductive pin 9 is electrically connected with a phase wire wiring hole 13 in the socket panel body 1 through a second wire 92, and the other end of the wire holder 10 is used for being electrically connected with a phase wire in a power line.

Two positioning bulges 54 which are uniformly distributed in the circumferential direction are integrally formed on the front end face of the rotating block 5, each positioning bulge 54 is of a dome-shaped structure, four positioning grooves 14 which are uniformly distributed in the circumferential direction are formed in the rear surface of the socket panel body 1, when the caulking groove 52 in the rotating block 5 rotates to a horizontal state, the two positioning bulges 54 are respectively embedded with the two positioning grooves 14, when the caulking groove 52 in the rotating block 5 rotates to a vertical state, the two positioning bulges 54 are respectively embedded with the other two positioning grooves 14, and the shape of each positioning groove 14 is matched with the shape of the positioning bulge 54; by adopting the circumferential positioning structure, after the rotating block rotates clockwise by 90 degrees, namely when the caulking groove in the rotating block rotates from a vertical state to a horizontal state, the two positioning bulges can be separated from the original two positioning grooves and are embedded with the other two positioning grooves; or after the rotating block rotates 90 degrees anticlockwise, namely when the caulking groove in the rotating block rotates from a horizontal state to a vertical state, the two positioning bulges can be separated from the original two positioning grooves and are embedded with the other two positioning grooves; namely, after the rotating block rotates clockwise or anticlockwise by 90 degrees, the rotating block can be positioned; the utility model provides so make second locating pin part insert in the second blind hole, and the both ends of spring respectively with the interior bottom of second blind hole and the front end of second locating pin offset, the purpose is in order to break away from the constant head tank or at the in-process with the constant head tank gomphosis at the location arch for the turning block has the leeway of displacement from beginning to end.

Two arc-shaped holes 55 which are uniformly distributed in the circumferential direction are formed in the edge of the rotating block 5, two guide rods 33 which are distributed in the vertical direction are integrally formed on the inner bottom of the support 3, and each guide rod 33 is inserted into one of the arc-shaped holes 55 and is in sliding connection with the arc-shaped hole 55; after adopting this kind of structure, when the relative support of turning block rotated, the guide bar can play the guide effect to the turning block with the cooperation in arc hole.

The intelligent socket panel with the overload protection function further comprises a dismounting tool for dismounting the fuse 7, the dismounting tool comprises a rotating handle 201 and a positioning plate 202, one end of the rotating handle 201, facing the positioning plate 202, is integrally formed with a coaxially arranged rotating column 203, a jack 204 is arranged in the positioning plate 202, the rotating column 203 is arranged in the jack in a penetrating mode and is rotatably connected with the jack 204, far away from one end of the rotating handle 201, is provided with an outward-expanding expansion part 205, a clamp spring 206 is arranged in the expansion part 205, the clamp spring 206 is in matched clamping connection with the rotating column 203 in the expansion part 205, the clamp spring 206 is attached to the bottom of the expansion part 205, the rotating handle 201 is attached to the positioning plate 202, one end, far away from the rotating handle 201, of the rotating column 203 is used for being inserted into the shaft hole 11, one end, far away from the rotating handle 201, of the rotating column 203, an insertion block 208 is integrally formed on the end surface of the positioning plate 202 on the side away from the rotating handle 201, and when the rotating column 203 is inserted into the shaft hole 11, the insertion block 208 is used for being inserted into the elongated hole 12; the rotating column 203 is inserted into the shaft hole 11 and after the plug block 208 is inserted into the elongated hole 12, the positioning plate 202 is attached to the socket panel body 1; after the disassembly and assembly tool is adopted, when a fuse is required to be installed on the socket panel body, firstly, the inserting block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, then, the rotating handle is rotated, the caulking groove on the rotating block is rotated to be in a horizontal state, after the caulking groove on the rotating block is rotated to be in the horizontal state, the positioning bulge on the rotating block can be embedded with the positioning groove on the socket panel body, namely, the rotating block can realize positioning, then, the disassembly and assembly tool is taken down, and the fuse is placed in the elongated hole; then the dismounting tool is matched with the socket panel body again, namely, the plug block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, the fuse in the elongated hole can be gradually pushed into the caulking groove in the process that the plug block is gradually inserted into the elongated hole, after the plug block is completely inserted into the elongated hole, the fuse can be pushed out from the elongated hole and completely enter the caulking groove, then the rotating handle is rotated, the caulking groove on the rotating block is rotated to a vertical state, after the caulking groove on the rotating block is rotated to the vertical state, the positioning bulge on the rotating block can be embedded with the positioning groove on the socket panel body, namely, the rotating block can realize positioning, at the moment, the elastic ends of the two first elastic conductive pins can respectively abut against one of the ends of the fuse, and the elastic ends of the two second elastic conductive pins can respectively abut against the rear end of one of the first elastic conductive pins, and finally, taking down the dismounting tool.

When the socket is used, the ground wire wiring hole in the socket panel body is electrically connected with the ground wire in the power line, the zero line wiring hole in the socket panel body is electrically connected with the zero line in the power line, and the other end of the wiring seat is electrically connected with the phase line in the power line; then fix socket panel and pre-buried magazine in the wall body, at last with dress escutcheon suit to socket panel body on can. When the overload phenomenon occurs due to the fact that the overload fuse is connected with too many electric appliances, the fuse can be fused, namely, a circuit can be disconnected, so that the phenomena of burning and firing can be avoided, and potential safety hazards are eliminated; when the fuse fuses and needs to be replaced, the plug connected to the socket panel body is pulled out, the decoration frame is taken down, the dismounting tool is matched with the socket panel body, namely, the insertion block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, then the rotating handle is rotated, the caulking groove on the rotating block is rotated to be in a horizontal state, after the caulking groove on the rotating block is rotated to be in the horizontal state, the positioning bulge on the rotating block can be embedded into the positioning groove on the socket panel body, namely, the rotating block can realize positioning, then the dismounting tool is taken down, after the dismounting tool is taken down, the fuse originally positioned in the caulking groove can be ejected out from the caulking groove and through the elongated hole by the elastic end of the first elastic conductive pin (the elastic end of the first elastic conductive pin has certain elasticity, so that the fuse can be ejected out from the caulking groove and through the elongated hole), then putting a new fuse into the elongated hole; then the dismounting tool is matched with the socket panel body again, namely, the plug block on the positioning plate is inserted into the elongated hole, the counter bore in the rotating column is inserted into the boss on the rotating shaft, the fuse in the elongated hole can be gradually pushed into the caulking groove in the process that the plug block is gradually inserted into the elongated hole, after the plug block is completely inserted into the elongated hole, the fuse can be pushed out from the elongated hole and completely enter the caulking groove, then the rotating handle is rotated, the caulking groove on the rotating block is rotated to a vertical state, after the caulking groove on the rotating block is rotated to the vertical state, the positioning bulge on the rotating block can be embedded with the positioning groove on the socket panel body (when the positioning bulge is separated from the positioning groove, the spring can be compressed, the front end of the second elastic conductive needle can also be compressed, and after the positioning bulge is embedded with the positioning groove, the spring can be extended and reset, the front ends of the second elastic conductive pins can also be extended and reset), namely the rotating block can realize positioning, at the moment, the elastic ends of the two first elastic conductive pins can respectively abut against one conductive end of the fuse, the elastic ends of the two second elastic conductive pins can respectively abut against the rear end of one first elastic conductive pin, and finally the dismounting tool is taken down; after the fuse was rotated to vertical state, the front side of fuse can offset with the rear surface of socket panel body, can avoid the fuse to deviate from in the socket panel body promptly.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.