TWM393894U - Switch socket - Google Patents

Description

V. New description: [New technical field] This creation relates to a type of plug, especially to a switch socket. [Prior Art] If the appliance is not used after the plug is plugged in, the plug must be pulled out of the socket or the switch on the socket should be turned off to achieve power saving. Although the plug can be used to save power, it is not convenient and the socket is easy to accumulate dust, and there are other safety concerns such as poor conduction. In order to solve the above problem, a switch type plug includes a plurality of sockets and a plurality of opening and closing switches respectively corresponding to a socket, and the power-on and power-off circuits of the electrical plugs on the socket are controlled by pressing an opening and closing switch to conveniently achieve power saving effect. However, the conventional switch type plugs require a switch for each socket, which is costly. [New content] The purpose of this creation is to provide a switch socket that can easily turn off the power supply in view of the above-mentioned shortcomings of the prior art. In order to achieve the above object, the present invention provides a switch socket, comprising: a casing, a plurality of sockets, a plurality of positioning members and a plurality of conductive frames. The housing is recessed on the upper surface thereof to form a plurality of receptacles communicating with the interior thereof; the plurality of sockets are slidably mounted in the housing of the housing, each socket having a plurality of conductive terminals, and the conductive terminals are respectively mounted a plurality of conductive members are respectively inserted into the housing, and the upper end of each positioning member is elastically received upwardly in the housing of the housing; the plurality of conductive frames are inserted into the housing. The conductive blocks are selectively contactable or separate from the conductive posts. In summary, the creative switch socket can slidably set the socket in the housing of the housing. When sliding a socket backward, the conductive block forms a passage with the conductive frame; when the socket is slid forward When the conductive block and the conductive frame form an open circuit, the requirement of conveniently turning off the power without an external switch is achieved. [Embodiment] In order to explain in detail the technical contents, structural emblems, goals and effects of the present invention, the following is a detailed description with reference to the drawings. Please refer to the first figure and the second figure, which are related diagrams of a preferred embodiment of the present invention. The switch socket 1 includes a housing 10, a plurality of sockets 20, a plurality of positioning members 30, a fixing plate 40, and a plurality of Conductive frame 50. The housing 10 includes an upper housing 11 and a lower housing 12 that are closed to each other. Referring to the second and third figures, the upper casing 11 is made of a plastic material, and a plurality of slots 111 extending from the top plate of the upper casing 11 to the front side plate of the upper casing 11 are provided. A rear end of the recess 111 has a positioning hole 112 defined in the bottom wall of the recess 111, and a bottom wall of the recess 111 extends downwardly from the periphery of the positioning hole 112. a ring-shaped positioning cylinder 113, the inner side of the rear side plate of the upper casing 11 protrudes from the upper card 114 extending to the top plate of the upper casing 11, and each upper plate 114 defines an upper and lower extension card Slot 115. The upper casing 11 is closed on the lower casing 12. The lower casing 12 is made of a plastic material. The lower casing 12 has a bottom plate 124. The bottom plate 124 has a plurality of sliding plates 121 extending vertically upward. After the housing 12 is protruded from the rear of the housing 12, the card board 122 extends to the bottom plate 124 of the lower housing 12, and the lower card board 122 and the upper board 11 are opposite to each other. A lower card slot 123 extending upward and downward is defined in the plate 122. The upper card 12 and the lower card 122 correspond to the plurality of card plates, the upper card slots 115 and the lower card slots. 123 corresponds to a majority of card slots. Referring to FIG. 2, FIG. 4 and FIG. 5, the plurality of sockets 20 are slidably mounted in the slot 111 of the upper casing 11, and in the embodiment, three sockets 20 are installed. In the three pockets 111. Each socket 20 has a socket upper cover 21, a socket body 22, a socket lower cover 23, a plurality of conductive terminals 24 and a plurality of conductive blocks 25. A latching portion 228 is formed in the upper part of the socket body 22, and a receiving slot 221 is defined in the middle of the top wall of the socket body 22, and the socket body 22 is downwardly located in the middle of the receiving slot 221 A pair of terminal slots 227 are formed in the middle of the front wall of the socket body 22. A pressing portion 222 is defined in the middle of the front wall of the socket body 22. The central portion of the pressing portion 222 is provided with a circular recess 223. A latching slot 224 is defined in the socket body 22 at a lower portion of the two sides of the socket body 22, and a first positioning slot 225 and a second portion are defined in a front portion of the bottom wall of the socket body 22. Positioning slot 226 (as shown in the fourth figure). A plurality of slots 211 corresponding to the terminal slots 227 are defined in the middle of the socket cover 21, and a latching block 212 is formed on the left and right sides of the socket cover 21, and the socket cover 21 is inserted into the receiving slot 221 The latching blocks 212 are engaged with the latching slots 224 to fix the socket upper cover 21 to the receiving slot 221 at the top of the socket body 22. The socket lower cover 23 is slidably disposed on the sliding plate 121 of the lower casing 12, and an upper portion of the two side walls of the socket lower cover 23 extends upward to form a barb block 231. The barb block 231 is clamped to the socket. The socket lower cover 23 is fastened to the socket body 22 in the holding groove 224 of the two side walls of the main body 22. The conductive terminal 24 is inserted into the terminal slot 227 of the socket body 22. The conductive blocks 25 are fixedly connected to the rear portions of the conductive terminals 24, and are moved back and forth through the sockets 20 in the slots 111 of the upper casing 11 so that the conductive blocks 25 can slide back and forth with the conductive frames. 50 contact or separate. Referring to the second, third and sixth figures, the plurality of positioning members 30 are inserted into the positioning cylinder 113 of the upper casing 11 through the positioning holes 112, and the upper end of each positioning member 30 is elastically upward. The locating member 30 has a hollow post 301, an elastic member 302 and a ball 303. The elastic member 302 can be inserted into the hollow post 301. The ball 303 is disposed. It is disposed on the upper portion of the elastic member 302 and partially protrudes outside the hollow bore 301. The fixing plate 40 is inserted into the card slot formed by the upper card slot 115 and the lower card slot 123. As shown in the second figure, in the embodiment, the fixing plate 40 is vertically inserted. Between the upper card slot 115 and the lower card slot 123, a plurality of fixing posts 401 and a plurality of pairs of parallel extending assembly plates 402 are disposed on one surface of the fixing plate 40. The plurality of conductive frames 50 are assembled on one surface of the fixing plate 40. Each of the conductive frames 50 is provided with a plurality of assembling holes 501, and the assembling holes 501 can be sleeved on the fixing posts 401. The assembly boards 402 are clamped on both sides of the corresponding upper and lower card plates 114, 122, so that the conductive frames 50 are fixedly assembled to the rear of the housing 10. When the assembly switch 1 is assembled, first, the conductive frames 50 are assembled on one surface of the fixing plate 40; then the conductive frames 50 and the fixing plate 40 are placed on the upper casing 11 and the The socket 20 of the lower casing 12 is inserted into the corresponding plurality of slots 111 of the upper casing 11 and is slid forwardly disposed in the pocket 111 of the upper casing 11; The inner portion of the socket body 22 extends from the rear portion of the socket 111 into the upper portion of the upper housing 11 and can slide back and forth. The card is abutted against the rear end of the side wall of the housing 111 so that the socket body 22 cannot be disengaged from the upper housing 11; then, the plurality of positioning members 30 are inserted into the positioning cylinder of the upper housing 11 through the positioning holes 112. 113, the ball 303 of the positioning member 30 can be selectively engaged in the first positioning groove 225 or the second positioning groove 226 on the front side of the bottom of the socket body 22; finally, the upper casing 11 is closed to the lower casing. The body 12 is such that the conductive block 25 of the socket 20 can correspond to the conductive frame 50 described above. Referring to the seventh figure, when the plug connector is used, a plug (not shown) is plugged into any of the sockets 20 (as shown in the first figure), and the plug is in contact with the conductive terminal 24. And the ball 303 of the positioning member 30 is partially locked in the first positioning groove 225 of the socket body 22, so that the conductive block 25 is in contact with the conductive frame 50 to be electrically connected; When the plug needs to be powered off, the socket 20 is slid forward, and the ball 303 of the positioning member 30 can be partially locked in the second positioning groove 226 to separate the conductive block 25 from the conductive frame 50 and open the circuit. M393894 As described above, the above-mentioned socket block 1 is opened or closed by the above-mentioned socket 20, so that the above-mentioned conductive block 25 and the conductive frame 50 are disconnected or turned on, forming a switch of the circuit, thereby achieving convenient power-off without an external switch. Claim. [Simple description of the diagram] The first figure is a three-dimensional combination diagram of the creative switch socket. The second figure is an exploded perspective view of the switch socket shown in the first figure. The third figure is a perspective view of the upper casing of the switch block shown in the second figure. The fourth figure is a bottom view of the socket of the switch socket shown in the second figure. The fifth figure is a perspective view of the socket body of the switch socket shown in the second figure. The sixth figure is an exploded perspective view of the positioning member of the switch socket shown in the second figure. The seventh figure is the bottom view of the switch block shown in the first figure inserted in the use state. [Main component symbol description] Switch socket 1 Housing 10 Upper housing 11 Housing 111 Positioning hole 112 Positioning cylinder 113 Upper card 114 Upper slot 115 Lower housing 12 Slide 121 Lower card 122 Lower slot 123 Base plate 124 Socket 20 socket upper cover 21 through slot 211 block 212 socket body 22 8 receiving groove 221 pressing portion recess 223 holding groove first positioning groove 225 second positioning groove terminal groove 227 snap portion socket lower cover 23 barb block conductive terminal 24 Conductor block positioning member 30 Ball elastic member 302 Hollow column fixing plate 40 Fixed column assembly plate 402 Conducting frame assembly hole 501 9

Claims (1)

M393894 VI. Patent application scope: 1. A switch socket, comprising: a casing, the upper surface of which is recessed to form a plurality of pockets communicating with the interior thereof; the plurality of sockets are slidably mounted to the casing In the slot, each socket is provided with a plurality of conductive terminals, and the conductive terminals are respectively provided with a conductive block; a plurality of positioning members are respectively inserted on the housing, and the upper end of each positioning member can be elastically received upward And a plurality of conductive frames are disposed in the housing, and the conductive blocks are selectively contacted or separated from the conductive frames. 2. The switch socket according to claim 1, wherein each socket has a socket upper cover, a socket body and a socket lower cover, and a socket is formed at a top of the socket body, the socket body A latching slot is defined in the lower part of the receiving slot and the lower side of the side wall of the socket body, and the latch is formed on the left and right sides of the upper cover of the socket, and the φ card block is engaged with the latching slot. Therefore, the upper cover of the socket is fixed in the receiving groove of the top of the socket body, and the upper part of the two side walls of the lower cover of the socket is extended upward to form a barb block, and the barb block is clamped on the side wall of the socket body. The socket lower cover is fastened to the socket body. 3. The switch socket of claim 2, wherein the socket body is convexly provided with a pressing portion. 4. The switch socket of claim 2, wherein the bottom of the socket body defines a first positioning slot and a second positioning slot, and the positioning component is selectively positionable in the first positioning slot. Or the second 10