CN210806078U - Electric connection socket - Google Patents

Abstract

An electric connection socket for an electric connection plug to insert comprises a base, a circuit board, an electronic element, at least one conductive piece and a pushing piece; the base body is provided with a slot which is used for inserting a power supply connecting plug; the circuit board is fixed in the slot; the electronic element is arranged in the slot; the conductive piece is positioned in the slot; the conductive piece is provided with a fixed end and a swinging end which are opposite, the fixed end is electrically connected with the circuit board, and the swinging end can swing relative to the circuit board; the pushing and abutting piece is movably positioned in the slot and abuts against the at least one conductive piece; the pushing component is pushed by the electrical connection plug, so that the swinging end of the at least one conductive component is electrically connected with or electrically disconnected from the electronic component. The utility model discloses by at the in-process that electric connection plug inserted and locates electric connection socket, electric connection plug can make the swing end and the electronic component electrical property interrupt of electrically conductive piece, and let the electric current of transmission can not transmit to electronic component between electric connection plug and electric connection socket.

Description

Electric connection socket

Technical Field

The present invention relates to an electrical connection socket, and more particularly to an electrical connection socket having a pushing member or an electrical insulating member.

Background

Power over Ethernet (PoE) is a technology that can transmit Power and data to devices through twisted pair wires, RJ-45 plugs, and sockets in an Ethernet network. Because the electronic device can obtain power supply through the Ethernet, the electronic device can be used without an additional power socket, thereby saving money and time for producing and assembling a power line and relatively reducing the cost of the whole system.

Generally, a PoE socket on a panel of a conventional electronic device is usually provided with a light emitting element, so that a user can know that the socket is charged and a plug is not inserted by using light emitted from the light emitting element, and a maintenance person can conveniently search a circuit. The current that can bear by the illuminating part is limited, so if the current that passes between the PoE socket and the PoE plug exceeds the design of the illuminating part after the PoE plug is plugged in the socket, the illuminating part is damaged, and the use and maintenance of a user are inconvenient. However, the current electronic devices such as internet phone, wireless base station, internet camera, hub, and computer, which are related to the smart home concept, have a gradually increased current requirement due to their gradually improved performance, so the current electronic devices are more likely to cause the problem of damaging the light emitting elements of the PoE plug socket.

In addition, although the damage of the illuminating element does not affect the current and signal transmission function of the PoE socket, the damage of the illuminating element not only affects the quality of the PoE socket perceived by the customer or the user, but also causes the manufacturer to bear a high cost for recovering or repairing the PoE socket. Therefore, how to apply the PoE plug socket to an electronic device requiring a large current without damaging the light emitting element thereon is a problem to be solved by research and development personnel in this field.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an electric connection socket is provided to prior art's not enough, can let PoE socket application can not damage in the electron device that needs the heavy current and the illuminating part on it.

The utility model discloses the technical problem that solve is realized through following technical scheme:

an embodiment of the present invention discloses an electrical connection socket for an electrical connection plug to be inserted, which includes a base, a circuit board, an electronic component, at least one conductive member, and a pushing member. The base body is provided with a slot which is used for inserting the power supply connecting plug. The circuit board is fixed in the slot. The electronic element is arranged in the slot. The conductive piece is positioned in the slot. The conductive piece is provided with a fixed end and a swinging end which are opposite, the fixed end is electrically connected with the circuit board, and the swinging end can swing relative to the circuit board. The pushing component is movably arranged in the slot and is abutted against at least one conductive component. The pushing component is pushed by the electrical connection plug, so that the swinging end of the at least one conductive component is electrically connected with or electrically disconnected from the electronic component.

Preferably, the pushing element is pushed by the electrical connection plug to move the swinging end of the at least one conductive element from a conductive position to a circuit breaking position, the swinging end is electrically connected to the electronic component when the swinging end of the at least one conductive element is located at the conductive position, and the swinging end is electrically disconnected from the electronic component when the swinging end of the at least one conductive element is located at the circuit breaking position.

Preferably, before the at least one conductive member is electrically connected to the electrical connection plug, the at least one conductive member is pressed by the pressing member, so that the swinging end of the at least one conductive member is located at the disconnection position.

Preferably, the base has two side surfaces forming the slot of the slot and a bottom surface, opposite two sides of the bottom surface are connected to the two side surfaces, the pushing and abutting member has at least one protruding portion, the at least one protruding portion of the pushing and abutting member is used for being pressed by the electric connection plug, and when the swinging end of the at least one conductive member is located at the conductive position, the at least one protruding portion of the pushing and abutting member protrudes from the bottom surface.

Preferably, the number of the at least one protrusion is plural, and the plural protrusions are respectively adjacent to the two sides of the base.

Preferably, the number of the at least one protruding portion is one, and the protruding portion extends from one side of the abutting piece adjacent to one of the side surfaces of the base to one side of the abutting piece adjacent to the other side surface of the base.

Preferably, the at least one conductive member further has an electrical contact portion for electrically contacting the electrical connection plug, and the electrical contact portion of the at least one conductive member protrudes from the bottom surface of the housing than the protruding portion of the abutting member.

Preferably, the at least one conductive member further has an electrical contact portion for electrically contacting the electrical connection plug, and the protruding portion of the abutting member is closer to the notch of the slot than the electrical contact portion of the at least one conductive member.

Preferably, the electronic component is a light emitting element.

In another embodiment of the present invention, an electrical connection socket for an electrical connection plug to be inserted includes a base, a circuit board, an electronic component, at least one conductive member and an electrical insulating member. The base body is provided with a slot which is used for inserting the power supply connecting plug. The circuit board is fixed in the slot. The electronic element is arranged in the slot. The conductive piece is positioned in the slot. The conductive member has a fixed end, a swing end and a contact end. The fixed end is electrically connected to the circuit board, the swinging end can swing relative to the circuit board, and the contact end point is located between the fixed end and the contact end point. The conductive piece is pushed by the electric connecting plug, so that the swinging end of the conductive piece is electrically connected with or electrically disconnected from the electronic element. The electric insulating part is arranged in the slot and can swing between the contact end point of the conductive part and the notch of the slot. Before the swing end of the conductive piece is electrically connected with the electric connection plug, the electric insulation piece is arranged between the electric connection plug and the conductive piece, so that the electric connection plug is electrically insulated from the conductive piece.

According to the electrical connection socket of the above embodiment, in the process that the electrical connection plug is inserted into the electrical connection socket, the electrical connection plug can electrically interrupt the swing end of the conductive member and the electronic component, so that the current transmitted between the electrical connection plug and the electrical connection socket is not transmitted to the electronic component. Therefore, even if the magnitude of the current transmitted between the electrical connection plug and the electrical connection socket exceeds the design of the electronic element, the electronic element can not be damaged under the condition that the current is not transmitted to the electronic element, and the electrical connection socket can be applied to electronic devices requiring large current.

The above description of the present invention and the following description of the embodiments are provided to demonstrate and explain the principles of the present invention, and to provide further explanation of the scope of the present invention.

Drawings

Fig. 1 is a perspective view of an electrical connection socket and an electrical connection plug according to a first embodiment of the present invention;

FIG. 2 is an exploded view of the electrical connection receptacle of FIG. 1;

fig. 3 is a schematic cross-sectional view of one of the perspectives of the electrical connection receptacle of fig. 1;

fig. 4 is a cross-sectional schematic view of another perspective of the electrical connection receptacle of fig. 1;

fig. 5 is a schematic cross-sectional view of the electrical connection plug of fig. 1 not fully inserted into an electrical connection receptacle;

fig. 6 is a schematic cross-sectional view of the electrical connection plug of fig. 1 fully inserted into an electrical connection receptacle;

fig. 7 is a perspective view of a pushing member of an electrical connection socket according to a second embodiment of the present invention;

fig. 8 is a perspective view of a pushing member of an electrical connection socket according to a third embodiment of the present invention;

fig. 9 is a perspective view of an electrical connection receptacle according to a fourth embodiment of the present invention;

FIG. 10 is a cross-sectional schematic view of the electrical connection receptacle of FIG. 9;

FIG. 11 is a schematic cross-sectional view of the electrical connection receptacle of FIG. 9 not yet fully inserted by an electrical connection plug;

fig. 12 is a schematic cross-sectional view of the electrical connection receptacle of fig. 9 fully inserted by an electrical connection plug.

[ description of reference ]

10. 10c Electrical connection socket

20 electric connection plug

21 groove

22 bottom surface

23 conductive member

30 electric cable

31 core wire

100. 100c seat body

110 outer casing

111 accommodating space

112 bottom surface

113. 114 side surface

120. 120c base

121 guide groove

130 wire arranging base

131 jack

140. 140c slot

141. 141c notch

200 circuit board

300. 300c electronic component

310 pin

400. 400c conductive member

410 fixed end

420. 420c swing end

430. 430c electrical contact

431c contact terminal

500. 500a, 500b push-against piece

510. 520, 510a, 520a, 510b, 520b side

511. 512, 511a bulge

521. 522, 521a projection

513b, 523b side surfaces

530. 530b pushing against the rod part

540b projection

600 piercing terminal

700c electrical insulation

Detailed Description

Please refer to fig. 1 to 4. Fig. 1 is a perspective view of an electrical connection socket and an electrical connection plug according to a first embodiment of the present invention. Fig. 2 is an exploded view of the electrical connection receptacle of fig. 1. Fig. 3 is a schematic cross-sectional view from one perspective of the electrical connection receptacle of fig. 1. Fig. 4 is a cross-sectional schematic view of another perspective of the electrical connection receptacle of fig. 1.

In the present embodiment, the electrical connection socket 10 is used for an electrical connection plug 20 to be inserted. The electrical connection socket 10 is, for example, a power over ethernet socket of an electronic device (not shown), and the electrical connection plug 20 is, for example, a power over ethernet plug. The electrical connection socket 10 includes a base 100, a circuit board 200, an electronic component 300, a plurality of conductive members 400, and a pushing member 500.

The base 100 includes a housing 110, a base 120 and a wire arranging base 130. The housing 110 has a receiving space 111. The base 120 is fixed in the accommodating space 111 of the housing 110, and the wire arranging base 130 is fixed in the housing 110 and shields one side of the accommodating space 111 of the housing 110. The housing 110, the base 120 and the wire organizer 130 together form a slot 140. The slot 140 is used for inserting the power plug 20.

In the present embodiment, the electrical connection socket 10 may further include a plurality of piercing terminals 600, and the wire organizer 130 has a plurality of insertion holes 131. The circuit board 200 is fixed in the socket 140. The piercing terminals 600 are fixed on the circuit board 200 and inserted into the insertion holes 131 of the wire arranging base 130. The piercing terminals 600 are respectively used for electrically contacting a plurality of core wires 31 of a cable 30 installed in the insertion holes 131.

The electronic element 300 is, for example, a Light emitting element, and the Light emitting element is, for example, a Light emitting diode (Light emitting diode). The electronic component 300 is embedded in the base 120 and exposed on a surface of the base 120 facing the slot 140.

These conductors 400 are located in the slot 140 and have similar structures, so only one of the conductors 400 will be described below. Conductive member 400 has a fixed end 410, a swing end 420 and an electrical contact 430. The electrical contact 430 of the conductive member 400 is located between the fixed end 410 and the swing end 420. Fixed end 410 of conductive element 400 is fixed to circuit board 200, swing end 420 of conductive element 400 is mounted on base 120 and can swing with respect to circuit board 200, and electrical contact 430 of conductive element 400 is configured to electrically contact electrical connection plug 20. As shown in fig. 3, among the conductive members 400, the swing ends 420 of two conductive members 400 correspond to the pins 310 of the electronic component 300.

The pushing element 500 is made of an electrically insulating material, such as plastic. The pushing element 500 is disposed in the slot 140 and movably mounted on the base 120. In detail, the base 120 has two opposite guiding grooves 121, and the pushing element 500 includes two side portions 510, 520 and a pushing rod portion 530. The push rod 530 is located between the two side portions 510 and 520 and connects the two side portions 510 and 520. The two side portions 510 and 520 of the pushing member 500 are movably disposed in the two guiding grooves 121 of the base 120, respectively, and the pushing rod portion 530 abuts against the conductive members 400.

In the present embodiment, the housing 110 has a bottom 112 and two sides 113 and 114 forming the slot 141 of the slot 140, and two opposite sides of the bottom 112 are connected to the two sides 113 and 114, respectively. The side portion 510 of the pushing element 500 has two protrusions 511 and 512, and the side portion 520 of the pushing element 500 has two protrusions 521 and 522. The two projections 511, 512 of the side portion 510 are adjacent to the side surface 113, and the two projections 521, 522 of the side portion 520 are adjacent to the side surface 114. The projection 511 of side portion 510 is again closer to side 113 than projection 512, and the projection 521 of side portion 520 is again closer to side 114 than projection 522. These protrusions 511, 512, 521, 522 of pushing element 500 are closer to notch 141 of slot 140 than electrical contact 430 of conductive element 400. The electrical contact portion 430 of the conductive member 400 protrudes from the bottom surface 112 of the housing 110 than the protruding portions 511, 512, 521, 522 of the pushing member 500.

In the present embodiment, the pushing element 500 is pushed by the electrical connection plug 20, so that the swing end 420 of the two corresponding conductive elements 400 is electrically connected to or electrically disconnected from the electronic component 300. Further, the pushing element 500 is pushed by the electrical connection plug 20, so that the swing end 420 of the two conductive elements 400 corresponding to the pin 310 of the electronic component 300 moves from a conductive position to a disconnection position. As shown in fig. 3 and fig. 4, when the swinging end 420 of the two conductive members 400 is located at the conductive position, the protruding portions 511, 512, 521, 522 of the pushing member 500 protrude from the bottom surface 112 of the housing 110, and the swinging ends 420 of the two conductive members 400 are respectively electrically connected to the pins 310 of the electronic component 300. At this time, an electrical circuit is formed among the cable 30, the piercing terminal 600, the circuit board 200, the two conductive members 400 and the electronic component 300, so that the electronic component 300 emits light.

Please refer to fig. 1, fig. 2 and fig. 5. Fig. 5 is a schematic cross-sectional view of the electrical connection plug of fig. 1 not fully inserted into an electrical connection receptacle.

In the process that the electrical connection plug 20 is just inserted into the slot 140 of the electrical connection socket 10, the two protrusions 512 and 522 of the two side portions 510 and 520 of the pushing member 500 respectively enter the two grooves 21 at the two opposite sides of the front end of the electrical connection plug 20, and the two opposite sides of the bottom surface 22 of the electrical connection plug 20 respectively press the two protrusions 511 and 521 of the two side portions 510 and 520, so that the pushing rod portion 530 of the pushing member 500 moves the swing end 420 of the two conductive members 400 corresponding to the pin 310 of the electronic component 300 from the conductive position to the disconnection position.

Generally, the electrical plug has different structures according to the requirements of the manufacturing process. As shown in fig. 1, in the present embodiment, two opposite sides of the front end of the electrical connection plug 20 are respectively provided with a groove 21, but not limited thereto. In other embodiments, the opposite sides of the front end of the electrical connection plug may not have the grooves. Since the side portions 510 and 520 of the pushing and abutting member 500 are respectively provided with the two protruding portions 511, 512, 521 and 522, it can be ensured that even if the two protruding portions 512 and 522 enter the two grooves 21 of the electrical connection plug 20 and cannot be pressed by the electrical connection plug 20 in the process of inserting the electrical connection plug 20 into the electrical connection socket 10, the other two protruding portions 511 and 521 can still be pressed by the electrical connection plug 20 to drive the pushing and abutting rod portion 530 of the pushing and abutting member 500 to press the two conductive members 400, so that the two conductive members 400 are in the open circuit position. That is, by providing the two protrusions 511, 512, 521, 522 on the side portions 510, 520 of the pushing-against member 500, it can be ensured that at least a portion of the protrusions on the side portions 510, 520 of the pushing-against member 500 is still pressed by the electrical connection plug 20 during the process of inserting the electrical connection plug with various structures into the electrical connection socket 10, so as to ensure that the pushing-against rod portion 530 moves the swing ends 420 of the two conductive members 400 from the conductive position to the disconnection position.

As shown in fig. 5, when the two conductive members 400 are located at the open circuit position, the swinging end 420 of the two conductive members 400 is separated from the pin 310 of the electronic component 300, so that the swinging end 420 of the two conductive members 400 is electrically disconnected from the electronic component 300, and the electronic component 300 is extinguished. At this time, the conductive member 23 of the electrical connection plug 20 is not electrically connected to the conductive member 400 of the electrical connection socket 10. Therefore, the two conductive elements 400 are pressed by the pressing rod 530 of the pressing element 500, so that the swing end 420 of the two conductive elements 400 is located at the open position before the conductive elements 400 of the electrical connection socket 10 and the conductive elements 23 of the electrical connection plug 20 are electrically connected.

Referring to fig. 6, fig. 6 is a schematic cross-sectional view of the electrical connection plug of fig. 1 fully inserted into an electrical connection receptacle.

Then, the electrical connection plug 20 is further inserted into the slot 140. After the electrical connection plug 20 is moved to the position, the conductive members 23 of the electrical connection plug 20 electrically contact the electrical contact portions 430 of the conductive members 400 of the electrical connection socket 10, so that the electrical current can be transmitted between the electrical connection plug 20 and the electrical connection socket 10 to provide the electrical power for the electronic device.

In the embodiment, during the process of inserting the electrical connection plug 20 into the electrical connection socket 10, the electrical connection plug 20 first electrically disconnects the swing end 420 of the conductive member 400 of the electrical connection socket 10 from the electronic component 300, and then electrically connects to the conductive member 400 of the electrical connection socket 10. Therefore, even if the power required by the electronic device is high (e.g., greater than 100 watts), and the amount of current transmitted between the electrical connection plug 20 and the electrical connection socket 10 exceeds the design of the electronic component 300, the electronic component 300 will not be damaged without the current being transmitted to the electronic component 300, and the electrical connection socket 10 can be used in the electronic device requiring a large current.

Then, after the electrical connection plug 20 is pulled out from the electrical connection socket 10, the pushing element 500 is not pushed by the electrical connection plug 20, so the conductive elements 400 will rebound to drive the pushing element 500 to reset, and the two conductive elements 400 will be electrically connected to the pins 310 of the electronic component 300, so that the electronic component 300 emits light.

In this embodiment, the number of the protrusions on each side of the pushing member of the electrical connection socket is not limited to two. In other embodiments, there may be only one protrusion on each side of the pushing piece of the electrical connection socket. For example, referring to fig. 7, fig. 7 is a perspective view of a pushing member of an electrical connection socket according to a second embodiment of the present invention. In the present embodiment, the side portion 510a of the pushing element 500a has only one protrusion 511a, and the side portion 520a has only one protrusion 521 a.

In addition, the position of the protruding portion is not limited to only the side portion of the pushing member. Referring to fig. 8, fig. 8 is a perspective view of a pushing member of an electrical connection socket according to a third embodiment of the present invention. In the present embodiment, the side portion 510b of the pushing element 500b has a side surface 513b, and the side portion 520b of the pushing element 500b has a side surface 523 b. The two sides 513b, 523b of the two sides 510b, 520b face the two sides 113, 114 (shown in fig. 2) of the housing 110 (shown in fig. 2), respectively. In addition, the protruding portion 540b of the pushing-against member 500b extends from a side of the pushing-against member 500b adjacent to the side surface 113 of the casing 110 to a side of the pushing-against member 500 adjacent to the side surface 114 of the casing 110. In detail, the protruding portion 540b of the pushing-against member 500b may extend from the side surface 513b of the side portion 510b to the side surface 523b of the other side portion 520b through the pushing-against rod portion 530b of the pushing-against member 500b, or the protruding portion 540b of the pushing-against member 500b may extend from one side portion 510b to the other side portion 520b through the pushing-against rod portion 530b of the pushing-against member 500b, and opposite ends of the protruding portion 540b of the pushing-against member 500b may respectively keep a distance from the two side surfaces 513b, 523b of the two side portions 510b, 520 b.

Please refer to fig. 9 and 10. Fig. 9 is a perspective view of an electrical connection socket according to a fourth embodiment of the present invention. Fig. 10 is a schematic cross-sectional view of the electrical connection receptacle of fig. 9.

In the present embodiment, the electrical connection socket 10c is similar to the electrical connection socket 10 of fig. 1, so the following description focuses on the difference between the two, and the similarity or identity between the two is not repeated.

In the present embodiment, each of the electrical contacts 430c of the conductive members 400c has a contact terminal 431 c. The electrical connection socket 10c does not include a push-against member, but rather includes an electrical insulator 700 c. The electrical insulator 700c is, for example, mylar. The electrical insulator 700c is disposed in the slot 140c of the electrical connection socket 10c and fixed to the base 120c of the socket body 100 c. The electrical insulating member 700c is swingably located between the contact end 431c of the conductive member 400c and the notch 141c of the insertion groove 140c of the electrical connection socket 10 c.

Next, referring to fig. 11 and 12, fig. 11 is a schematic cross-sectional view illustrating that the electrical connection socket of fig. 9 is not yet fully inserted by the electrical connection plug. Fig. 12 is a schematic cross-sectional view of the electrical connection receptacle of fig. 9 fully inserted by an electrical connection plug.

As shown in fig. 11, in the process that the electrical connection plug 20 is just inserted into the slot 140c of the electrical connection socket 10c, the electrical connection plug 20 pushes the conductive members 400c, so that the swinging ends 420c of the two conductive members 400c are changed from the state (shown in fig. 10) where they are originally electrically connected with the electronic component 300c to the state where they are electrically disconnected from the electronic component 300 c. At this time, the electrical insulating member 700c is interposed between the conductive member 23 of the electrical connection plug 20 and the conductive members 400c of the electrical connection socket 10c, so as to electrically insulate the conductive member 23 of the electrical connection plug 20 from the conductive members 400c of the electrical connection socket 10 c.

Next, as shown in fig. 12, the electrical connection plug 20 is further inserted into the insertion groove 140 c. After the electrical connection plug 20 is moved to the position, the conductive member 23 of the electrical connection plug 20 is electrically contacted to the contact end 431c of the electrical contact portion 430c of the conductive members 400c of the electrical connection socket 10c, so that the current can be transmitted between the electrical connection plug 20 and the electrical connection socket 10c to provide the electrical power for the electronic device.

Then, after the electrical connection plug 20 is pulled out from the electrical connection socket 10c, the conductive members 400c are not pressed by the electrical connection plug 20, so that the conductive members 400c rebound, and the swinging ends 420c of the two conductive members 400c are electrically connected to the electronic component 300c, so that the electronic component 300c emits light.

According to the electrical connection socket of the above embodiment, in the process that the electrical connection plug is inserted into the electrical connection socket, the electrical connection plug can electrically interrupt the swing end of the conductive member and the electronic component, so that the current transmitted between the electrical connection plug and the electrical connection socket is not transmitted to the electronic component. Therefore, even if the electronic devices (such as network phones, wireless base stations, network cameras, hubs and computers) applied by the electrical connection socket have improved performance and the required current exceeds the design of the electronic elements, the electronic elements are not damaged. Thus, the user's perception of the quality of the electrical connection sockets is maintained, and the manufacturer does not have to incur high recovery or repair costs.

Claims (10)

1. An electrical connection socket for an electrical connection plug, comprising:

a base body provided with a slot for the electric connection plug to insert;

a circuit board fixed in the slot;

an electronic component disposed in the slot;

at least one conductive piece, which is positioned in the slot and is provided with a fixed end and a swinging end which are opposite, wherein the fixed end is electrically connected with the circuit board, and the swinging end can swing relative to the circuit board; and

a pushing component movably located in the slot and pushing against the at least one conductive component;

the pushing element is pushed by the electrical connection plug to electrically connect or electrically disconnect the swinging end of the at least one conductive element with the electronic component.

2. The electrical connection socket as claimed in claim 1, wherein the pushing member is adapted to be pushed by the electrical connection plug to move the swinging end of the at least one conductive member from a conductive position to a circuit breaking position, the swinging end is electrically connected to the electronic component when the swinging end of the at least one conductive member is located at the conductive position, and the swinging end is electrically disconnected from the electronic component when the swinging end of the at least one conductive member is located at the circuit breaking position.

3. The electrical connection socket as claimed in claim 2, wherein the at least one conductive member is pressed by the pressing member before the at least one conductive member is electrically connected to the electrical connection plug, so that the swinging end of the at least one conductive member is located at the open circuit position.

4. The electrical connection socket of claim 2, wherein the base has two sides and a bottom side forming the slot of the receptacle, opposite sides of the bottom side are connected to the two sides, the pushing member has at least one protrusion, the at least one protrusion of the pushing member is pressed by the electrical connection plug, and when the swinging end of the at least one conductive member is located at the conductive position, the at least one protrusion of the pushing member protrudes from the bottom side.

5. The electrical connection socket as claimed in claim 4, wherein the at least one protrusion is plural in number, and the plural protrusions are respectively adjacent to the two sides of the base.

6. The electrical connection socket according to claim 4, wherein the number of the at least one protrusion is one, and the protrusion extends from a side of the abutting member adjacent to one of the side surfaces of the base to a side of the abutting member adjacent to the other side surface of the base.

7. The electrical connection socket as claimed in claim 4, wherein the at least one conductive member further has an electrical contact portion for electrically contacting the electrical connection plug, the electrical contact portion of the at least one conductive member protruding from the bottom surface of the housing than the protrusion of the pushing member.

8. The electrical connection socket as claimed in claim 4, wherein the at least one conductive member further has an electrical contact portion for electrically contacting the electrical connection plug, and the protrusion of the pushing member is closer to the slot opening of the socket than the electrical contact portion of the at least one conductive member.

9. The electrical connection receptacle of claim 1, wherein the electronic component is a light emitting element.

10. An electrical connection socket for an electrical connection plug, comprising:

a base body provided with a slot for the electric connection plug to insert;

a circuit board fixed in the slot;

an electronic component disposed in the slot;

at least one conductive piece, located in the slot, where the at least one conductive piece has a fixed end, a swinging end and a contact end point, the fixed end is electrically connected to the circuit board, the swinging end can swing relative to the circuit board, the contact end point is located between the fixed end and the contact end point, and the at least one conductive piece is pushed by the electrical connection plug, so that the swinging end of the at least one conductive piece is electrically connected or electrically interrupted with the electronic element; and

the electric insulating piece is arranged in the slot and can swing between the contact end point of the at least one conductive piece and the notch of the slot;

before the swinging end of the at least one conductive piece is electrically connected with the electric connecting plug, the electric insulating piece is arranged between the electric connecting plug and the at least one conductive piece, so that the electric connecting plug is electrically insulated from the at least one conductive piece.

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