CN215451937U - Safety power connector - Google Patents

Abstract

The utility model provides a safe power connector, and belongs to the field of electronic components. The safe power connector comprises a connector shell, a connector plug bush, a cable and a plug bush support, wherein the connector plug bush and the plug bush support are arranged in the connector shell, the plug bush support is fixed in the connector shell, the connector plug bush is embedded on the plug bush support in a clamping mode, the connector plug bush is provided with three L-pole plug bush, N-pole plug bush and PE-pole plug bush, the cable comprises a zero line, a ground line and a live line, the N-pole plug bush and the PE-pole plug bush are respectively connected with the zero line and the ground line, a switch assembly is further fixed in the connector shell, the live line and the L-pole plug bush are connected or disconnected through the switch assembly, a slide way and a push rod are arranged on the plug bush support, a through hole for the outer end of the push rod to extend out is formed in the front plug face of the connector shell, and the inner end of the push rod abuts against the switch assembly. The safety power connector is simple in structure, low in cost and good in safety.

Description

Safety power connector

Technical Field

The utility model belongs to the field of electronic components and relates to a safety power connector.

Background

The power connector is a common connecting element of a power supply and electrical equipment, and in the process of connecting the electrical equipment matched with the power connector by the plug bush of the power connector, the phenomenon that the plug bush of the power connector and a bolt on the connector of the electrical equipment are not inserted in place is easily caused because the shape of the plug bush is different from that of the connector of the electrical equipment or a power line is not long enough. On one hand, the human body is easy to touch the exposed bolt, the grounding is not reliable, and the hidden danger of electric shock exists; on the other hand, the contact area of the plug bush and the plug pin is small, the contact resistance is large, the electric appliance is easy to generate heat and burn out, fire accidents are caused, and personal and property safety is harmed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art, and provides a safety power connector which is suitable for a power connector of an electronic device powered by alternating current 220V/5OHz, cannot be powered on if the power connector is not plugged in place, and can ensure the safety and stability when the electrical equipment is connected with the power connector.

The purpose of the utility model can be realized by the following technical scheme: a safety power connector comprises a connector shell, a connector plug bush, a cable and a plug bush support, wherein the connector plug bush and the plug bush support are arranged in the connector shell, the plug bush support is fixed in the connector shell, the connector plug bush is embedded on the plug bush support in a clamping manner, the cable is inserted into the connector shell from the tail part of the connector shell, the connector plug bush is provided with three switch assemblies which are respectively an L-pole plug bush, an N-pole plug bush and a PE-pole plug bush, the cable comprises a zero line, a ground line and a live line, the N-pole plug bush and the PE-pole plug bush are respectively connected with the zero line and the ground line, the safety power connector is characterized in that a switch assembly for realizing the conduction or disconnection of the live line and the L-pole plug bush is arranged between the live line and the L-pole plug bush, the switch assembly is positioned in the connector shell, a slide way and a push rod which moves back and forth along the slide way are arranged on the plug bush support, a through hole for extending out of the outer end of the push rod is arranged on the front plug face of the connector shell, the inner end of the push rod is abutted against the switch assembly, and the push rod can conduct the switch assembly after the push rod is extruded into the connector shell.

According to the safety power connector, under the condition that the connector plug bush and the plug pin in the joint of the electrical equipment are inserted in place, the push rod moves to enable the switch assembly to be conducted, and the power connector can supply power to the electrical equipment; when the front plug surface of the connector shell is far away from the joint of the electrical equipment, the push rod cannot start the switch assembly to be conducted, so that the power connector and the electrical equipment are powered off. Therefore, the live wire and the L-pole plug bush are connected or disconnected through the switch assembly, and potential safety hazards caused by the fact that the plug pins in the connector plug bush and the electrical equipment connector are not inserted in place are avoided.

Further, the switch assembly include the switch lid, shift knob, the spring sheath, the spring, move the conducting strip, quiet conducting strip, switch base, move the conducting strip, quiet conducting strip is connected with the live wire, L utmost point plug bush respectively, move the conducting strip and quiet conducting strip inlay card respectively at switch base's both ends, it has unsettled elasticity end to move the conducting strip, the switch lid has a slide cartridge, switch lid and switch base lock joint, shift knob is located the switch lid and slides along the slide cartridge of switch lid, shift knob one end nestification is outside the spring sheath, the shift knob other end is held against with the inner of push rod, spring one end supports and leans on bottom in the spring sheath, the spring other end supports and leans on the elasticity that moves the conducting strip and holds.

The plug pin in the electrical equipment joint is inserted into the connector plug bush to apply thrust to the push rod, so that the push rod is pushed towards the direction of the switch button, the switch button is pushed inwards to extrude the spring by the thrust, the spring is linked with the movable conducting strip to bend the conducting strip, and the contact of the movable conducting strip touches the contact of the static conducting strip to complete conduction.

As another scheme, further, the switch assembly include the switch base, move conducting strip, quiet conducting strip is fixed on the switch base, move the conducting strip and be concave type and both ends have the elasticity portion that is wavy, move the conducting strip both ends and fix on the switch base and move the conducting strip middle part and have bellied contact, the inner of push rod and move the middle part of conducting strip and lean on and when the push rod was extruded into the connector shell the contact is extruded by the push rod and is leaned on with quiet conducting strip.

The bolt in the electrical equipment joint inserts the connector plug bush, and the contact terminal surface of joint is preferred to be contacted the push rod, applys thrust to the push rod, and the push rod extrusion is moved the conducting strip and is made it take place to warp and be close to quiet conducting strip, and after the preceding inserted surface of joint and connector shell is laminated completely, it pastes with quiet conducting strip to move the conducting strip, and the switch assembly is in the on-state, and live wire and L utmost point plug bush can be circular telegram.

Further, the connector shell is integrally formed.

As another scheme, further, the connector housing is a detachable structure, and the connector housing includes a connector cover and a connector base, which are fastened together and then connected by screws.

Furthermore, the connector cover, the connector base, the plug bush bracket, the push rod material, the switch cover, the switch button, the spring sheath and the switch base are made of insulating flame-retardant plastic resin.

Furthermore, the connector plug bush, the movable conducting strip and the static conducting strip are made of metal materials with good electric conductivity.

Furthermore, the movable conducting strip and the static conducting strip are provided with convex contacts. The contact on the movable conducting plate is preferentially contacted with the contact on the static conducting plate after the movable conducting plate is bent, so that the movable conducting plate and the static conducting plate are more easily and stably attached, and the conducting state can be stably kept for a long time.

Furthermore, the movable conducting strip is U-shaped. The movable conducting strip has elasticity, and the elastic end can be far away from the static conducting strip by means of the elasticity of the movable conducting strip under the condition of no external force.

Furthermore, the movable guide sheet is provided with a protruding limit block connected with the spring.

Compared with the prior art, the utility model has the following advantages:

the safety power connector has the advantages of simple structure, safety, reliability and low material cost, and can know whether the bolt in the connector of the electrical equipment is inserted in place with the connector plug bush through the safety power connector.

Drawings

Fig. 1 is a schematic structural diagram of a safety power connector according to a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the safety power connector according to the first embodiment in the on state.

Fig. 3 is a schematic structural diagram of the safety power connector of the first embodiment in a disconnected state.

Fig. 4 is a side sectional view of the safety power connector of the first embodiment.

Fig. 5 is a perspective view of the safety power connector of the first embodiment.

Fig. 6 is an exploded view of the safety power connector of the first embodiment.

Fig. 7 is a schematic structural diagram of a switch assembly of the safety power connector according to the first embodiment.

Fig. 8 is a schematic structural diagram of a safety power connector of the second embodiment.

In the figure, 1, a connector insert; 2. a screw; 3. a cable; 4. a switch assembly; 5. a push rod; 6. a plug bush support; 7. a connector cover; 8. a connector base; 9. an L pole plug bush; 10. an N-pole plug bush; 11. inserting a PE pole sleeve; 12. a switch cover; 13. a switch button; 14. A spring sheath; 15. a spring; 16. a movable conducting strip; 17. a static conductive sheet; 18 a switch base; 19. a zero line; 20. a ground wire; 21. a live line; 22. a contact; 23. a limiting block; 24. and a through hole.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1, 4, 5, and 6, the safety power connector provided by the utility model includes a connector housing, a cable (3), a connector plug bush (1), and a plug bush support (6), where the connector plug bush (1) and the plug bush support (6) are disposed in the connector housing, the plug bush support (6) is fixed in the connector housing, the connector housing is of a detachable structure, the connector housing includes a connector cover (7) and a connector base (8), the connector cover (7) and the connector base (8) are connected by a screw (2) after being fastened, the connector plug bush (1) is embedded on the plug bush support (6), the cable (3) is inserted into the connector housing from the tail of the connector housing, the connector plug bush (1) has three L-pole plug bushes (9), N-pole plug bushes (10), and PE-pole plug bushes (11), the cable (3) includes a zero line (19), The ground wire (20), the live wire (21), the N-pole plug bush (10) and the PE-pole plug bush (11) are respectively connected with the zero wire (19) and the ground wire (20).

Connector shell in still be fixed with switch assembly (4), realize switching on or breaking off through switch assembly (4) between live wire (21) and the L utmost point plug bush (9), be equipped with slide and push rod (5) on plug bush support (6), translation around the slide is followed in push rod (5), open through-hole (24) that the outer end that supplies push rod (5) stretches out on the preceding spigot surface of connector shell, the inner of push rod (5) offsets with switch assembly (4) and leans on, after in push rod (5) is extruded into connector shell, push rod (5) can make switch assembly (4) switch on.

As shown in fig. 2, 3 and 7, the switch assembly (4) comprises a switch cover (12), a switch button (13), a spring sheath (14), a spring (15), a movable conducting strip (16), a static conducting strip (17) and a switch base (18), wherein the movable conducting strip (16) and the static conducting strip (17) are respectively connected with a live wire (21) and an L-pole plug bush (9), the movable conducting strip (16) and the static conducting strip (17) are respectively embedded at two ends of the switch base (18), the movable conducting strip (16) and the static conducting strip (17) are provided with raised contacts (22), the movable conducting strip (16) is provided with a suspended elastic end, the movable conducting strip (16) is U-shaped, the switch cover (12) is provided with a sliding barrel, the switch cover (12) is buckled with the switch base (18), the switch button (13) is positioned in the switch cover (12) and slides along the sliding barrel of the switch cover (12), one end of the switch button (13) is nested outside the spring sheath (14), the other end of the switch button (13) is propped against the inner end of the push rod (5), one end of the spring (15) is propped against the inner bottom of the spring sheath (14), and the other end of the spring (15) is propped against the elastic end of the movable conducting plate (16).

When the circuit is in the off state, the movable conducting strip (16) does not contact the static conducting strip (17) due to the U-shaped bending state of the movable conducting strip. During the on-state, push rod (5) applys thrust to shift knob (13), shift knob (13) slide along the slide cartridge of switch cover (12), the spring sheath (14) of one end receives the inside extrusion of extrusion linkage spring (15) of shift knob (13) to move conducting strip (16), it is connected with spring (15) to move conducting strip (16) and be equipped with bellied stopper (23), it receives the crooked certain degree of extrusion to move conducting strip (16), it is connected and switches on to move contact (22) on conducting strip (16) and contact (22) on quiet conducting strip (17), effectively avoid the potential safety hazard that arouses under the electrical apparatus bolt half-insertion state, make the power consumption safe and reliable more.

The operating principle of the utility model is as follows:

and (3) a disconnection state: when the power connector is not inserted into the joint of the electrical equipment or the connector plug bush (1) and a bolt in the joint of the electrical equipment are not inserted in place, the contact (22) on the static conducting strip (17) and the contact (22) on the movable conducting strip (16) are in a separated state, the switch assembly (4) is in a disconnected state, the L pole lead of the cable (3) of the power connector is disconnected, and the electrical equipment is not powered.

The connection state is as follows: the power connector is inserted into a joint of electrical equipment, when a push rod (5) is contacted with the joint, the push rod (5) is pressed into a connector shell by the joint, the push rod (5) pushes a switch button (13) and enables a spring (15) to be compressed, because the spring (15) is connected with a limiting block (23) on a movable conducting strip (16), the spring (15) pushes the movable conducting strip (16) to move, when the power connector is inserted in place, a contact (22) on the movable conducting strip (16) is contacted with a contact (22) on a static conducting strip (17), a switch assembly (4) is in a closed state, the power connector is conducted to supply power to the electrical equipment.

Disconnection after connection: the power connector is pulled out from the connector of the electrical equipment, the push rod (5) is separated from the connector, the spring (15) does not bear the pressure, the spring (15) is reset, the movable conducting strip (16) is not extruded and is restored to the original state, the contact (22) on the movable conducting strip (16) of the switch is separated from the contact (22) on the static conducting strip (17), and the switch assembly (4) is in a disconnected state.

Example two

The design concept of the present embodiment is substantially the same as that of the first embodiment, and is different from the first embodiment in that the switch assembly (4) is composed of a wave-shaped elastic movable conducting strip (16), so that the structure of the switch assembly (4) is simpler and can generate the same effect, the specific structure is shown in fig. 8, the switch assembly (4) comprises a switch base (18), a movable conducting strip (16) and a static conducting strip (17), the static conducting strip (17) is fixed on the switch base (18), the movable conducting strip (16) is concave and has wave-shaped elastic parts at two ends, two ends of the movable conducting strip (16) are fixed on the switch base (18), a raised contact is arranged in the middle of the movable conducting strip (16), the inner end of the push rod (5) abuts against the middle of the movable conducting strip (16), and when the push rod (5) is extruded into the connector housing, the contact is extruded by the push rod (5) and abuts against the static conducting strip (17), the connector shell is integrally formed. The push rod (5) is extruded by the joint to slide towards the movable conducting strip (16), the middle part of the movable conducting strip (16) is extruded by the push rod (5) to deform, so that the contact is close to and contacts with the static conducting strip (17), and the conduction of the live wire (21) and the L-pole plug bush (9) is realized.

The utility model has simple structure, safety and reliability, and effectively avoids potential safety hazard caused by the fact that the plug bush of the connector and the plug pin in the joint of the electrical equipment are not inserted in place.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (10)

1. A safety power connector comprises a connector shell, a connector plug bush (1), a cable (3) and a plug bush support (6), wherein the connector plug bush (1) and the plug bush support (6) are arranged in the connector shell, the plug bush support (6) is fixed in the connector shell, the connector plug bush (1) is clamped on the plug bush support (6), the cable (3) is inserted into the connector shell from the tail part of the connector shell, the connector plug bush (1) is provided with three L-pole plug bush (9), N-pole plug bush (10) and PE-pole plug bush (11), the cable (3) comprises a zero line (19), a ground line (20) and a live line (21), the N-pole plug bush (10) and the PE-pole plug bush (11) are respectively connected with the zero line (19) and the ground line (20), and the safety power connector is characterized in that a switch assembly (4) for realizing the conduction or disconnection of the live line (21) and the L-pole plug bush (9) is arranged between the live line (21) and the L-pole plug bush (9), switch assembly (4) are located the connector shell, are equipped with slide and push rod (5) along the front and back translation of slide on plug bush support (6), open through-hole (24) that supply the outer end of push rod (5) to stretch out on the preceding spigot surface of connector shell, the inner of push rod (5) offsets with switch assembly (4) and leans on, after push rod (5) are extruded into the connector shell push rod (5) can make switch assembly (4) switch on.

2. The safety power supply connector according to claim 1, wherein the switch assembly (4) comprises a switch cover (12), a switch button (13), a spring sheath (14), a spring (15), a movable conducting strip (16), a static conducting strip (17) and a switch base (18), the movable conducting strip (16) and the static conducting strip (17) are respectively connected with the live wire (21) and the L-pole plug bush (9), the movable conducting strip (16) and the static conducting strip (17) are respectively embedded at two ends of the switch base (18), the movable conducting strip (16) is provided with a suspended elastic end, the switch cover (12) is provided with a sliding barrel, the switch cover (12) is buckled with the switch base (18), the switch button (13) is positioned in the switch cover (12) and slides along the sliding barrel of the switch cover (12), one end of the switch button (13) is embedded outside the spring sheath (14), and the other end of the switch button (13) abuts against the inner end of the push rod (5), one end of the spring (15) is abutted against the inner bottom of the spring sheath (14), and the other end of the spring (15) is abutted against the elastic end of the movable conducting strip (16).

3. The safety power supply connector according to claim 1, wherein the switch assembly (4) comprises a switch base (18), a movable conducting strip (16) and a static conducting strip (17), the static conducting strip (17) is fixed on the switch base (18), the movable conducting strip (16) is concave, two ends of the movable conducting strip (16) are provided with wavy elastic parts, two ends of the movable conducting strip (16) are fixed on the switch base (18), the middle part of the movable conducting strip (16) is provided with a raised contact, the inner end of the push rod (5) abuts against the middle part of the movable conducting strip (16), and when the push rod (5) is extruded into the connector shell, the contact is extruded by the push rod (5) and abuts against the static conducting strip (17).

4. A security power connector as claimed in claim 1, 2 or 3 wherein the connector housing is integrally formed.

5. A safety power supply connector as claimed in claim 2, wherein the connector housing is a detachable structure, the connector housing comprises a connector cover (7) and a connector base (8), and the connector cover (7) and the connector base (8) are fastened together and then connected by screws (2).

6. A safety power supply connector according to claim 5, characterized in that the connector cover (7), the connector base (8), the plug bush support (6), the push rod (5), the switch cover (12), the switch button (13), the spring sheath (14) and the switch base (18) are made of insulating flame-retardant plastic resin.

7. A safety power connector as claimed in claim 6, characterized in that the connector sleeve (1), the movable conducting strip (16) and the static conducting strip (17) are made of an electrically conductive metal material.

8. A safety power connector as claimed in claim 7, characterized in that the movable (16) and stationary (17) conducting strips have protruding contacts (22).

9. A safety power connector as claimed in claim 8, characterized in that the electrically conducting plate (16) is U-shaped.

10. A safety power supply connector according to claim 9, characterized in that the stop (23) of the protrusion on the movable conducting strip (16) is connected to the spring (15).

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