CN206283016U - A kind of anti-electric shock socket mechanism - Google Patents

Abstract

The utility model discloses a kind of anti-electric shock socket mechanism, including upper shell, lower house, sliding block and spring, upper shell and lower house are mutually covered, sliding block and spring are respectively positioned between upper shell and lower house, upper shell is provided with jack, lower house is provided with engaging hole, spring one end is fixedly connected with upper shell, the spring other end is fixedly connected with a slide block, sliding block is slidably connected with lower house, sliding block is slided on lower house along linear reciprocation under the force of a spring so that jack and engaging hole are interconnected or completely cut off.In the utility model, sliding block is slided on lower house under the comprehensive function power of external force and spring along linear reciprocation, when jack and engaging hole are interconnected (electrode contact blade in socket is in contact with plug), can cause that extraneous electrical part switches on power；When jack and engaging hole mutually completely cut off, the electrode contact blade and external environment in socket can be caused, it is to avoid electric conductor is mistakenly inserted band electric jack so as to cause security incident accidentally.

Description

A kind of anti-electric shock socket mechanism

Technical field

The utility model is related to socket field, more particularly to a kind of anti-electric shock socket mechanism.

Background technology

Traditional power outlet, does not have electrical shock protection safety function typically, and the power supply after electricity is connect or on socket is opened Close after opening, the jack in socket is powered.If electric conductor is mistakenly inserted into band electric jack accidentally, security incident may be caused.It is special It is not that the smallclothes such as finger or copper wire, iron nail, key conducting objects are inserted jack by curious, active child, it is possible to cause The tragedy of life.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of anti-electric shock socket mechanism, sliding Block is slided on lower house under the comprehensive function power in external force and spring along linear reciprocation, when jack and engaging hole are interconnected When, can cause that extraneous electrical part switches on power；When jack and engaging hole mutually completely cut off, can cause that the electrode in socket is touched Piece and external environment, can solve that electric conductor is mistakenly inserted into band electric jack accidentally, may cause the problem of security incident.

The purpose of this utility model is realized using following technical scheme：

A kind of anti-electric shock socket mechanism, including upper shell, lower house, sliding block and spring, upper shell and lower house are mutually covered Close, sliding block and spring are respectively positioned between upper shell and lower house, and upper shell is provided with jack, and lower house is provided with engaging hole, jack The center line of center line and the engaging hole overlaps, and spring one end is fixedly connected with upper shell, the spring other end and sliding block It is fixedly connected, sliding block is slidably connected with lower house, sliding block is slided on lower house along linear reciprocation under the force of a spring, is made Obtain jack and engaging hole is interconnected or completely cuts off.

Preferably, upper shell is provided with the first fixture and the second fixture, and sliding block includes the first sliding block and the second sliding block, bullet Spring includes the first spring and second spring, and jack includes the first jack and the second jack, and engaging hole includes the first engaging hole and the Two engaging holes.

Preferably, the first spring one end is fixedly connected with the first fixture, and the first spring other end is fixed with the first sliding block Connection, the first sliding block is slided on lower house under the active force of the first spring along linear reciprocation so that the first jack and first Engaging hole is interconnected or completely cuts off.

Preferably, the first sliding block is provided with first slope portion, and the first sliding block is when the active force of the first spring is only received, and first is oblique Slope portion is located at the first jack lower section.

Preferably, second spring one end is fixedly connected with the second fixture, and the second spring other end is fixed with the second sliding block Connection, the second sliding block is slided on lower house under the active force of second spring along linear reciprocation so that the second jack and second Engaging hole is interconnected or completely cuts off.

Preferably, the second sliding block is provided with the second ramp, and the second sliding block is when the active force of second spring is only received, and second is oblique Slope portion is located at the second jack lower section.

Preferably, the second sliding block is provided with through hole, and the second sliding block is slided backward on lower house along straight line under external force When dynamic, the second jack, through hole and the second engaging hole are sequentially communicated.

Preferably, lower house is provided with chute, and it is past that the second sliding block along chute does straight line on lower house under external force It is multiple to slide.

Compared to existing technology, the beneficial effects of the utility model are：When extraneous plug inserts the anti-electric shock socket mechanism When, plug passes through jack and props up the ramp of sliding block, promotes sliding block under the comprehensive function power of external force and spring in lower house On slided backward along straight line so that jack and engaging hole are interconnected (electrode contact blade in socket is in contact with plug), now Extraneous electrical part switches on power；When extraneous plug is extracted from the anti-electric shock socket mechanism, plug takes off from the ramp of sliding block From and leave jack, sliding block promotes jack and engaging hole phase under the force of a spring on lower house along straight line forward slip Mutually isolation, the electrode contact blade and external environment in socket can be caused, it is to avoid accidentally by electric conductor be mistakenly inserted band electric jack from And cause security incident, and can solve that electric conductor is mistakenly inserted into powered jack accidentally, the problem of security incident may be caused.

Brief description of the drawings

Fig. 1 is a kind of structural representation of implementation method of the utility model anti-electric shock socket mechanism.

Fig. 2 is the positive structural representation of upper shell in anti-electric shock socket mechanism shown in Fig. 1.

Fig. 3 is the structural representation at the upper shell back side shown in Fig. 1.

Fig. 4 is the structural representation of hiding upper shell in anti-electric shock socket mechanism shown in Fig. 1.

Fig. 5 is the structural representation of hiding upper shell, the first sliding block and the second sliding block in anti-electric shock socket mechanism shown in Fig. 1 Figure.

Fig. 6 is the structural representation of the second sliding block shown in Fig. 4.

In figure：1st, upper shell；11st, the first jack；12nd, the first fixture；13rd, the second jack；14th, the second fixture；2、 Lower house；21st, the first engaging hole；22nd, the second engaging hole；23rd, chute；3rd, the first sliding block；31st, first slope portion；4th, second slide Block；41st, the second ramp；42nd, through hole；5th, the first spring；6th, second spring.

Specific embodiment

Below, with reference to accompanying drawing and specific embodiment, the utility model is described further：

Fig. 1-Fig. 6 is referred to, the utility model is related to a kind of anti-electric shock socket mechanism, including upper shell 1, lower house 2, One sliding block 3, the second sliding block 4, the first spring 5 and second spring 6.

What upper shell 1 was connected by screw prevent covered with lower house 2 together with, sliding block and spring are installed in upper shell Between 1 and lower house 2.

The first jack 11 and the first fixture 12 (as shown in Figure 3) are formed on upper shell 1, is formed on lower house 2 One engaging hole 21 (as shown in Figure 5), wherein the first jack 11 overlaps in the center line of center line and the first engaging hole 21.Separately Outward, the one end of the first spring 5 is fixed together with the first fixture 12, and the other end of the first spring 5 and the first sliding block 3 are fixed and connected Connect (there is the first prodger in the side intermediary form of the first sliding block 3, the other end of the first spring 5 is set in the first prodger so that The relation being fixedly connected is constituted between the other end of first spring 5 and the first sliding block 3), and the first sliding block 3 forms first slope portion 31, when the active force of the first spring 5 is only received, first slope portion 31 is located at the lower section of the first jack 11 to the first sliding block 3.When the external world inserts When head inserts the anti-electric shock socket mechanism, plug passes through the first jack 11 and props up the first slope portion 31 of the first sliding block 3, promotes First sliding block 3 slides backward (A as shown in Figure 4 on lower house 2 under the comprehensive function power of external force and the first spring 5 along straight line Direction), (now extraneous plug connects with the electrode contact blade in socket to promote the first jack 11 and the first engaging hole 21 to be interconnected Touch), can cause that extraneous electrical part switches on power；When extraneous plug is extracted from the anti-electric shock socket mechanism, plug is from first Depart from the first slope portion 31 of sliding block 3 and leave the first engaging hole 21 and the first jack 11 successively, the first sliding block 3 is in the first bullet Along straight line forward slip on lower house 2 under the active force of spring 5 (A as shown in Figure 4 is in opposite direction) so that the first sliding block 3 keeps off Between first jack 11 and the first engaging hole 21, i.e. the first jack 11 and the first engaging hole 21 mutually completely cut off, and can cause socket Interior electrode contact blade and external environment, it is to avoid electric conductor is mistakenly inserted the first powered jack 11 accidentally.

In present embodiment, two first slope portions 31 are formed on the first sliding block 3.In other embodiments, first The quantity of ramp 31 can be changed according to actual conditions.

The second jack 13 and the second fixture 14 (as shown in Figure 3) are also formed on upper shell 1, is also molded on lower house 2 There is the second engaging hole 22 (as shown in Figure 5), wherein center line phase mutual respect of second jack 13 in center line and the second engaging hole 22 Close.In addition, the one end of second spring 6 is fixedly connected with the second fixture 14, the other end of second spring 6 and the second sliding block 4 are fixed and connected Connect (there is the second prodger in the side intermediary form of the second sliding block 4, the other end of second spring 6 is set in the second prodger so that The relation being fixedly connected is constituted between the other end of second spring 6 and the second sliding block 4), and the second sliding block 4 forms the second ramp 41, when the active force of second spring 6 is only received, the second ramp 41 is located at the lower section of the second jack 13 (now, the to the second sliding block 4 Two sliding blocks 4 are kept off between the second jack 13 and the second engaging hole 22, i.e. the second jack 13 and the second engaging hole 22 mutually completely cut off), And chute 23 is formed on the inwall of lower house 2, also form through hole 42 on the second sliding block 4.When the insertion of extraneous plug should During anti-electric shock socket mechanism, plug passes through the second jack 13 and props up the second ramp 41 of the second sliding block 4, promotes the second sliding block 4 under the comprehensive function power of external force and second spring 6, and doing straight line along chute 23 on lower house 2 slides backward (B as shown in Figure 4 Direction) so that the second jack 13, the engaging hole 22 of through hole 42 and second are sequentially communicated (the now electrode in extraneous plug and socket Contact is in contact), i.e., extraneous electrical part switches on power；When extraneous plug is extracted from the anti-electric shock socket mechanism, plug is from Depart from second ramp 41 of two sliding blocks 4 and leave the second engaging hole 22, the jack 13 of through hole 42 and second, the second sliding block successively 4 under the active force of second spring 6, and straight line forward slip (B directions as shown in Figure 4 phase is done along chute 23 on lower house 2 Instead) so that the second sliding block 4 is kept off between the second jack 13 and the second engaging hole 22, i.e. the second jack 13 and the second engaging hole 22 Mutually isolation, can cause the electrode contact blade and external environment in socket, it is to avoid electric conductor is mistakenly inserted into powered the accidentally Two jacks 13.

During using the utility model, when extraneous plug inserts the anti-electric shock socket mechanism, plug passes through the first jack 11 And prop up the first slope portion 31 of the first sliding block 3, promote the first sliding block 3 under the comprehensive function power of external force and the first spring 5 (A directions as shown in Figure 4) is slided backward along straight line on lower house 2, promotes the first jack 11 and the first engaging hole 21 to be interconnected (now extraneous plug is in contact with the electrode contact blade in socket), can cause that extraneous electrical part switches on power.When extraneous plug When being extracted from the anti-electric shock socket mechanism, plug departs from and leaves from the first slope portion 31 of the first sliding block 3 and first connects successively Close the jack 11 of hole 21 and first, the first sliding block 3 under the active force of the first spring 5 on lower house 2 along straight line forward slip (such as A is in opposite direction shown in Fig. 4), promote the first jack 11 and the first mutually isolation of engaging hole 21, can cause that the electrode in socket is touched Piece and external environment, it is to avoid electric conductor is mistakenly inserted the first powered jack 11 accidentally；When extraneous plug inserts the protection against electric shock During socket mechanism, plug is through the second jack 13 and props up the second ramp 41 of the second sliding block 4, the second sliding block 4 in external force and Under the comprehensive function power of second spring 6, on lower house 2 doing straight line along chute 23 slides backward in (B directions as shown in Figure 4), promotees (now extraneous plug connects with the electrode contact blade in socket to be sequentially communicated the second jack 13, the engaging hole 22 of through hole 42 and second Touch), can cause that extraneous electrical part switches on power.When extraneous plug is extracted from the anti-electric shock socket mechanism, plug is from second Depart from second ramp 41 of sliding block 4 and leave the second engaging hole 22, the jack 13 of through hole 42 and second, the second sliding block 4 successively Under the active force of second spring 6, straight line forward slip (B directions as shown in Figure 4 phase is done along chute 23 on lower house 2 Instead), promote the second jack 13 and the second mutually isolation of engaging hole 22, can cause that the electrode contact blade in socket is separated by with the external world Absolutely, it is to avoid electric conductor is mistakenly inserted in the second powered jack 13 accidentally, it is to avoid accidentally by electric conductor be mistakenly inserted band electric jack from And cause security incident, and can solve that electric conductor is mistakenly inserted into powered jack accidentally, the problem of security incident may be caused.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various It is corresponding to change and deformation, and all these change and deformation should all belong to the protection of the utility model claim Within the scope of.

Claims (8)

1. a kind of anti-electric shock socket mechanism, it is characterised in that：Including upper shell, lower house, sliding block and spring,

The upper shell and lower house are mutually covered, and the sliding block and spring are respectively positioned between upper shell and lower house,

The upper shell is provided with jack, and the lower house is provided with engaging hole, in the center line of the jack and the engaging hole Heart line overlaps,

The spring one end is fixedly connected with upper shell, and the spring other end is fixedly connected with a slide block, the sliding block and lower casing Body is slidably connected,

The sliding block is slided on lower house along linear reciprocation under the force of a spring so that jack and engaging hole are interconnected Or isolation.

2. anti-electric shock socket mechanism according to claim 1, it is characterised in that：The upper shell be provided with the first fixture and Second fixture, the sliding block includes the first sliding block and the second sliding block, and the spring includes the first spring and second spring, described Jack includes the first jack and the second jack, and the engaging hole includes the first engaging hole and the second engaging hole.

3. anti-electric shock socket mechanism according to claim 2, it is characterised in that：First spring one end and first is fixed Part is fixedly connected, and the first spring other end is fixedly connected with the first sliding block,

First sliding block is slided on lower house under the active force of the first spring along linear reciprocation so that the first jack and the One engaging hole is interconnected or completely cuts off.

4. anti-electric shock socket mechanism according to claim 3, it is characterised in that：First sliding block is provided with first slope Portion,

When the active force of the first spring is only received, the first slope portion is located at the first jack lower section to first sliding block.

5. anti-electric shock socket mechanism according to claim 2, it is characterised in that：Described second spring one end is fixed with second Part is fixedly connected, and the second spring other end is fixedly connected with the second sliding block,

Second sliding block is slided on lower house under the active force of second spring along linear reciprocation so that the second jack and the Two engaging holes are interconnected or completely cut off.

6. anti-electric shock socket mechanism according to claim 5, it is characterised in that：Second sliding block is provided with the second slope Portion,

When the active force of second spring is only received, second ramp is located at the second jack lower section to second sliding block.

7. anti-electric shock socket mechanism according to claim 6, it is characterised in that：Second sliding block is provided with through hole, institute When stating the second sliding block and being slided backward along straight line on lower house under external force, second jack, through hole and the second engagement Hole is sequentially communicated.

8. anti-electric shock socket mechanism according to claim 7, it is characterised in that：The lower house is provided with chute, described Second sliding block does linear reciprocation and slides on lower house along chute under external force.