BE1013116A5 - Electrical adapter - Google Patents

Abstract

An electrical adapter contains a casing (1) with a front side (2) on whichat least a first and a second outlet section (4, 5) have been provided foraccepting a first and a second plug, and a backside (3) on which a plugsection (6) is equipped for the connection of the adapter with a furtheroutlet, whereby the first and the second outlet sections (4, 5) each containstwo outlet openings (7,8) for the intake of plug pins of the plugs, where thecasing (1) has a width (B) in which the outlet openings (7) of the firstoutlet section (4) are in the first line (L1), which first line (L1) lines upwith the width direction (B) of the casing (1) of the first angle (alpha),and where the outlet opening (8) of the second outlet section (5) is in thesecond line (L2), which second line (L2) lines up with the width direction(B) of the casing (1) of the second angle (beta), whereby the first and thesecond angles (alpha, beta) each form 10 to 90 degrees.<IMAGE>

Description

       

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  Electric distribution plug
This invention relates to an electrical distribution plug comprising a housing with a front side on which at least a first and a second stopcantact section are provided for receiving a first and a second plug, and a rear side on which a plug section is provided for connecting the distribution plug to a furthermore, a socket, wherein the first and the second socket portion each comprise two contact openings for receiving plug-in legs from the plugs, the housing having a width direction.



   Electrical distribution plugs are used as an intermediate piece to split a socket into two or more sockets, so that one and the same socket can be used to connect two or more electrical devices to the electricity grid.



   A known electrical distribution plug is shown in figures 1 and 2. This distribution plug comprises a housing with a plug section, with which the distribution plug can be connected to a further socket, which is for example a wall socket, and with two socket sections in which plugs of, for example, electrical appliances can be inserted. turn into. In this way, two electrical devices can be connected to the electricity network via the known distribution plug of figures 1 and 2 via a single socket.

   The plug portion IS a circular projection on the housing with two plug legs and an earthing opening, the

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 plug legs are provided to be received in the contact openings of the further socket and the earthing opening is provided for receiving the earth leg of the further socket. Each socket portion is a circular cavity in the housing in which a grounding leg and two contact openings are provided, the grounding leg being provided to be received in the grounding opening of the plug of an electrical device and the contacting openings being provided for receiving the plugs' legs of these power plug.



   In the case of a plug of an electrical device provided with an earthing opening, it often happens that the cord connecting the plug to the device forms an angle of about 90 with the direction of the plug's legs, the earthing opening of the plug is on one side of the plug opposite the cord. As a result, when such an "angled" plug is inserted into a socket, the cord forms an obstacle to a neighboring socket, so that a second plug can no longer be inserted therein. To prevent this, a first and a second socket section are arranged in the opposite direction in the known distribution plug of Figs. 1 and 2.



  In other words, the first socket portion is rotated through 180 relative to a second socket portion, with the grounding legs of the first and the second socket portion being located more toward the center of the housing. In this way, the cords of a first and a second angled plug, which are located in the distributor plug, will be directed away from each other and in the longitudinal direction of the distributor plug.



   However, this arrangement has the drawback that when a pulling force is exerted on the cords, a leverage effect is created, whereby the distributor plug can be pulled out of the wall socket. This can happen, for example

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 when a pulling force is applied alternately to the cord of the first and to the cord of the second plug, which can occur, for example, when a movable electrical appliance such as, for example, a vacuum cleaner is used. The pulling force on the first plug causes a first torque that the distributor plug wants to rotate in a first direction. The tensile force on the second plug in turn causes a second torque that the divider plug wants to rotate in a second direction.

   The distributor plug is always held back in that it is stuck in the further socket. The first and the second torque here lie in the same plane, namely a plane that intersects the divider plug in the longitudinal direction. However, the second torque acts on the divider plug in the opposite direction to rotation with respect to the first torque. These alternating torques therefore cause a reciprocating movement and, as it were, form a lever which can pry the distributor plug out of the wall socket. This may damage the distribution plug and / or the further socket.



   DE-A-43 14 812 furthermore discloses a distribution plug for connecting several telephones. This distribution plug comprises a housing with a plug section on one side, with which the distribution plug can be connected to a telephone wall socket, and on the other side three socket sections for receiving telephone plugs. The telephone plugs are arranged at an angle of 45 with the longitudinal direction of the housing.



   The chance that the leverage effect occurs with a telephone plug divider is very small, since it is rare for a telephone to be moved. The leverage effect is also not avoided in DE-A-43 14 812. Moreover, a telephone plug is only rarely removed from the socket to which it is connected, whereas this is the case with movable electrical appliances, for example vacuum cleaners.

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 much more common. In addition, a much smaller electrical load occurs with a telephone than with electrical devices. Therefore, it is not obvious that a person skilled in the art would use the teachings of DE-A-43 14 812 to solve the problem of the leverage effect with an electrical distributor plug.



   It is the object of this invention to provide an electrical distributor plug, wherein alternating torques that pry the distributor plug from a further socket can be limited.



   This object is achieved according to the invention with an electrical distribution plug in which the contact openings of the first socket section lie on a first line, which first line encloses a first angle with the width direction of the housing, and in that the contact openings of the second socket section on a second line which second line encloses a second angle with the width direction of the housing. The first and second corners are in each case from 10 to 90, preferably from 10 to 800.

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   Because the contact openings of the first and the second socket part lie on a first and a second line respectively, which enclose a first and a second angle respectively with the width of the housing, a tensile force exerted on a cord of an angled plug present in the distributor plug falling into a longitudinal component according to the length of the housing and a transverse component according to the width of the housing The torque caused by the tensile force In the plane that the manifold intersects in the longitudinal direction is mainly determined by the longitudinal component of the tensile force the tensile force in longitudinal component and

  As a transverse component, the longitudinal component will be smaller than the total tensile force, so that the torque in the plane that the distributor plug intersects in the longitudinal direction can be limited. , To be limited.



     In the electrical distribution plug of the invention, the first line is preferably parallel to the second line. This means that the first and the second socket portion are arranged in the same direction so that the cords of angled plugs included in the distribution plug are included. zlch Ultimate in the same way.



  This has the advantage that tensile forces exerted on the cords will load the distributor plug in substantially the same direction, so that the risk of a reciprocating movement that the distributor plug winks from the wall socket can be limited.
In a preferred embodiment of the electrical distributor plug according to the invention, the plug portion is arranged on the rear of the housing such that when the plug portion of a first electrical distributor plug is included

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 in the first or the second socket part of a second electrical distributor plug, the housing of the first electrical distributor plug becomes the second resp.

   at least partially covers the first socket portion of the second electrical distribution plug. This arrangement of the plug portion has the advantage that the second, resp. the first socket portion of the second electrical divider plug becomes unusable for receiving a plug from an electrical device or the plug portion of a third electrical divider plug In this way it can be prevented that the number of available sockets can be arbitrarily increased by the user, by two or more distributor plug together.

   As a result, the risk of overloading the further socket to which the distributor plugs are connected can be reduced
In a preferred embodiment of the electrical distribution plug according to the invention, at least one of the socket parts comprises an earthing leg, which earthing leg is each time shifted in the same direction with respect to the line connecting the contact openings of the relevant socket part.

   This has the advantage that the distribution plug according to the invention is suitable for receiving at least one plug which is provided with an earthing opening. When at least the first and the second socket part of the electrical distribution plug according to this embodiment are provided with a grounding leg, this has arrangement furthermore has the advantage that when a first and a second angled plug are included in the first and the second socket part, cords of the angled plugs extend in substantially the same direction with respect to the housing.

   Consequently, when a pulling force is exerted on the cords, the divider plug will only be driven in practically one night, so that the risk of

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 the occurrence of a reciprocating movement that wakes the distributor plug out of the wall socket can be reduced
The first and the second socket part are preferably recessed in the distribution plug according to the invention In the front of the housing This has the advantage that the socket parts are protected when there is no plug in it
The socket portions are preferably located at a depth relative to the front of the housing that is substantially equal to the length of an earthing leg.

   This has the advantage that the grounding legs of the socket parts do not protrude substantially beyond the front of the housing, so that the grounding legs are protected when there is no plug in the socket part.



   The socket sections In the electrical distribution plug according to the invention, preferably have a circular cross-section. Since plugs provided with an earthing hole usually have a circular cross-section, the circular cross-section of the socket sections has the advantage that such plugs can be better incorporated into the socket sections. lead to better protection of the plugs against damage from outside
The invention will be further elucidated with reference to the description below and the accompanying figures
1 and 2 respectively show a perspective top and bottom view of an electrical distributor plug according to the position of the

  Technic
Figures 3 and 4 show respectively a perspective top and bottom view of a first preferred embodiment of the electrical distribution plug according to the invention

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Figure 5 shows a side view of a dismantled electrical distribution plug according to the invention, with partial removal of a side wall of the housing.



   Figure 6 shows a bottom view of the top half of the electrical distribution plug of Figure 5, viewed from the plane VI-VI of Figure 5.



   Figure 7 shows a top side of the bottom half of the electrical distribution plug of Figure 5, viewed from the plane VII-VII of Figure 5.



   Figure 8 shows a top view of a child safety device for use in the electrical distribution plug of the ultimate invention
Figures 9 and 10 show respectively a perspective top and bottom view of a second preferred embodiment of the electrical distribution plug according to the invention
The electrical distribution plug according to the invention, a first preferred embodiment of which is shown in Figs. 3 and 4, comprises a housing 1 with a front side 2 and a rear side 3. On the front side 2 there are at least a first and a second socket part 4,5 provide for receiving a first and a second plug (not shown). A plug section 6 is provided on the rear side 3 for connecting the electrical distribution plug to a further socket (not shown).

   The first and the second socket section 4,5 each comprise two contact openings 7,8 for receiving plug-in legs from the plugs. The contact openings 7 of the first socket part lie on a first line L 1, which first line L 1 is arranged at a first angle a with respect to the width direction B of the housing 1.

   The contact openings 8 of the second socket part 5 lie on a second line L2, which second line L2 is closed at a second angle ss

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 of the width direction B of the housing. These angles a and ss are in each case 10 to 90, preferably 10 to 80, and are preferably identical to each other, but they can also differ from each other
In the preferred embodiment of the electrical distribution plug of the invention shown in Figure 3, the first and second socket parts 4,5 comprise a first and a second grounding leg 9,

  The first grounding leg 9 is thereby shifted in the same direction relative to the first line L1 as the second grounding leg 10 relative to the second line L2. Furthermore, the socket parts 4,5 are preferably oriented such that the first line L1 parallel IS with the second line L2 and that the angles o.

   and ss are approximately 300. However, the first and second lines L1, L2 cannot be parallel with each other and the angles a and ss can also be more or less than 30
The socket parts 4.5 of the distributor plug of figure 3 are preferably recessed in the front 2 of the housing 1 and are preferably at a depth that is substantially equal to the length of the grounding legs 9.10 This has the advantage that the socket parts 4, 5 and the grounding legs 9, 10 are protected by the housing 1, so that the risk of damage caused by impacts can be limited. The socket parts 4,5 are preferably circular, so that they enclose a circular plug present in the socket part 4 or 5 and can protect against bumps.



   In the preference u shown in figure 4! In the embodiment of the electrical distribution plug of the invention, the plug portion 6 comprises two plug legs 11 and a grounding hole 12. The plug portion 6 is preferably located substantially in the middle of the rear side 3 of the housing 1. The plug legs 11 lie on a third line L3 is preferably parallel

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 at the width end B of the housing 1 However, the third line L3 can also not be parallel to the width direction B of the housing 1
The electrical distribution plug of figure 5 comprises an upper half 13 and a lower half 14,

   that have been taken apart here for clarification. The upper half 13 is shown in bottom view (from the plane VI-VI in Fig. 5) in Fig. 6 and the lower half 14 is shown in upper side (from the plane VII-VII in Fig. 5) in Fig. 7. The upper half 13 comprises a first and a second socket portion 4.5, each comprising two contact openings 7,8 and an earthing leg 9,10. The grounding legs 9, 10 are mounted on an electrical conductor 15 On the electrical conductor 15 are fixed two arms 16, which are bent towards each other with their free end. These free ends are held together by means of a spring 17.

   The arms 16 and the spring 17 are provided to be brought against the grounding opening 12 of the plug portion 6, to form a grounding contact in the plug portion 6. By means of the arms 16 and the conductor 15 a grounding leg of a further socket can be provided. , in which the divider plug is included, are connected to the grounding legs 9, 10 of the first and the second socket section 4,5 and consequently to the earthing openings of a first and a second plug which are included in the socket sections. The arms 16 and the spring 17 thereby exert a tensioning force on the earthing leg of the further socket, whereby a good connection of the earthing leg with the arms 16 is ensured and the earthing leg is retained in the earthing opening 12 of the plug portion 6.



   The plug portion 6 is preferably located in the middle of the lower half 14. It comprises two plug legs 11, which are mounted on electrical conductors 18, which in turn are mounted on elongated terminals 19, 20. These terminals 19, 20 are provided for

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 receiving the plug legs of plugs inserted into the socket sections 4,5 Each clamp 19,20 is formed by two elongated plates which are attached to each other with their ends at the places where a plug leg is received in the clamp 19,20, the plates have a curvature such that the clamp 19,20 has a widening 21,22, 23,24 at these locations.

   The clamps 19,20 are held in place and supported by ribs 21 in the lower half 14 of the housing. When a plug is included in one of the socket sections 4,5, the plug legs of this plug are included in the widening 21,23 or 22,24. The clamps 19,20 thereby exert a tensioning force on the plug legs, so that a good connection of the plug legs are secured with the terminals 19,20 and the plug is held in the socket section 4 or 5 Consequently, by means of the terminals 19,20 and the conductors 18, the plug legs of plugs which are included in the socket sections 4,5 can be , can be connected to the contact openings of a further socket, in which the plug portion 6 of the divider plug IS included
The broadening 21,

  22 of the first terminal 19 are shifted in the longitudinal direction of the terminals relative to the broadening points 23, 24 of the second terminal 20. This is a consequence of the fact that the contact openings 7 of the first socket section 4 lie on the first line L1 which is an angle a forms with the width direction B of the housing, and that the contact openings 8 of the second socket part 5 lie on the second line L2 which forms an angle ss with the width direction B of the housing When the upper and lower halves 13 are attached to each other , the broadening points 21 and 23 lie below the contact openings 7 of the first socket part 4,

   and the widenes 22 and 24 lie below the contact openings 8 of the second socket portion 5

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Because in the embodiments of Figures 3 to 7 the socket parts 4,5 are arranged at an angle a, ss oriented on the front side 2 of the housing, and because the earthing legs 9,10 are each time displaced in the same direction with respect to the line L 1, L 2 connecting the contact openings 7, 8, the cords of angled plugs located in the socket sections 4, 5 will extend substantially in the same direction.

   This ensures that a tensile force exerted on these cords will only load the distributor plug in almost one direction, so that the risk of a reciprocating movement that the distributor plugs out of a further socket can be reduced.



   The arrangement of the plug section 6 described above (in the middle of the rear 3 and with the plug legs 11 on the third line L3 parallel to the width direction B) results in that when the plug section of a first electrical divider plug is included in the first , resp. the second socket part of a second electrical distributor plug, the housing of the first electrical distributor plug the second resp.

   at least partially covers the first socket part of the second electrical distribution plug This has the advantage that the second or first socket section of the second distribution plug becomes inaccessible for receiving a further distribution plug or a plug of an electrical device. user can increase the number of available sockets at random by plugging in multiple multiple plugs.

     Consequently, it is possible to prevent this user from connecting a large number of electrical devices to one and the same outlet by using multiple distribution plugs, which could cause an overload current through this outlet. With the distributor plug of Figures 3 to 7, the number of available outlets can only

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 be increased to the number of socket sections on the distributor plug
The upper half 13 of the housing 1 preferably comprises child safety devices 26, 27, which are arranged on the undersides of the socket parts 4,

  For the sake of clarity, in Figure 6 the child safety device 26 on the underside of the first socket part 4 has been removed. These child safety devices 26, 27 are provided to prevent children from being able to place their fingers or objects in the contact openings 7,8 of the socket parts 4,5. Such a child safety device 26,27 is shown in detail In Figure 8 This child safety device comprises a housing 28 with a slidable plate 29 and a spring 30 arranged. The spring 30 presses the plate 29 against a side wall 32 of the housing.



  The plate 29 comprises two chamfered sides 31 which are provided at the places above which the contact openings 7,8 of a socket part 4,5 come to lie. The chamfered sides 31 are chamfered in the direction of the wall 32 against which the plate 29 passes through the spring 30 is pressed When a plug is inserted into a socket section 4.5, the plug legs of this plug push on the chamfered sides of the child protection plate 29.27 This moves the plate 29 away from the wall 32 of the housing 28, against which the plate 29 was initially pressed by the spring 30.

   When the plug is again pulled out of the socket section 4.5, the spring 30 pushes the plate 29 back into its original position, against the wall 32 of the housing. In this way the contact openings 7,8 are shielded from the socket section 4,5, when there is no plug in the socket 4.5.



   The upper half 13 and the lower half 14 of the housing 1 are preferably coupled to each other such that they

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 can no longer be dismantled afterwards without damaging the housing 1 Hereby it is prevented that a user can open the housing 1 of the distributor plug and modify internal interconnections of the conductors 15, 16, 18, 19, 20.

   This has the advantage that the risk of the occurrence of a short circuit due to an incorrect connection of the internal conductors of the distributor plug can be reduced. The coupling of the upper half 13 with the lower lifter 14 can be carried out in various ways known to those skilled in the art, for example by coupling the upper and lower halves 13,14 of the housing with the aid of clamps, or by gluing the two halves together, or in another manner known to the skilled person.



   In the second preferred embodiment of the electrical distribution plug according to the invention, which is shown in Figs. 9 and 10, the socket sections 4,5 are arranged on the front 2 of the housing 1 such that the contact openings 7,8 are arranged on a first and second line L 1, L 2 which form a first and second angle a, ss with the width direction B of the housing 1, wherein the angles a and ss are preferably both approximately 90 The ground legs 9, 10 are preferably shifted in the same direction with respect to the first and second lines L1, L2 As a result of this, as with the first preferred embodiment, it is obtained that the cords of two angled plugs which are located in the distributor plug,

   extend in the same direction, so that when a tensile force occurs on these cords the distributor plug is only loaded in one direction
Furthermore, in the electrical distribution plug of figures 9 and 10, the plug portion 6 is preferably arranged on the rear side 3 of the housing 1 such that the plug legs 11 lie on a third line L3 which is preferably perpendicular to the width direction B of the housing 1 Because of this one obtains, just like blj de

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 first preferred embodiment, that the number of available sockets cannot be arbitrarily increased by a user by plugging in multiple distribution plugs.

     Dft is because the housing of a first distribution plug which is included in the first or second socket part of a second distribution plug will at least partially cover the second or first socket part of this second distribution plug
In contrast to the second embodiment of Figs. 9 and 10, the first embodiment of Figs. 3 and 4 has the advantage that an inclination of the socket parts 4,5 is obtained. Extending in an oblique direction relative to the housing 1 This allows the leverage effect due to tensile forces exerted on the cords to be limited,

   since these forces act on the distributor plug to a lesser extent according to the width-length direction of the housing 1
The plug legs 11 and the earthing legs 9, 10 of the electrical distribution plug according to Figs. 3 to 10 are preferably manufactured in metal, more preferably In copper, since this metal has good electrical conductivity. They are preferably provided on their outer surface with a layer of silver to prevent oxidation of the copper or the used metal
The conductors 15, 16, 18, 19, 20 become
 EMI15.1
 preferably also made in metal, more preferably also in copper
The housing 1 and the child safety devices 26, 27 are preferably manufactured in a plastic, for example a thermoset,

   or In another form known to those skilled in the art

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 List of used reference numbers 1 housing 2 front 3 rear 4 first socket part 5 second socket part 6 plug-in section 7.8 contact openings 9.10 grounding feet 11 plugs 12 earthing hole 13 upper half 14 lower half 15 electrical conductor 16 arms 17 spring 18 electrical conductors 19.20 elongated clamps 21 -24 widening 1 ribs 26.27 child protection 28 housing 29 plate 30 spring 31 beveled edges 32 side wall
B width direction L 1 first line

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 L2 second line L3 third line a first corner ss second corner


    

Claims (10)

Conclusions An electrical distribution plug comprising a housing (1) with a front side (2) on which at least a first and a second socket section (4,5) are provided for receiving a first and a second plug, and a rear side (3) on which a plug portion (6) is provided for connecting the divider plug to a further socket, the first and the second socket portions (4,5) each comprising two contact openings (7,8) for receiving plug legs from the plugs, the housing (1) has a width direction (B), characterized in that the contact openings (7) of the first socket part (4) lie on a first line (L 1), which first line (L 1) has the width direction (B ) of the housing (1) encloses a first corner (a), and that the contact openings (8)  of the second socket part (5) lie on a second line (L2), which second line (L2) encloses a second angle (ss) with the width direction (B) of the housing (1), the first and second angles (s) a, ss) amount to 10 to 900 each time.  Electric distribution plug according to claim 1, characterized in that the first line (L1) is parallel to the second line (L2).  Electric distribution plug according to claim 1 or 2, characterized in that the plug section (6) is arranged on the rear side (3) of the housing (1) such that when the plug section of a first electric distribution plug is included in the first, resp. the second socket section of a second electrical distributor plug, the housing of the first electrical distributor plug the second resp. at least partially covers the first socket portion of the second electrical distribution plug.  Electrical distribution plug according to one of claims 1 to 3, characterized in that the first and the second corner  <Desc / Clms Page number 19>  (a, ss) are both approximately 300 and that the plug portion (6) is in the middle of the rear (3), the plug legs (11) being on a third line (L3) parallel to the width direction (B ) of the housing.  Electrical distribution plug according to one of claims 1 to 3, characterized in that the first and second angles (a, ss) are both approximately 900 and that the plug section (6) is located in the middle of the rear (3), the plug legs (11) being on a third line (L3) perpendicular to the width direction (B) of the housing.  Electrical distribution plug according to one of claims 1 to 5, characterized in that at least one of the socket sections (4, 5) comprises a grounding leg (9, 10), which grounding leg (9, 10) is each time shifted in the same direction relative to the line (L1, L2) connecting the contact openings (7,8) of the socket portion (4,5).  Electrical distribution plug according to one of claims 1 to 6, characterized in that each socket part (4, 5) is recessed in the front (2) of the housing (1).  Electrical distribution plug according to claim 6 or 7, characterized in that each socket part (4, 5) is located at a depth relative to the front (2) that is substantially equal to the length of the earthing leg (9, 10).  Electrical distribution plug according to one of claims 1 to 8, characterized in that the socket sections (4, 5) and the plug section (6) have a circular cross-section.  Electrical distribution plug according to one of Claims 1 to 9, characterized in that each socket part (4, 5) is equipped with a child safety device (26,27).