WO2022262884A1 - Locking and release mechanism for a plug connector system - Google Patents

Abstract

The invention relates to a locking and release mechanism for a plug connector system (100) to be installed in a panel, wherein the plug connector system (100) is configured to be retractable into the panel and comprises a plug connector body (10) with a built-in housing (30), the plug connector body (10) comprising a bottom plug connector receptacle (12), a central plug connector receptacle (14) and a top plug connector receptacle (16), wherein the plug connector receptacles (12, 14, 16) are configured to be reversibly collapsible inside the built-in housing (30) and consequently the plug connector body (10) is configured to be of variable height.

Description

Locking and unlocking mechanism for a socket system

description

The invention relates to a locking and unlocking mechanism for a socket system.

State of the art

Sockets are known as electrical connectors between lines. Live sockets are sockets or couplings, since the design is "female", i.e. the socket has inward-facing contact openings. Plugs can be plugged into the socket. They are either fixed to a wall, i.e. surface-mounted, or sunk, i.e. flush-mounted, installed, or as table or multiple sockets or the like. educated.

Table sockets have, for example, a cuboid installation housing into which one or more socket pots are molded or inserted. A connection line is provided for the electrical feeding of the sockets, one end of which is contacted with the sockets and the other end of which carries a plug. Table sockets can also be lowered into various installation housings in the table, for example by spring force. DE 202 15 725 U1 shows a "table socket" with an elongated installation housing made of insulating material with sockets, their power supply lines and end caps made of insulating material on the installation housing, with a compartment having an open front being formed under the installation housing and this being closable with a flap is, wherein at least one line holder is arranged on the inside of the flap. A disadvantage of the known sockets or sockets is that the

Height of these sockets when installed in panels of furniture such as in the kitchen is greater than the panel thickness of the furniture. A considerable overall depth in the tabletop is necessary for bringing in the sockets. The object of the invention is therefore to provide a socket outlet that allows space-saving installation in panels.

Disclosure of Invention

The invention is disclosed by the features of the main claim. Embodiments and developments are the subject matter of the further claims that follow the main claim.

A locking and unlocking mechanism for a socket system with at least one socket socket with a socket body is disclosed, the socket body being designed such that it can be pushed together or pressed together by a push-in mechanism. The socket body can be lowered into a plate, in particular a table top, and has an upper, a middle and a lower socket head. The lower and the upper socket pot are each spring-mounted, the middle socket pot is fixed. The socket pots can be pushed together when sinking into the tabletop, especially that of a kitchen, by squeezing the resiliently mounted upper into the fixed middle and further into the resiliently mounted lower socket pot. The nesting can also be done by squeezing, collapsing or folding. The socket body, having sockets and/or charging sockets, is built into a table, for example a kitchen worktop. When you press down into the space inside or below the kitchen worktop, the socket outlet can be pushed together as described by sliding the upper socket pot into the middle and lower socket pots of the socket body and thus sunk into the table top. As a result, the body of the socket, together with its installation housing and the base of the socket, becomes a retractable socket system.

This socket system can also be built into a table top with a low installation height, for example above drawers, thanks to the slide-in mechanism according to the invention. When squeezing or moving together the body of the socket or its individual parts, the individual socket pots, this is limited by set screws that slide in guide grooves on the front and by double hooks as a stroke limiter on the back. The upper and lower spring-loaded socket pot is guided by six guides in particular and in particular three springs. These Be movement devices can be done instead of springs on other means of movement, such as hydraulically, pneumatically, by gear rods or the like. A motor can also be used for movement.

The socket system has a height-adjustable latching and release mechanism on a socket base. In particular, this can be an adjustable heart curve control in order to adjust the adjusted socket body exactly to the same height in relation to the surface of the table top. A fastening ring can be arranged on the base of the socket, which has a two-start thread and with which the socket body can be screwed onto external surfaces, for example for a double socket. The mounting ring can be secured with screws through holes in egg nem outer area. Due to the formation of the two-start thread, the fastening ring can be screwed into the installation housing from two directions. By choosing the direction in which the fastening ring is screwed onto the installation housing, the entire height of the socket system can be further reduced within the limits of the thread.

When moving out, the socket outlet opens. Only then can a plug or Schuko plug be inserted into the socket. Closing and reopening can also be achieved with a touch-sensitive surface, for example for chargers such as touch chargers. Two sockets or chargers can be arranged next to each other or arranged opposite one another. After shutting down, the socket is closed and the socket body can be flush with the surface of the panel in which it is installed.

The slide-in mechanism of the socket system according to the invention with the socket and/or the charger or the socket and/or charging socket is designed, for example, as a tower-shaped structure which includes the three socket pots described be. The socket can be pulled out by pressing on the top of the construction. In the extended state, the socket system is held by guide domes arranged on a circumference, which ensure a secure fit in the extended end position. care. When you press down, the socket is pushed together again. When pushed down, the socket system of the socket body is flat, small and not in the way. The movement for locking and unlocking can also be motorized.

A spring-loaded sealing lip is formed in the front area. This makes the socket watertight when it is pushed in and retracted. In the extended state, the surfaces of the socket outlets or other devices such as chargers or loading devices are at a distance from the table surface, so that water penetration is minimized even in the extended state. Furthermore, differently designed air inlets and outlets can be present in order to allow possible condensation water to escape.

The socket outlet has high grounding brackets. It can be designed as a single or multiple socket outlet with different configurations such as round, square, etc. It can be designed as a single to X-fold European socket or Schuko socket and/or as a built-in charger such as a USB A/C charger. Combinations as a double safety socket, triple or quadruple socket and/or USB A/C charger are also conceivable if the body of the socket and the installation housing are widened. The socket or socket itself is standardized and can be installed in different chassis. The arrangement according to the invention saves space. This space saving amounts to approx. 10 - 15 mm when inserting into the plate, since the installation depth and the space requirement are significantly reduced by operating the slide-in mechanism. The socket system, which can be pushed together, is pushed together by approx. 10 - 15 mm when pressed into a panel, for example, and thus reduces the height of approx. 42 mm to approx. 26 to 31 mm.

There may also be cable routing within the back box to prevent kinking of the cables. Within this area, stripped lines or cables are bundled and fed through in a sealed off area within the housing. These lines can be fastened one or more times with cable ties so that the lines can be extended and retracted without tension or pressure. Further advantages and advantageous configurations of the invention can be found in the following description of the figures, the drawings and the claims.

An exemplary embodiment of the solution according to the invention is explained in more detail below with reference to the accompanying schematic drawings. It shows:

Fig. 1 shows the figures Fig. 1a to 1f of a socket system with a socket body with at least one socket, with Fig. 1a showing a side view of the individual dargestell th individual parts pulled apart, Fig. 1b an exploded view in an inclined position and Fig. b 1d shows a top view, FIG. 1e shows a longitudinal section of the individual parts pulled apart in the cutting direction A - A and FIG. 1f shows a longitudinal section in the direction B - B,

Fig. 2 shows the figures 2a to 2d, with Fig. 2a showing a longitudinal section through a socket body shown upright, Fig. 2b an isometric external view in an inclined position, Fig. 2c a plan view and Fig. 2d showing a further longitudinal section in a lying position,

3 shows the figures 3a to 3d, with FIG. 3a showing a longitudinal section through the socket body shown upright, FIG. 3b an isometric external view in an inclined position, FIG. 3c a plan view and FIG. 3d another longitudinal section in a lying position shows,

4 shows FIGS. 4a to 4d, the socket system being shown pushed together in this view, with FIG. 4a showing a longitudinal section through the socket body shown upright, FIG. 4b an isometric external view in the closed state in an inclined position, FIG. 4c a plan view and Fig. 4d shows another longitudinal section in a lying position,

5 shows FIGS. 5a to 5c, with FIG. 5a showing an exploded view at an angle from above, FIG. 5b showing a side view of the exploded individual parts, and FIG. 5c showing a further exploded view at an angle from below. 6 shows FIGS. 6a to 6c, with FIG. 6a showing an exploded view at an angle from above, FIG. 6b showing a side view of the exploded individual parts and FIG. 6c showing a further exploded view at an angle from below,

7 shows FIGS. 7a to 7d, with FIG. 7a showing a longitudinal section through a central socket pot, FIG. 7b showing a top view, FIG. 7c showing a longer longitudinal section and FIG

Fig. 8 shows Figs. 8a to 8g, Fig. 8a showing a longitudinal section through the three socket pots in the cutting direction B - B according to Fig. 8e, Fig. 8b showing a longitudinal section through the housing, Fig. 8c an oblique view of the Fig. 8a shows a longitudinal section, Fig. 8d shows an oblique view of the longitudinal section according to Fig. 8b, Fig. 8e shows a plan view indicating the cutting direction B - B, Fig. 8f shows an oblique view from the other direction of Fig. 8a and figure

8g shows a further oblique view according to FIG. 8b.

In Fig. 1a, a locking and unlocking mechanism for a socket system 100 is shown. The socket system 100 has a socket body 10 . The socket body 10 is formed from a lower socket pot 12, a middle socket pot 14 and an upper socket pot 16. The socket pots 12 and 16 are resiliently mounted, the middle socket pot 14 is fixed. There is a reversible determination of the position by the stop of the springs of the two socket pots 12 and 16 when you press it down. By pressing again, this determination can be released again and the socket body 10 with the socket pots 12, 14, 16 move back up. Only then can the plugged-in sockets or chargers be reached again. A socket floor 18 is formed. Furthermore, a fastening ring 20 is formed. This fastening ring 20 has a two-start thread and is screwed onto the outer surfaces, for example, in the case of a double socket. The fastening ring 20 can be secured with screws through bores in an outer area. The fastening ring 20 can be removed from its two sides be used here. Due to its two-start thread, the screw-in depth is different on the two sides, so that depending on the side selected, a higher or shallower screw-in depth is achieved. By choosing the side with an overall flatter shape, an additional increase in height is achieved when screwing in, so that the overall height of the socket system 100 can be reduced again. In one embodiment, the fastening ring can also be screwed in or glued with silicone.

The middle socket pot 14 can be designed for sockets and for charging devices, so-called chargers, for example USB chargers. At least one or more sockets and/or charging sockets can be designed for the sockets to be plugged in. The upper socket pot 16 has a stroke limiting groove 22 . Furthermore, the upper socket outlet 16 has a sealing lip 24 which is spring-mounted in particular. This sealing lip 24 makes the socket system 100 watertight when retracted and minimizes water penetration even when extended.

The socket system 100 that can be pushed together is pushed together by about 10-15 mm when pressed into a tabletop, for example, and thereby reduces the height from about 42 mm to about 26 to 31 mm.

Fig. 1b shows the arrangement of the individual parts of the socket system in an oblique exploded view of the exploded system.

Fig. 1c shows the socket system 100 with the socket body 10. On the top of the upper socket pot 16 is a first panel, in this embodiment a metal panel 26 and on an installation housing 30 of the middle fixed socket pot 14 a second metal panel 28 is formed. These screens can also be made of plastic or another suitable material. A look comparable to that of the surface of the plate in which the socket system is installed would also be conceivable. When the upper socket pot 16 is pushed into the middle socket pot 14, these two metal panels 26, 28 are flush with one another. In the middle socket pot 14 at least one, but in particular six guide bushings 32 is formed. This guide bushings 32 are used to guide the upper socket pot 16 and the lower socket pot 18. Des Furthermore, at least one, but in particular six, guide domes 34 are formed for the upper socket pot 16 and the lower socket pot 12 .

Fig. 1d shows the position of the section planes A - A for Fig. 1e and B - B for Fig. 1f.

Fig. 1e shows the lower, spring-loaded socket pot 12 with a stroke limiter 36 and guide domes 34, the middle, fixed socket pot 14 with guide bushings 32 and the upper, spring-loaded socket pot 16 with a further stroke limiter 36 and guide domes 34. When pushed together, the Guide domes 36 of the lower socket pot 12 and the upper socket pot 16 are pushed from below and above into the respective guide bushings 32 of the middle socket pot 14 . Furthermore, the socket base 18 and the fastening ring 20 are shown.

In Fig. 1f the socket base 18 is shown, which has a height-adjustable latching and release mechanism. In this exemplary embodiment, this mechanism is designed as a heart curve control 38 . The heart curve control 38 is doubly spring-loaded. The lower socket pot 12 has a resilient mounting 40 .

2 shows the socket system 100 in the extended state.

2a shows the socket system 100 with the socket body 10 in section, which is formed from the lower socket pot 12, the middle socket pot 14 and the upper socket pot 16. The representation takes place in the section line A - A, see Fig. 2c. Furthermore, the double-bearing heart curve control 38 is shown.

Fig. 2b shows the extended socket system in an isometric view. There are two sockets 42 formed in this embodiment. Fig. 2c shows the cutting direction A - A, see Fig. 2a, and B - B, shown here in a plan view. It is shown that the fastening ring 20 is fastened to a base with screws 44 .

2d shows the socket system in the extended state along the sectional plane BB. A rear, lower extension stop 46 and a rear, upper extension stop 48 are formed and the spring-loaded sealing lip 24 is shown.

Fig. 3 shows the socket system 100, this being extended, but the upper socket pot 16 is in the middle socket pot 14 is driving or pushed together. Thus, the socket body 10, which has now been reduced in size, can be inserted into the installation housing 30, with a very reduced built-in socket and/or USB charger socket being provided.

Fig. 3a shows the modified shape of a socket/USB charging socket 42, which is made elliptical and no longer round by pushing together the upper socket pot 16 (in this view it is hidden because it is pushed in, the direction of thrust is indicated by an arrow) in the middle socket pot 14 is in the cutting plane A -A.

Fig. 3b shows the reduced version that results from the insertion of the upper socket pot 16 (covered in this view because it is pushed in) into the middle socket pot 14 and the otherwise round design of the socket outlet/USB charging socket 42, which is now elliptical in shape.

Fig. 3c shows the position of the section planes A - A and B - B for Fig. 3a and 3b.

Fig. 3d represents the middle socket pot 14, in which the upper socket pot 16 is inserted. The lower socket pot 12 has the double spring-loaded heart curve control 38 .

Fig. 4 shows the state in which the lower socket pot 12 and the upper socket pot 16 into the middle socket pot 14 and thus the bottom tere socket pot 12 and the upper socket pot 16 are pushed together.

Fig. 4a shows the thrust direction for the insertion of the two socket pots 12 and 16 by the indicated arrows. Only the installation housing 30 can be seen from the outside. This results in an exemplary installation dimension of approximately 47.50 cm in height for this exemplary embodiment. The illustration shows the sectional plane C - C, as shown in Fig. 4c.

4b shows the retracted or collapsed form of the socket system 100. The first metal panel 26 and the second metal panel 28 are flush with one another and form a flat surface. If the socket system 100 is built into a kitchen table, the resulting surface can also be flush with the surface of the kitchen table.

Fig. 4c shows the section line C - C for the section plane shown in Fig. 4a.

Fig. 4d shows the collapsed state. There is an adjustment screw 50 which enables an exact height adjustment when retracted.

Fig. 5 shows the components of the socket system 100 in an extended, pulled apart state, with the individual assemblies being shown detached from one another. The socket system 100 is equipped with European sockets, single / double / X-fold, and/or USB Charger A/C single / double / X-fold.

5a shows the installation housing 30 in the upper area, within which the upper socket pot 16, the middle socket pot 14 and the lower socket pot 12 are completely accommodated in the pushed-together state. The upper socket pot 16, the middle socket pot 14 and the lower socket pot 12 together form the socket body, which is designed as a functional body. In the present illustration, these individual parts are detached from one another and shown in an exploded manner. There are Guide domes 34 are shown, which are arranged on the circumference and ensure a secure fit in the extended end position.

Fig. 5b shows the installation housing 30, the middle socket pot 14 with the indication of the direction of movement of the upper socket pot 16 in the middle socket pot 14 and the opposite direction of movement of the lower socket pot 12 towards the middle socket pot 14 inside. Two sockets 42 are formed, one being a USB charging socket, shown on the viewer's left, the other a power socket, shown on the viewer's right.

FIG. 5c after FIG. 5a shows the representation shown there from a different perspective.

6 shows corresponding representations for the middle socket pot 14, in which the lower socket pot 12 and the upper socket pot 16 are pushed into these representations. The individual assemblies are also shown detached from one another.

By indicating the arrows, Fig. 6a shows the socket pots 12, 16 pushed into the middle socket pot 14.

Fig. 6b shows the modified, elliptical design of the sockets / USB charging sockets 42, once designed as a USB charging socket, the other time as a socket socket.

Fig. 6c after dig. 6a shows the view from below of the fastening ring 20 and the base of the socket 18.

Fig. 7 shows different sections in the section planes indicated in Fig. 7b. A collapsed and retracted state is shown.

7a shows a section BB. A USB charging socket 42 is formed. Furthermore, a contact carrier 52 of a protective contact is shown. Other European contact carriers can be arranged. Fig. 7b shows the section planes B - B for Fig. 7a and C - C for Fig. 7c.

7c shows the pushed-in state of the components into one another. An adjustment possibility to achieve the same height of the surface of the socket system 100 is made possible by the adjusting screw 50 arranged.

7c shows in a detail view, the section is marked by a circle, the position and design of the sealing lip 24. This sealing lip 24 is resiliently mounted and prevents water ingress.

Figure 8 illustrates the placement of different springs for collapsing and releasing the locking and unlocking mechanism for the socket system.

Fig. 8a shows a longitudinal section BB through the socket body 10.

Fig. 8b shows the arrangement of push-in and push-out springs 54 in the push-in housing 30.

FIG. 8c shows the socket body 10 from FIG. 8a at an angle from above. There are compression springs 56 for moving the socket body 10 in and out. In particular, four or six compression springs 56 can be formed.

FIG. 8c shows the slide-in housing 30, showing the direction of view into the interior of the slide-in housing 30. FIG. The push-in and push-out springs 54 are shown. Furthermore, carriage function springs 58 are designed to enable the carriage function. At least one heart-shaped compression spring 60 is designed for the heart-shaped curve function of the heart-shaped curve control 38 (see FIG. 8f).

8e indicates the cutting direction BB for the respective longitudinal cuts.

Fig. 8f shows the position of the height-adjustable latching and release mechanism, here a heart-shaped control 38 of the socket body 10. 8g shows the interior of the socket housing 30 with a view of the push-in springs 54 in an oblique view from above.

All of the features presented in the description, the following claims and the drawings can be essential to the invention both individually and in any combination with one another.

Reference List

10 socket body

12 lower socket pot

14 medium socket pot

16 upper socket pot

18 socket base

20 mounting ring

22 stroke limiter groove

24 sealing lip

26 first metal bezel

28 second metal bezel

30 installation housing

32 guide bush

34 guide dome

36 stroke limitation

38 Heart Curve Control

40 resilient bearing

42 sockets/USB charging socket

44 screw

46 extension stop below

48 Extension stop at the top

50 adjustment screw

52 contact carriers

54 insertion spring

56 compression spring

58 slide function spring

60 heart curve compression spring

100 socket system

A -A cutting line

B - B cutting line

C - C cut line

Arrow indicating the direction of pushing together

Claims

Expectations

1. Locking and unlocking mechanism for a socket system (100) for installation in a panel, characterized in that the socket system (100) is designed to be retractable into the panel and for this purpose has a socket body (10) with an installation housing (30), wherein the The socket body (10) has a lower socket pot (12), a middle socket pot (14) and an upper socket pot (16), the socket pots (12, 14, 16) being reversibly collapsible within the installation housing (30), see above that the socket body (10) is variable in height.

2. Locking and unlocking mechanism according to claim 1, characterized in that the lower socket pot (12) and the upper socket pot (16) are each spring-mounted and the middle socket pot (14) is fixed so that the lower socket pot (12) and the upper socket pot (16) can be reversibly inserted into the middle socket pot (14) and the upper socket pot (16) and the lower socket pot (12) can thereby be pushed together in the direction towards one another.

3. Locking and unlocking mechanism according to one of claims 1 or 2, characterized in that a socket base (18) and a fastening ring (20) are formed.

4. locking and unlocking mechanism according to any one of the preceding claims, characterized in that in the socket body (10) at least one socket and / or USB charging socket (42) is formed.

5. locking and unlocking mechanism according to one of claims 3 or 4, characterized in that the fastening ring (20) has a double thread.

6. Locking and unlocking mechanism according to one of the preceding claims, characterized in that the upper socket pot (16) has a stroke limiting groove (22) and / or a sealing lip (24).

7. locking and unlocking mechanism according to claim 6, characterized in that the sealing lip (24) is resiliently mounted.

8. locking and unlocking mechanism according to any one of the preceding Ansprü surface, characterized in that a first metal panel (26) is formed on a top of the upper socket pot (16).

9. locking and unlocking mechanism according to any one of the preceding claims, characterized in that on the installation housing (30) a second metal panel (28) is formed.

10. Locking and unlocking mechanism according to one of the preceding claims 8 or 9, characterized in that when the upper socket pot (16) is pushed into the middle socket pot (14) in the installation housing (39), the two metal panels (26, 28) are flush with one another to graduate.

11. Locking and unlocking mechanism according to one of the preceding claims, characterized in that at least one guide bushing (32) is formed on the central socket pot (14) and serves to guide the upper socket pot (16) and the lower socket pot (18). .

12. Locking and unlocking mechanism according to any one of the preceding claims, characterized in that at least one guide dome (34) is designed for the upper socket pot (16) and the lower socket pot (12).

13. Locking and unlocking mechanism according to one of the preceding claims, characterized in that at least one rear, lower extension stop (46) and at least one rear, upper extension stop (48) are formed.

14. Locking and unlocking mechanism according to one of claims 3 to 13, characterized in that the socket base (18) has a heart-shaped control (38) as a locking and release mechanism.

15 locking and unlocking mechanism according to claim 14, characterized in that the heart curve control (38) is doubly spring-loaded.

16. Locking and unlocking mechanism according to any preceding Ansprü surface, characterized in that guide domes (34) are formed, which are arranged on a circumference of the lower socket pot (12) and ensure a secure fit in the extended end position.

17. Locking and unlocking mechanism according to any preceding Ansprü surface, characterized in that a contact carrier (52) is designed for a protective contact.

18. Locking and unlocking mechanism according to any one of the preceding claims, characterized in that the socket system (100) can be actuated by exerting pressure on the first metal panel (26) and in that either the retraction into the plate or the retraction from the plate is triggered.