WO1999046840A1 - Plug in power supply unit - Google Patents

Abstract

An electronic/electric device comprising a housing (1), a contact plug (8) fixed thereon and a cable (9) used to connect the device to another device. The inventive device also comprises a rotationally mounted cover (3) with a peripheral slit (31) on the outside surface (30). The cable (9) can be wound inside the slit (31) by rotating the cover (3).

Description

 Plug-in power supply

The invention relates to an electrical / electronic device with a housing, a power plug fixed thereon and with one for connecting the device to another

Device serving cables.

Such a structure predominantly have so-called plug-in power supplies. Under it

Power supplies understood, the housing, expressed simply, the shape of oversized

Have plugs so that, in addition to the actual connector, comprising an insulating base body and the plug contacts, they also have the necessary electrical and / or electronic components of the power supply unit for generating a small, exchangeable or -

Can absorb DC voltage.

In previously known plug-in power supply units, the cable for connecting devices which are supplied with the low voltage generated by the power supply unit is rigidly fixed at its first end to the housing of the power supply unit. However, this has the disadvantage that the

Connection cable also protrudes from the device housing when the power supply is unplugged and transported or stored. The cable is used during transport or storage of the

Power supply unit often wrapped around the power supply housing or into a separate ball. In both cases, the space required exceeds the dimensions of the housing, furthermore the cable is exposed and is therefore exposed to the risk of damage.

It is an object of the invention to avoid these disadvantages and to provide an electrical / electronic device of the type cited at the beginning, in which the

Connection cable can be stowed in a particularly simple manner.

According to the invention this is achieved by a rotatably mounted cover in the device, in the circumferential surface of which a circumferential slot is embedded, within which slot the

Cable can be wound up by rotating the cover.

This solution achieves the goal with a particularly few, uncomplicatedly constructed additional components. A circumferential slot has a relatively high volume compared to the dimensions of the cover accommodating it, so that a relatively long connecting cable can be accommodated in a very narrow space in the slot.

In a further development of the invention it can be provided that the first, connected to the lines of the cable, on the cover surface of the cover facing the housing interior

Ends of grinding springs are defined, the second, free ends of which abut on slip rings fixed in the housing, preferably on the printed circuit board of the electrics / electronics.

Because of this way of connecting the connecting cable with the electrics / electronics of the

The lid of the device can be rotated by any angle, so the cable length that can be accommodated in the slot is only dependent on its size.

Furthermore, it can be provided that on the cover surface facing the interior of the housing

Cover a rotary shaft is fixed, which extends into a hole arranged in the interior of the housing, preferably in the printed circuit board of the electrics / electronics. 2

The necessary rotatability of the lid can thus be achieved with particularly simple means.

In this context, it can be provided in a further embodiment of the invention that the rotary shaft is designed to protrude beyond the bore, and that the one projecting beyond the bore

Part of the rotary shaft has a slightly larger diameter than the rest of the rotary shaft and that at least this part of the rotary shaft projecting beyond the bore is formed from elastic material.

This allows the cover to be inserted into the housing in a particularly simple manner.

It has proven to be particularly advantageous that those facing away from the interior of the housing

Cover surface of the lid is recessed in terms of its shape, for example, a human fingertip, because the lid can thus be turned manually particularly cheaply. A trough has the advantage over an alternatively conceivable pin that extends away from the top surface that it is completely identical

Allowing the dimensions of the cover or the whole to be turned manually

Device cannot be enlarged.

According to a particularly preferred embodiment of the present invention, a spiral spring can be provided, which is fixed at one end to the housing and at the other end to the cover, the spiral spring being caused by the one that takes place when the cable is unwound

Rotation of the lid can be tightened.

Due to this construction, the cable is wound into the slot of the cover automatically by the relaxing spiral spring, which means that the user of the device according to the invention is spared the manual winding.

In this context, in a further embodiment of the invention, a braking device acting on the cover can be provided, with which a rotation of the cover for

Winding of the cable can be prevented.

This means that the coil spring cannot pull on the device when it is ready for operation

Exercise the connection cable, this remains unwound and the disconnection with the device connected to the other end of the cable and supplied with extra-low voltage remains reliable.

In a development of the invention it can be provided that the braking device

Brake shoe and a spring, preferably coil spring, which spring the

Brake shoe presses against the cover, preferably against the outer surface of the cover, and that an actuating component, preferably a push button, is provided with which the

Brake shoe can be lifted off the cover.

Such a braking device requires very few simple components, which the

Manufacturing costs of the device can be kept low. In addition, it is in for the

User can be solved particularly conveniently.

According to a particularly preferred embodiment it can be provided that the

Brake shoe is slidably mounted in the tangential direction to the outer surface of the cover and that the abutting surface of the brake shoe against the outer surface of the cover is inclined with respect to the direction of displacement.

This results in an optimal blocking of the lid, which occurs with a slight

The winding movement of the lid is increased, which occurs when the lid rotates

Unwinding direction is solved automatically.

The invention is explained below with reference to the accompanying drawings. It shows:

1 shows a first embodiment of a device according to the invention without a cover in elevation;

2 shows the section along the line A-A shown in FigJ with inserted into the device

Cover;

3 shows a side view of the device according to FigJ with the lid inserted;

4 shows the section along the line C-C shown in Figure 5 by a second

Embodiment of a device according to the invention;

5 shows the section along the line B-B drawn in FIG. 4 with the device inserted into the device

Cover;

6 shows a side view of the device according to FIG. 4 with the cover inserted.

As can be seen from FIGS. 1 and 3, an electrical / electronic one according to the invention has

Device on a housing 1, on which a power plug 8 is fixed. The device works as

Power supply unit, so generates a low, alternating or direct voltage from the mains voltage

Supply of another electrical device (not shown in the drawings).

A cable 9 is used to connect said further device to the power supply unit, which is connected at one end to the power supply unit and at the other end to the further device

Usually can be connected via a plug connection.

According to the invention, the (power supply) device has a cover 3 which is rotatably mounted in the device and in the circumferential surface 30 of which a circumferential slot 31 is made, within which

Slot 31 the cable 9 can be wound up by rotating the cover 3. In the in the

Preferred embodiment shown in the drawings, the rotatable cover 3 is arranged parallel to the power plug 8. The cable 9 is - as shown in Figure 1 - passed through a trumpet-like opening 10 of the housing 1 and is thereby clean

Slot 31 supplied. The cable 9 is wound spirally within this slot 31 (see FIG. 2).

So that the cable 9 can be wound up in the manner shown, its two

Cable strands and their insulating jackets with a particularly small cross section.

This small cross-section brings about a relatively high ohmic resistance of the cable 9, which therefore results in a no longer negligible voltage drop when a supply current flows in the cable 9 from the power supply unit to the further device. So that the further device is nevertheless supplied with a sufficiently high voltage, a voltage which is higher by the voltage drop on the cable 9 is generated in the power supply unit.

In order to realize the rotatable mounting of the cover 3, a rotary shaft 33 is fixed on the cover surface 32 of the cover 3 facing the housing interior. This extends into a bore 12 which is arranged in the interior of the housing 1. To accommodate this bore 12, a separate component, for example a projection on the housing wall projecting into the interior of the housing, can be provided, but it has proven to be advantageous to arrange the printed circuit board 11 of the device 1 according to the invention running parallel to the cover 3 and to provide said bore 12 in the latter . In order to prevent the cover 3 from shifting in the direction of the longitudinal extent of the rotating shaft 33 and thus falling out of the housing 1, several possibilities are conceivable: along the areas of the housing 1 adjacent to the cover jacket surface 30, the cover surface 34 facing away from the interior of the housing could slightly protruding tabs 35 may be provided (shown in broken lines in Fig.2).

Another variant, which is preferably used because it is easier to manufacture, is to design the rotary shaft 33 so that it projects beyond the bore 12. On the bore 12 projecting part 36 devices must be attached, which are supported on the edge of the bore and thus prevent the rotating shaft 33 from slipping out of the bore 12.

Examples of the devices mentioned to prevent slipping are, for example, a pin running transversely to the longitudinal direction of the shaft or the slight enlargement of the part 36 of the rotary shaft 33 projecting beyond the bore 12, as shown in the drawing is facing and has a slightly larger diameter than the rest of the rotary shaft 33 or than the bore 12. In addition to this, the part 36 of the rotary shaft 33 which projects beyond the bore 12 is formed from elastic material, for example plastic. This configuration and arrangement of the bore 12 and the part 36 of the rotary shaft 33 projecting therefrom results in a “snap-in fastening” of the cover 3 to the device: housing 1 and cover 3 can be manufactured separately from one another, all electrical / electronic components of the device can be inserted into the housing 1. Only in the last manufacturing step is the free end of the rotary shaft 33 attached to the bore 12 and pressed into it with slight pressure. The sections of the rotary shaft end 36 projecting beyond the bore diameter are compressed so much due to their elasticity that they can pass through the bore 12. When the position shown in FIG. 3 is reached, the rotary shaft end 36 expands into its original conical shape, the conical base surface comes into contact with the printed circuit board 11 and prevents displacement of the rotary shaft 33 and thus of the entire cover 3. For the purpose of connecting the device Slip ring / loop spring connections are provided at the end of the cable 9 with the electrics / electronics of the device: As can be seen in FIG. 1, two slip rings 13 which are concentric with the bore 12 and are connected to the electrics / electronics of the device are arranged on the printed circuit board 11 are. On the cover surface 32 of the cover 3 facing the interior of the housing, the first ends of loop springs 4 are fixed, the second free ends of which Slip rings 13 abut. The first loop spring ends anchored in the cover 3 are connected to the lines of the cable 9.

In the embodiment according to FIGS. 3 to 3 it is provided that the rotation of the cover 3 necessary for winding or unwinding the cable 9 is carried out manually. To simplify this rotation, a recess 37 corresponding to the shape of a human fingertip is embedded in the cover surface 34 of the cover 3 facing away from the interior of the housing.

The second embodiment of the device according to the invention shown in FIGS. 4 to 6 essentially corresponds to the previously discussed first embodiment. Here, however, it is provided that only the unwinding of the cable 9 takes place manually, but that the winding of the cable 9 into the slot 31 of the cover 3 takes place automatically by means of spring force.

For this purpose, a spiral spring 5 is provided, which is fixed at one end (fastening point 5 ') on the housing 1 and at the other end (fastening point 5 ") on the cover 3. The spiral spring 5 is oriented in such a way that it rotates when the cable 9 is unwound Cover 3 is tensioned, and when it relaxes, the spiral spring 5 therefore rotates the cover 3 in the opposite direction, as a result of which the cable 9 is wound into the slot 31.

So that the spiral spring 5 does not constantly try to wind up the cable 9 and thus exert a tension on it, a braking device preventing this automatic winding is provided. In the simplest case, this could be formed by a clamp which is clamped onto the cable 9 lying outside the housing 1 in the vicinity of the trumpet-like opening 10. The winding of the cable 9 could only take place until this clamp lies against the edge of the opening 10 and thus prevents further winding.

A more elegant embodiment of this braking device is to allow it to act on the cover 3 and to design it in such a way that rotation of the cover 3 for winding up the cable 9 (in FIG. 4 a rotation counterclockwise) can be prevented. Such a braking device comprises a brake shoe 14 and a spring 7, which is designed, for example, as a helical spring, which spring 7 presses the brake shoe 14 against the cover 3, preferably against the outer surface 30 of the cover 3. To solve this braking device, an actuating component 6, preferably a push button, is provided, with which the brake shoe 14 can be lifted off the cover 3. The concrete implementation of this brake device in the embodiment of the invention shown in the drawings can best be seen from FIG. 4:

A thrust piece 15 is provided, on one end of which the brake shoe 14 and on the other end of which the actuating component 6 is arranged. This thrust piece 15 passes through a slightly larger cross-section than the thrust piece 15, which is made in a molded part 16 of the housing 1. The Thrust piece 15 and thus also the brake shoe 14 is slidably mounted in the tangential direction x to the lateral surface 30 of the cover 3.

Between the projection 16 and the actuating component 6, a helical compression spring 7 is arranged, which is supported on one end on the projection 16 and on the other end on the actuating component 6 and thus pushes the thrust piece 15 (in the position of the device shown in FIG. 4) to the right.

The friction surface 17 of the brake shoe 14 which bears against the lateral surface 30 of the cover 3 is inclined with respect to the direction of displacement x. As can be seen from FIG. 4, this friction surface 17 is basically pressed against the lateral surface 30 of the cover 3 by the spring 7. When winding the cable 9, which can be done simply by pulling on the cable 9 by hand, the cover is turned clockwise and thereby moves the brake shoe 14 slightly to the left (this and all other directions refer to the position of the device shown in Fig. 4) ). Thus, the friction surface 17 is slightly lifted from the outer surface 30 of the cover 3, which means that unwinding can be largely unchecked.

After completion of the unwinding, the tensioned spiral spring 5 tries to turn the cover 3 counterclockwise during the unwinding. The brake shoe 14 is shifted to the right by the pressure of the spring 7 and thus its friction surface 17 pressed against the outer surface 30 of the cover 3. Attempting to turn the cover 3 counterclockwise leads to an increased rightward shift of the brake shoe 14. Since a guide 18 is arranged parallel to the thrust piece 15, against which the push rod 15 rests, the friction surface 17 cannot deflect downwards, but will also pressed against the lateral surface 30 by the explained increased right shift. The winding rotation of the cover 3 attempted by the spiral spring 5 thus leads to an increased braking of the cover 3.

If a spiral spring-operated winding of the cable 9 is to take place, the friction surface 17 of the brake shoe 14 must be lifted manually from the cover 3, which can be done by pressing the actuating component 6 to the left. Now the coil spring 5 can relax unhindered and turn the cover 3 counterclockwise.

Claims

PATENT CLAIMS 1. Electrical / electronic device with a housing (1), a mains plug (8) fixed thereon and with a cable (9) serving to connect the device to another device, characterized by a rotatably mounted cover (3) in whose peripheral surface (30) has a circumferential slot (31), within which slot (31) the cable (9) can be wound up by rotating the cover (3). 2. Electrical / electronic device according to claim 1, characterized in that on the inside of the housing facing surface (32) of the lid (3), the first, with the lines of the cable (9) connected ends of loop springs (4) are fixed, the second, free ends bear against slip rings (13) fixed in the housing (1), preferably on the printed circuit board (11) of the electrics / electronics. 3. Electrical / electronic device according to claim 1 or 2, characterized in that on the housing surface facing the inside surface (32) of the cover (3) a rotating shaft (33) is fixed, which is in an inside of the housing (1) , preferably in the printed circuit board (11) of the electrics / electronics, arranged bore (12). 4. Electrical / electronic device according to claim 3, characterized in that the rotary shaft (33) the bore (12) is of outstanding design, that the bore (12) projecting part (36) of the rotary shaft (33) slightly larger diameter than the remaining rotary shaft (33) and that at least this part (36) of the rotary shaft (33) projecting beyond the bore (12) is formed from elastic material. 5. Electrical / electronic device according to one of claims 1 to 4, characterized in that in the cover surface facing away from the interior (34) of the cover (3) is recessed in terms of its shape approximately a human fingertip (37). 6. Electrical / electronic device according to one of claims 1 to 5, characterized by a spiral spring (5) which is fixed at one end to the housing (1) and at the other end to the cover (3), the spiral spring (5) by the when unwinding the cable (9) The rotation of the cover (3) can be tightened. 8th 7. Electrical / electronic device according to claim 6, characterized by a on the cover (3) acting braking device with which rotation of the cover (3) for winding the cable (9) can be prevented. 8. Electrical / electronic device according to claim 7, characterized in that the braking device has a brake shoe (14) and a spring (7), preferably helical spring, which spring (7) the brake shoe (14) against the cover (3), presses preferably against the lateral surface (30) of the cover (3) and that an actuating component (6), preferably a push button, is provided, with which the brake shoe (14) can be lifted off the cover (3). 9. Electrical / electronic device according to claim 8, characterized in that the brake shoe (14) in the tangential direction (x) to the outer surface (30) of the cover (3) is displaceably mounted and that on the outer surface (30) of the cover ( 3) adjacent friction surface (17) of the brake shoe (14) is inclined with respect to the direction of displacement (x).