WO2003067315A1

WO2003067315A1 - Fixing means for fixing a display and device comprising fixing means of this type

Info

Publication number: WO2003067315A1
Application number: PCT/DE2002/004103
Authority: WO
Inventors: Erhard Hoffmann; Stefan Clauss; Uwe Skultety-Betz; Bjoern Haase; Ulli Hoffmann
Original assignee: Robert Bosch Gmbh
Priority date: 2002-02-07
Filing date: 2002-11-06
Publication date: 2003-08-14
Also published as: DE10204999A1; TW200302992A

Abstract

The invention relates to fixing means comprising a retaining unit (12) for fixing a display (1), in particular for fixing a display (1) in a housing of an electronic device. According to the invention, the display (1) can be mounted in the retaining unit (12) in a floating manner with a freedom of movement in at least one direction.

Description

Bracket for mounting a display and device with such a bracket

State of the art

The invention relates to a holder for fastening a display, in particular for fastening a display in a housing of an electronic device, according to the preamble of claim 1 and a device with such a holder according to claim 14.

It is known that displays are used in a large number of electronic devices, for example in mobile telephones, so-called organizers or PDAs (Personal Digital Assistants) and in measuring devices.

• The displays have to be fixed in the respective device, which can be done in different ways.

One mounting option provides that the display is soldered directly onto the circuit board of the device with solder pins below a housing opening, so that the display is visible from the outside through the housing opening. In addition to the mechanical fastening, the solder pins also serve for electrical contacting of the display. These orders Stigungsart is rigid, however, so that external forces. the housing of the device can damage the display.

According to a further known fastening possibility, the display is first inserted into a metal frame, which is then screwed into a housing opening with the housing of the device. The electrical contacting of the display is usually done by a ribbon cable. Here, too, the display can be relatively easily damaged by external forces.

Finally, there is also the possibility that the display is preassembled on the circuit board of the device, the circuit board being fastened to the housing of the device by means of spacer pins under a housing opening, so that the display is visible from the outside through the housing opening. However, this attachment is also rigid and therefore sensitive to external forces.

Advantages of the invention

The invention therefore provides a holder with a holding unit for fastening a display, in particular for fastening a display in a housing of an electronic device, in which the display can be floatingly supported in the holding unit in at least one degree of freedom of movement.

This means that the display can yield to external force in order to avoid damaging the display. Allows the floating support of the display in the inventive bracket advantageous use in a used also for construction site work hand tool or _^ a locating device, as the holder of the invention protects the screen against external forces and damage largely prevented. Particularly advantageous protection can be achieved in devices with large, sensitive displays, such as location devices, laser distance measuring devices, etc.

The display is preferably not only floating in one degree of freedom of movement, but in several degrees of freedom of movement in order to minimize the risk of damage due to external force. Thus, the holder according to the invention can be flexible both against a pressure load on the display and against a twisting of the holder. There is also the possibility that the bracket allows a lateral displacement ^{• of} the display.

The floating mounting of the display in the holder is preferably effected by a buffer element which dampens and / or cushions external forces on the display, thereby largely preventing damage to the display. The buffer element preferably has both damping and elastic material properties, since a pure spring suspension without mechanical damping could lead to vibrations of the display in the holder.

In the preferred embodiment of the invention, the buffer element consists of an antistatic material in order to prevent damage to the electronic components of the device to avoid electrostatic charging of the display or the buffer element.

In a variant of the invention, the buffer element consists at least partially of an electrically insulating material in order, for example, to prevent an electrical short circuit or leakage currents through the buffer element.

According to another variant of the invention, however, the buffer element consists at least partially of an electrically conductive material. This can be advantageous, for example in the case of a mobile telephone, if the buffer element is intended to form part of the electrical shielding of the device housing. With normally non-conductive elastic materials such as rubber, electrical conductivity can be achieved, for example, by embedding carbon fibers or steel wool.

Furthermore, there is the possibility within the scope of the invention to manufacture the buffer element from a thermally shrinkable material. The display can then, for example, be inserted into the flexible buffer element during assembly, whereupon the buffer element is then shrunk onto the display by a hot air fan. This offers the advantage that the shrink-on element forms a reliable mechanical connection to the display after being shrink-fitted, thereby preventing a later displacement of the display relative to the buffer element.

The buffer element is preferably mechanically pretensioned in the assembled state in order to be pretensioned by the pretension to fix the bracket. The prestressing of the buffer element is, however, preferably so low that the display yields to external force before the display is damaged.

In the preferred embodiment, the holder according to the invention has a receptacle in which the display is inserted. This receptacle is comparable to the metal frame mentioned at the beginning in the description of the prior art, but the display in the holder according to the invention is not rigidly connected to the receptacle in order to avoid damage to the display in the event of external force or twisting of the receptacle.

The receptacle is preferably frame-shaped, the outer edges of the display resting on an inside of the frame-shaped receptacle. The display is preferably fixed in the receptacle by a cover plate which is inserted into the receptacle in a similar manner to the display and holds the display in the receptacle.

In this case, a buffer element is preferably arranged between the cover plate and the display, so that the display can yield from outside to inside when an external force is applied.

In addition, the buffer element is preferably also arranged at least partially laterally next to the display, so that the display can also yield laterally when transverse forces occur. Further, the buffer member may also partially be disposed on the side remote from the cover plate side of the display between the display and recording, by a yielding of the display also allow ^'outwardly, thereby further reducing the risk of damage.

In a variant of the ^'invention, the Schut-z to damage is further enhanced by the buffer member encases the side edges of the display completely, so that the display is mounted in a floating motion in all degrees of freedom.

This all-round floating mounting of the display can be structurally achieved in that an essentially plate-shaped buffer element is provided which has a protruding edge, a circumferential groove being arranged in the edge on the inside for receiving the side edges of the display. In this embodiment, the side edges of the display rest in the assembled state in the circumferential groove of the buffer element, so that the display can be moved in all directions.

The side edges of the display preferably form an interference fit with the circumferential groove in order to avoid undesired displacement of the display during assembly. The thickness of the buffer element is preferably approximately equal to the thickness of the display, which represents a good compromise between the space requirement on the one hand and the buffering capacity on the other. The display or the cover plate is preferably fixed in the receptacle of the holder according to the invention by means of a snap lock which has a resilient snap hook. This type of mounting has the advantage that the display can be installed or removed quickly and without tools.

drawings

Further advantages result from the following description of the drawing. Exemplary embodiments of the invention are shown in the drawings. The drawings, description, and claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into useful further combinations.

Show it:

1 shows an embodiment of a holder according to the invention for a display,

Fig. 2 is a partial view of a modified embodiment with improved shock absorption. For the display against lateral forces as well

Fig. 3 is a partial view of another embodiment with all-round shock absorption for the display. Description of the embodiments

Figure 1 shows a cross section through a holder according to the invention with a holding unit 12 for a display 1 of an electronic device, such as a handheld power tool or a locating device.

In this case, an opening with edges 2, 3 is arranged in the housing of the device, the opening being adapted to the display 1 so that the user can view the display 1 through the opening in the housing.

In addition, the edges 2, 3 of the housing opening also serve to fasten the holder according to the invention in the housing, as will be described in more detail below.

To fix the display 1 in, the holder according to the invention, a frame-shaped receptacle 4 is provided which has a circumferential recess on its outside, in which the edges 2, 3 of the housing opening lie in the assembled state. The edges 2, 3 of the ^' housing opening are flush on the outside with the outside of the receptacle 4, so that there is an optically flowing transition at the joint between the receptacle 4 and the edges 2, 3 of the housing opening.

The fixing of the retainer 4 at the edges 2, 3 of the housing opening is preferably effected by gluing, but other fastening methods are possible, such as a _{'erschraubung,} pressing or riveting. In this case, a protective glass 5 is inserted from the inside into the receptacle 4, the receptacle 4 having an inwardly projecting, circumferential projection 6 which holds the protective glass 5 in the frame-shaped receptacle 4. The protective glass 5 is also flush on the outside with the edges 2, 3 of the housing opening and the outside of the receptacle 4, which creates a pleasing visual impression.

When installing the holder according to the invention, the display 1 is then inserted into the receptacle 4 after the protective glass 5 has been inserted.

Subsequently, a likewise plate-shaped buffer element 7 made of foam is inserted into the receptacle 4, the buffer element 7 allowing the display 1 to yield inwards when the protective glass 5 is subjected to external force and thereby largely preventing the display 1 from being damaged by external forces.

Finally, a cover plate 8 is then inserted into the receptacle 4 during assembly, which presses the buffer element 7 and thus also the display 1 inwards onto the inside of the receptacle 4, as a result of which the display 1 is largely spatially fixed in the holder.

The cover plate 8 is fastened here by a snap lock, which consists of a resilient snap hook 9 and a projection 10 formed on the receptacle 4. During assembly, the cover plate 8 is thus first of all - with reference to FIG introduced that a ^' side edge of the cover plate 8 is below the projection 10. Then the opposite side edge of the cover plate 8 is then pressed into the receptacle 4 until the snap hook 9 engages.

The exemplary embodiment shown in FIG. 2 largely corresponds to the exemplary embodiment described above and shown in FIG. 1, so that the same reference numerals are used in the following for corresponding components and reference is largely made to the above description of FIG. 1.

The peculiarity of this embodiment consists essentially in that the display 1 does not extend over the entire width of the receptacle 4, a resulting lateral gap 11 between the display 1 and the receptacle 4 being partially filled by the buffer element 7 has a circumferential edge which projects outwards into the gap 11.

This has the advantage that the display 1 can yield laterally in the event of transverse forces, which reduces the risk of damage from external forces.

Finally, the exemplary embodiment shown in FIG. 3 largely coincides with the exemplary embodiment described above and shown in FIG. 1, so that the same reference numerals are used in the following for corresponding components and reference is largely made to the above description of FIG. 1. The peculiarity of this exemplary embodiment is that the peripheral side edges of the display 1 are encased completely and on all sides by the buffer element 7. For this purpose, the buffer element 7 also has an edge on its outside which projects into the gap 11 between the display 1 and the receptacle 4. In addition, this edge has a circumferential groove 13, in which the side edges of the display 1 are embedded.

This has the advantage that the display 1 is shock-absorbent on all sides, which minimizes the risk of damage from external forces.

The groove 13 in the buffer element 7 forms an interference fit with the side edges of the display 1, as a result of which the display 1 forms a unit with the buffer element 7 and can therefore be easily assembled and disassembled.

reference numeral

1 display

2 edge of the housing opening

3 edge of the housing opening

4 Recording for display

5 protective glass

6 head start

7 buffer element

8 cover plate

9 snap hooks

10 head start

11 gap

12 holding unit

13 groove

Claims

Expectations

1. Holder with a holding unit (12) for fastening a display (1), in particular for fastening a display (1) in a housing of an electronic device, characterized in that the display (1) in the holding unit

(12) can be stored floating in at least one degree of freedom of movement.

2. Holder according to claim 1, characterized in that the display (1) in the holding unit (12) is floating in several degrees of freedom.

3. Holder according to at least one of the preceding claims, characterized in that the holding unit (12) for damping and / or cushioning mechanical forces has a buffer element (7).

4. Holder according to claim 3, characterized in that the buffer element (7) at least partially from a both resilient and damping material and / or from an antistatic material and / or from an electrically insulating material and / or from an electrically conductive material and / or consists of a thermally shrinkable material.

5. Holder according to claim 3 or 4, characterized in that the buffer element ^• (7) is biased in the assembled state.

6. Holder according to at least one of the preceding claims, characterized by a receptacle (4) in which the ^■ display (1) is inserted.

7. Holder according to claim 6, characterized in that the display (1) in the receptacle (4) by a cover plate (8) is attached.

8. Holder according to claim 7, characterized in that the buffer element (7) is at least partially arranged between the cover plate (8) and the display (1).

9. Holder according to at least one of claims ^' 6 to 8, characterized in that the buffer element (7) is arranged at least partially laterally between the display (1) and the receptacle (4).

10. Holder according to at least one of claims 6 to 9, characterized in that the buffer element (7) is arranged at least partially on the side facing away from the cover plate (8) between the display (1) and the receptacle (4).

11. Holder according to at least one of the preceding claims 3 to 10, characterized in that the buffer element (7) - the side edges of the display (1) completely encased.

12. Holder according to claim 11, characterized in that the buffer element (7) has an edge in which a circumferential groove (13) for receiving the side edges of the display (1) is arranged.

13. Holder according to at least one of claims 7 to 13, characterized in that a snap lock (9, 10) is provided for fixing the display (1) and / or the cover plate (8) in the receptacle (4).

14. Device with a holder according to at least one of the preceding claims.