DE4036994A1 - Display in form of electrical-electronic instrument - has setting gel filling part of housing contg. electrical parts, and separate housing part for display LCD - Google Patents

Abstract

A display device in the form of an electrical/electronic instrument has a display (11), pref. a LCD, with electrical and electronic components (15, 17), a press. sensor (19) and connections for a battery or with a preconnected battery mounted in a housing (1) allowing liquid press. to act on the press. sensor. The housing contains a setting gel (23) which protects the electrical connecting cables and/or components. The housing interior is divided (9`, 9") and the display device is mounted beneath a transparent housing wall without being embedded in setting gel. At least the press. sensor is mounted in a separate part (9") of the housing interior (9) contg. the setting gel. USE/ADVANTAGE - Diver`s computer. Display remains clearly visible despite use of a setting gel inside housing.

Description

The invention relates to a display device according to the Oberbe handle of claim 1.

Display devices as electrical / electronic instruments, especially as dive computers are in large numbers today produced. You can compare it to a wristwatch on hand be worn joint. There is a printed circuit board inside the housing provided on which all electronic components including the Microprocessor, the pressure sensor and a display device, usually in the form of a liquid crystal display, assembled and are held.

In order to reduce the manufacturing effort, a large Part of the dive computers manufactured today the electronics with the Liquid crystal display and the other electronic components with a gel-like potting compound, namely a silicone gel, ver poured. So all the electronics are in front of the liquid, d. H. protected from the water. With the silicone gel, however Water pressure let through to the pressure sensor.

In the potting process, however, care must be taken that no air bubbles between the liquid crystal display and the adjacent transparent housing wall occur. About that in addition, the potting compound must also at all temperatures Adhere well to the housing wall and the liquid crystal surface, otherwise disturbing reflection effects also occur in this way occur that affect the good readability of the liquid crystal display pregnant.  

However, this always raises problems in practice because a production without inclusions of air bubbles during the Manufacturing process or the later removal of layers the sealing compound from the inside wall of the housing or the liquid crystal stall display while using the dive computer under The formation of annoying bubbles is not always sufficient Let security be achieved.

A corresponding casting process is used with which fundamentally improved results let it aim. Due to the considerable increase associated with it However, this method leads to significant cost increases hung.

The object of the present invention is therefore the After parts to overcome according to the prior art and a display device as an electrical / electronic instrument, in particular to create for a dive computer, which despite the Ver application of a gel-like potting compound in the interior of the housing un brought display device, in particular the liquid crystal stall display is always perfectly visible.

The task is according to the invention in accordance with the claim l specified features solved.

With the present invention can be amazingly simple and way are always guaranteed that the in the Tech The disadvantages of air inclusions in the silicone Mass between the liquid crystal display and the transparent Housing wall can always be avoided safely, otherwise nevertheless, the use of a sealing compound for sealing the circuit board and the electronic components Lich the pressure sensor can be recorded, which is fundamentally Lich has the advantage that no elaborate you measures must be provided and based on the prior experience, there are no leakage problems.  

The display device according to the invention is not suitable only for diving instruments, for example for measuring pressure how to measure the diving time, especially in the sense of a Dive computers to display the decompression conditions, son different instruments, such as flight instruments, e.g. B. Display instruments for skydiving ger, paraglider or other professionally employed or free time instruments, also before water, splashing water and / or other environmental influences must be protected.

According to the invention, this is ensured in that the housing interior is divided into two, with one part of the housing inside the display unit housed without casting is, and only in the other housing interior potting se is applied to the seal. In this latter Part of the interior of the housing is at least the pressure sensor housed.

In a particularly preferred embodiment of the invention the ladder as a partition for the two interior spaces circuit board itself can be used, which can be designed that the maximum pressures of z. B. stood up to 10 bar holds. This is preferred on a circumferential shoulder edge fitted on. You can take specific measures there attached, for example glued.

In a development of the invention, the secure fit of the Printed circuit board and the corresponding seal of the un poured housing space solely by using the in the a potting compound introduced into the interior of the housing.

Otherwise, in a further development of the invention, preference is given to circumferential edge of the board to which the display device on taking detail space provided a seal, for example  example from an adhesive or another seal used ring, for example made of Teflon. Should be on sepa rate sealing measures are waived, so is a support tongue of the circuit board on the housing wall preferably before seen that for example on the housing wall in the transverse cut triangular tapered edge is formed, which turns out to be Sealing edge on the plane-parallel side near the circumference edge of the circuit board digs into it.

The other required electronic components can NEN both on the underside cast with the potting compound as well as on the potting compound-free and the display device receiving top of the housing interior be.

Finally, in a preferred development of the invention a liquid sensor can also be accommodated. This um holds two wires that are under the immersion of the dive computer the water surface can be wetted with the water.

These liquid sensor wires are preferably in a housing bore located in the direction of the housing wall, below which the liquid crystal display is also arranged. However, the connecting wires are in a side housing wall section housed separately from the display device-receiving non-encapsulated part of the housing interior space.

One for the operation of the display device according to the invention required battery is also covered by the sealing compound.

Further advantages, details and features of the invention result are described below from the drawings Embodiments of a dive computer. Here show in a individual:

Figure 1 is a schematic cross-sectional view of an inventive display device for a dive, in particular a diving computer.

Figure 2 is a fragmentary schematic partial cross-sectional view through a modified embodiment example.

FIG. 3 shows a supplement to FIG. 2 with an additional water sensor;

Fig. 4 shows a further schematic modification in excerpt cross-sectional representation.

In Fig. 1 is a schematic cross-sectional view of a diving computer is shown, which for example may be formed in wristwatch size (slightly larger or) in principle and comprises a housing 1, which includes at least one transparent upper housing wall 3. Basically, the entire Ge housing wall can be formed from plastic material, which is made transparent overall and optionally internally at the positions where the externally visible display device is not housed, is deposited and covered with non-transparent materials from the inside. This applies in particular to the cover 1 'to protect a pressure sensor mentioned later against incidence of light.

Inside the housing 1 , a circumferential step paragraph 5 is formed, on which a circuit board 7 is supported and hold the z. B. withstands a maximum pressure of up to 10 bar.

The circuit board 7 also serves as a partition for an upper part 9 'and a lower part 9 ''of the housing interior 9 .

In the upper part of the housing interior is a device 11 , usually a liquid crystal display, housed, the liquid crystal display, for example, via 16 left and 16 right seated pins or legs 13 on the printed circuit board can be plugged in and electrically connected.

In the embodiment shown, on the underside, that is, in the lower part 9 '' of the housing interior 9, the electronic construction elements and components 15 , a battery 17 and, above all, a pressure sensor 19 , usually a piezoresistive pressure sensor with a pressure measuring cell and located on the pressure membrane Wi resistors connected and held, the resistors located on the pressure membrane of the pressure sensor 19 being connected via measuring lines 21 to the conductors located on the printed circuit board 7 . In the exemplary embodiment shown, the active and / or passive electrical elements 15 are only shown by way of example using a single component 15 , it being possible for these electronic components to be connected sitting not only on the underside of the circuit board, but equally or alternatively also on the upper side of the printed circuit board 7 . In this case, however, they are preferably mounted below the display device 11 lying on, so that they are covered by the platelet-shaped display device, which is itself not transparent.

In the exemplary embodiment shown, the printed circuit board with all the electronic components located on it is now covered liquid-tight by a gel-like sealing compound 23 and thus the essential part of the lower housing interior 911 is poured out liquid-tight, so that the entire electronics and the display device are liquid and waterproof shielded from the outside.

About a lid attached to the lower circumferential edge of the housing 1 '' (hereinafter, the housing 1 and the cover 15 are also referred to as housing parts or housing halves 1 'and 1 '') can penetrate through openings 27 provided therein to the surface of the sealing compound 23 water , whereby the water pressure penetrates through the gel-like potting compound 23, which is usually made of silicone gel, without problems and without adultery to the pressure sensor.

The circuit board 7 can be held in the seat shown in the drawing solely by the potting compound 23 . If necessary, however, the circuit board 7 can also be anchored and / or sealed by other suitable measures on the step heel 5 , for example glued.

Due to the design shown, the display device 11 receiving part 9 'of the housing interior 9 is completely ungos, so that the display device 11 is always easily and optimally visible from the outside by this measure.

From the schematic cross-sectional representation of the dive computer according to the invention it can be seen that it is also designed with a liquid sensor 29 for water detection. This sits in a bore 31 in a housing section 4 , which sits laterally to the printed circuit board 7 , ie above all outside the upper part 9 receiving the display device 11 'of the housing interior 9 . The at least two connecting lines 33 lead through an extended section of the bore 31 in the Ge housing section 1 'on the peripheral edge of the circuit board 7 adjacent to the step 5 and are electrically connected to the bottom of the circuit board 7 to this.

The remaining below the liquid sensor 29 unfilled te 31 is also encapsulated by the gel-like potting compound 23 from below.

Such a liquid sensor 29 , for example, the dive computer in particular or a display device such. B. to automatically display the water pressure and / or the dive time in general when immersed in water who the.

In the exemplary embodiment shown, the aforementioned battery 17 is completely encapsulated with the casting compound. By means of such a battery, for example, a diving computer can be operated for up to 10 years with übli chem use. If necessary, however, the potting compound can be cut open and removed at least in the area of the battery and a new battery inserted and then the opened area can be potted again with gelar-term potting compound 23 .

In the following, reference is made to FIGS . 2 and 3, in each of which the end section is explained in the cross-sectional illustration with reference to a modified exemplary embodiment.

In the embodiment according to FIGS. 2 and 3, the housing 1 is joined together with the cover 25 via a snap closure 41 , deviating from FIG. 1, preferably at the peripheral wall region of the dive computer, so that the cover and the remaining housing part are approximately the same height are or for example se can have a height of 1/3 to 2/3 or 1/3 to 3/4 etc.

For this purpose, a circumferential groove 43 is made in the housing 1 , in which a corresponding triangular spring 45 in the exemplary embodiment shown can snap over a tongue edge region. In the exemplary embodiment shown, the can-shaped cover is colored opaque in order to protect the pressure sensor 19 , which may be sensitive to light, from incidence of light.

In this embodiment, all electronic components and components 15 including the battery 17 are placed in the un-molded upper part 9 'of the housing interior 9 , with the exception of the pressure sensor below. The electronic components and components 15 can be connected, for example, as surface-mountable components (surface mounted device SMD) on the printed circuit board 7 .

A processor 16 (chip on board) can also be provided.

In the exemplary embodiment shown, a step shoulder 47 and thus a further step step 49 are also formed on the printed circuit board on the upper housing part 1 , via which the sealing seat for sealing the non-molded part 9 'of the housing interior 9 is to be ensured. In order to ensure at high water pressures that potting compound can penetrate into part 9 ', suitable sealing measures can be provided on this sealing seat 51 . For example, the circuit board can be anchored in a sealing manner with a circumferential adhesive layer. In the exemplary embodiment shown, a suitable umlau fende sealing lip or a sealing ring 53 is provided, namely from a suitable material, such as Teflon. Teflon is something repellent.

Finally, in the embodiment shown, spaced ribs 55 are formed on the inside of the can-like cover 25 , which hold the printed circuit board 7 firmly in its sealing seat when the snap closure 41 is pressed when the two housing halves 1 and 25 are joined together from the underside.

In order to facilitate the casting process, is filled with down wei rently field of view via the passage opening 27 through which the currency rend of Vergießvorganges flowable silicone gel. So that no air pockets can remain, as shown in Fig. 2, an outlet channel 57 is provided in the upper housing part 1 , with the peripheral edge 59 of the printed circuit board 7 at the same distance from the corresponding inner wall of the associated housing part, ie the housing cover 1 , ends , so that the air can flow out between the distances between the individual ribs 55 , the distance between the peripheral edge 59 and the inner wall of the housing and via the outlet channel 57 and up to the sealing seat 51 or the sealing lip 53 which may be provided there, the entire space completely with the gel-like casting compound can be poured.

At least one further such outlet channel 31 is also provided at a point in the housing part 1 at which the liquid sensor 29 is mounted for automatically switching on the device in a corresponding bore. This can be used later and additionally secured, for example, with a circumferential sealing ring 61 . But it is also possible to surround it with a material ring surrounded by the outside with the outer shape, comparable to the seal 61 , so as to inject it into the corresponding housing part.

In order to ensure in any case that the rear connecting wires 33 are not affected during the dive (which could happen, for example, if air pockets remain, into which the silicone can then form due to urgent water droplets), is secure provides that the corresponding bore 31 , in which the liquid speed sensor 29 sits, opens into the outlet channel 57 and therefore the underside of the liquid sensor 29 including its connecting wires 33 are completely encapsulated with the gel-like casting compound Ver.

The illustrated embodiment offers a high assembly advantage and, above all, an always optimal seal of the non-encapsulated part 9 'of the housing interior 9 . Above all, however, the Ver pouring can be poured in a simple process over the pressure and, if appropriate, the provided liquid sensor and on the circuit board underside provided electrical and electronic parts and components. A complex and complicated potting process, especially under vacuum, is not necessary.

In Fig. 4 only a simplified modification is shown insofar as neither a separate sealing lip nor an adhesive nor a plane-parallel seat of the printed circuit board on the corresponding section of the housing part 1 is provided for the sealing seat 51 , but rather a circumferential, cutting-like sealing edge 65 , which is located at firm joining of the housing parts into the adjacent plane of the printed circuit board 7 can at least in the minimum area and thereby automatically contributes to an improved sealing fit.

Finally, it is noted that as a further protection against water vapor in the part 9 'of the housing interior 9 , a hygroscopic pill can be inserted before the potting and if necessary anchored, in order to avoid possibly occurring water vapor in the long term. Such hygroscopic pills are widely used in technology, for example also with binoculars or as a shipping protection measure when shipping optical and opto-electronic and other electronic devices.

Claims (24)

1. Display device as electrical / electronic instruments, in particular dive computers with a display device ( 11 ), preferably in the form of a liquid crystal display, with electronic and electrical components and components ( 15 , 16 , 17 ), a pressure sensor ( 19 ) and a connection for a battery or with an already connected battery, which are accommodated in a housing ( 1 , 25 ′) that transmits the liquid pressure to the pressure sensor ( 19 ) and which is sealed with a gel-like casting compound ( 23 ) that allows the water pressure to pass to the pressure sensor ( 19 ) is cast to protect the electrical connection line and / or components, characterized in that
that the housing interior ( 9 ) is divided and in a part ( 9 ') of the housing interior ( 9 ) the display device ( 11 ) is arranged undamaged below a transparent housing wall, and
that at least the pressure sensor ( 19 ) in a separate part ( 9 '') of the housing interior ( 9 ) is housed in which the gel-like sealing compound ( 23 ) is introduced. 2. Display device according to claim 1, characterized in that the separation of the housing interior ( 9 ) in a non-cast and a potted part ( 9 ', 9 '') is carried out by means of a ge set partition. 3. Display device according to claim 2, characterized in that the partition from the printed circuit board ( 7 ) is formed. 4. Display device according to one of claims 1 to 3, characterized in that the printed circuit board ( 7 ) is designed for receiving the maximum permissible pressure. 5. Display device according to one of claims 1 to 4, characterized in that in addition to the pressure sensor ( 19 ), the further electronic components and components ( 15 , 16 , 17 ) all or only some of them in the potting-free part ( 9 ') or in that with the casting compound ( 23 ) poured out part ( 9 '') of the housing interior ( 9 ) are housed. 6. Display device according to one of claims 1 to 5, characterized in that the partition or the partition bil bil dende printed circuit board ( 7 ) on a in the housing interior ( 9 ) formed from circumferential step heel or flange ( 5 , 47 ). 7. Display device according to claim 6, characterized in that the partition or circuit board ( 7 ) on the circumferential step heel or flange ( 5 , 47 ) by the in the lower part ( 9 '') of the housing interior ( 9 ) is introduced potting compound. 8. Display device according to claim 6 or 7, characterized in that the partition or circuit board ( 7 ) is attached to the circumferential step heel or flange ( 5 , 47 ). 9. Display device according to claim 8, characterized in that the partition or printed circuit board ( 7 ) on the circumferential steps paragraph or flange ( 5 , 47 ) sealed, in particular glued. 10. Display device according to one of claims 6 to 9, characterized in that a circumferential seal ( 53 ) is provided between the circumferential step shoulder or flange ( 5 , 47 ) and the corresponding contact section on the partition or printed circuit board ( 7 ), which is preferably is made of Teflon. 11. Display device according to one of claims 1 to 10, characterized in that a liquid detection serve the liquid sensor ( 29 ) is provided which outside of the display device ( 11 ) accommodating non-encapsulated part ( 9 ') of the housing interior ( 9 ) is housed. 12. A display device according to claim 11, characterized in that the liquid sensor ( 29 ) in a non-potted part ( 91 ) of the housing interior ( 9 ) offset housing section ( 4 ) is housed. 13. Display device according to claim 11 or 12, characterized in that the liquid sensor ( 29 ) in a Ausneh tion or bore ( 31 ) is housed in a Lei terplatine ( 7 ) offset housing section ( 1 ') . 14. Display device according to one of claims 11 to 13, characterized in that the receptacle of the bore ( 31 ) for the liquid sensor ( 29 ) is offset from the step or circumferential flange for supporting the printed circuit board ( 7 ). 15. Display device according to one of claims 11 to 14, characterized in that the outgoing from the liquid sensor ( 29 ) connecting lines ( 33 ) outside the non-molded part ( 9 '') of the housing interior ( 9 ) on the level of the circuit board ( 7 ) up to one on the underside of the printed circuit board ( 7 ) in the potted part ( 9 '') of the housing interior ( 9 ) leads. 16. Display device according to one of claims 1 to 15, characterized in that the housing ( 1 ) consists of two housing parts len ( 1 ', 1 ''), which are preferably connected to one another in the manner of housing halves or half-shells. 17. Display device according to claim 16, characterized in that the two housing parts ( 1 ', 1 '') are connected to one another via a snap lock ( 41 ). 18. Display device according to claim 16 or 17, characterized in that the potted part ( 9 '') of the housing interior space ( 9 ) accommodating housing part ( 1 '') with the pressure sensor ( 19 ) provided therein is opaque, preferably is covered with an opaque color or coating. 19. Display device according to one of claims 16 to 18, characterized in that one of the cast part ( 9 '') of the housing interior ( 9 ) covering the housing part ( 1 '') is designed as a cover. 20. Display device according to one of claims 1 to 19, characterized in that preferably from the level of the printed circuit board ( 7 ) starting from an outwardly guided at least one exit channel ( 57 ) is provided, the process after the potting process after the exit the air is filled with the gel-like casting compound ( 23 ). 21. Display device according to claim 20, characterized in that the at least one outlet channel ( 57 ) from the pressure sensor ( 19 ) receiving part ( 9 '') of the housing interior ( 9 ) in a housing section ( 4 ) preferably at least with one of the circuit board ( 7 ) vertical component to an outlet mouth in the housing part ( 11 ) is guided. 22. Display device according to claim 20 or 21, characterized in that the outlet channel ( 57 ) is provided only in the housing section for the display device ( 11 ) comprising Ge housing part ( 1 '). 23. Display device according to one of claims 11 to 22, characterized in that the sealing compound extends to the underside of the liquid sensor ( 29 ) with complete inclusion of the outgoing and up to the printed circuit board ( 7 ) leading connecting wires ( 33 ). 24. Display device according to one of claims 20 to 23, characterized in that the at least one outlet channel ( 57 ) is guided at least up to over the lying in the interior of the housing exit points for the connecting lines ( 33 ) of the liquid sensor ( 29 ).