DE3805815A1 - Housing for a pressure sensor indicator device, especially for measuring air-bottle pressure in diving gear - Google Patents

Abstract

Housing for a pressure sensor indicator device, especially for measuring air-bottle pressure in diving gear. Traditional housings for a pressure sensor indicator device require a considerable constructional cost in order to ensure corresponding sealing to the exterior. The housings are also sensitive to shock under certain conditions. In the event of penetration by oxygen overpressure, they can burst, in particular in diving technology. These disadvantages are overcome by the fact that the housing (1) comprises a housing body and housing jacket (7), which can be closed with a cover and bottom (5), preferably by using sealing elements (13), the housing (1) thus formed being jacketed or surrounded by means of a flexible body (35). This flexible body (35) moreover also holds the cover and/or bottom (5) on the remaining housing body or housing jacket (7). The housing is suitable for all applications, including measuring air-bottle pressure in diving technology. <IMAGE>

Description

The invention relates to a housing for a pressure sensor Display device, in particular for measuring the air fla pressure in diving equipment according to the generic term of An saying 1.

Pressure gauges, especially piezoresistive pressure gauges used in a wide variety of areas. As an application areas, for example, are not only used for pressure measurements of industrial process engineering, for controlling Ar workflows, but also measurements of the Blood pressure or water and thus low pressure with diving equipment.  

In a known pressure measuring device, this is at example, on a branch of a pressure line closed. The sit in the branched pressure line piece sensor can then measure the hydraulic pressure, whereby in the housing sealed from the pressure sensor the electronics including a display device optical representation of the measured pressure housed is. The display can be analog but also digital The housing has at least in the area of the An display device, a clear view of the display transparent material that enables furnishing, for example, glass or plastic.

The design effort of such devices is still comparatively large today, where the devices are not the safe in all cases offer.

The object of the present invention is therefore a To provide a housing for a pressure sensor display device, which in particular also for measuring the air bottle pressure in the diving technique is suitable, and the low con structural effort offers maximum security.

The task is according to the invention in accordance with solved claim 1 specified features. Favorable off designs of the invention are in the dependent claims given.

The structural design is achieved by the present invention a housing especially for a pressure sensor Lich a display device compared to the state of the art nik drastically simplified and above all the assembly times significantly reduced compared to conventional solutions.  

The housing consists of a housing body or casing, e.g. via an attachable lid and / or Floor is assembled into a complete unit. The the whole arrangement is then embedded in an elastic body tet or encased by the elastic body, over which then also the necessary preload on the removable cover or soil is applied. The entire assembly is there through extremely simple. Because it doesn't become a sweat process, for example screwing in screws needed to seal the housing. The elastic body also serves to protect the entire housing arrangement including the ad setup and associated electronics from solid impacts and shocks stanchions, so that the housing according to the invention for a pressure sensor display device even with particularly coarse and harsh operating conditions can be used without any problems.

In a preferred embodiment, it encompasses and covers the elastic body at least the abutting edges of the housing ses, i.e. the transitions between the casing shell and the cover or floor.

The present invention amazingly and safety with little construction effort also for special applications such as diving technology improved where the air pressure to be measured in the guided air or oxygen bottles to be relatively high can (for example up to 300 bar). Even with the best Ab sealing methods between the pressure measuring and sensor room, in which the sensor is arranged and pressurized with the pressure medium is struck, and the housing interior, in which, for. B. the Electronics and the display device are housed however, a 100% seal guarantee cannot be achieved. Each  Sealing sets in here, albeit with little risk. Because with the smallest leak between the sensor and housing the interior could be in the interior of the housing the seal diffuses through and into the housing pressure medium slowly entering the interior build until it bursts the glass or plastic body comes, which protects the display device. But this poses represents a not negligible danger for the user, who often leads the pressure gauge close to the face and the therefore from the splinters of such an explosive Zerber could be taken immediately.

The housing according to the invention counteracts this, in which it implicitly built like a pressure relief valve is. Because with increasing pressure inside the housing the lid or with a corresponding construction can also the floor against the force of the surrounding the housing "Lift off" the elastic body until there is sufficient lifting movement then a connection to the outside is created and the overpressure can flow off. The preload over the Elastic body is set so that the pressure before Er a certain burst pressure, especially that Visible material existing housing part, below the the display device sits, lifts the lid and / or bottom.

The main advantages of the housing according to the invention lie conditions in the simple construction and the simple Assembly, whereby at any time even with technical De the case can be opened again and thus the internal electronics and the display device still accessible are, especially because of the elastic body as the outside additional protection is guaranteed. Since that Housing also acts as a pressure relief valve, will also be new Areas of application as developed in diving technology.  

The entire structure of the housing construction is also suitable for one-sensor operation, e.g. for an air bottle pressure measurement with diving equipment. But it can also be two Sen lying on opposite ends of the housing sensors are provided, with the one sensor of what pressure is measured and thus a depth measurement is feasible, and at the opposite sensor the air pressure is measured, which on this sensor via an ent speaking approach connectable pressure hose is present. Exactly it is possible that e.g. both sensors in the same housing lid are housed.

Further advantages, details and features of the invention result from the following based on drawings illustrated embodiment. Show in detail

Fig. 1 is an extremely schematic perspective Dar position of the housing according to the invention for a pressure sensor display device;

Fig. 2 is a schematic longitudinal sectional view through the housing shown in Fig. 1 with the display device and a pressure sensor arrangement.

In the drawings, a housing is denoted by 1 , in which a display device 3 for displaying the measured pressure is accommodated. In the exemplary embodiment shown, the display device 3 consists of a digital display which, in addition to the measured pressure, can also display, for example, a diving time duration.

The housing 1 consists of cover or floor-like end walls 5 , which are held and centered by the remaining housing body part in the form of a housing cylinder 7 .

In the exemplary embodiment, the housing cylinder 7 consists entirely of a transparent material, for example made of glass or plastic, in order thereby to allow a clear view of the display device accommodated in the housing 1 .

The housing interior 10 formed in this way, in which the display device including associated electronics is placed under, is sealed to the outside. For this purpose, on the end walls 5 inner sealing lugs 9 are provided, in which 11 sealing rings 13 are inserted in a corresponding annular groove.

In the exemplary embodiment shown, a tube extension 15 is formed on the left end wall 5 , to which, for example, a pressure hose can be connected, in which the pressure medium to be measured is present. The pressure hose can, for example, lead to an oxygen bottle, as is usually carried during a diving operation.

In the interior of the tube extension 15 , a so-called sensor pressure chamber 19 is formed, in which a sensor 21 , for example a piezoresistive pressure sensor, is accommodated. This sits in the illustrated embodiment on a pot-shaped carrier 23 preferably made of insulating material such as plastic or ceramic.

The sensor 21 consists of a measuring cell with upper measuring membrane 25 , which comprises an encircling base to form an inner closed cell, via which the measuring membrane 25 is connected to an underlying base plate 27 . With regard to the further construction of such a pressure sensor, reference is made, for example, to DE-OS 35 00 616.

In the exemplary embodiment shown, the sensor is provided with a laterally extended extension, by means of which it rests on the bottom of the pot-shaped carrier 23 . From connection points not shown in detail on the upper measuring membrane branch level, connecting lines 29 go out, which finally lead to the display device 3 in the housing interior to the electronics housed there. For this purpose, a passage opening or a slot is made in the pot-shaped support 23 , through which the connecting lines 29 are passed. The measuring membrane is adjacent to the connection points, from which the connecting lines 29 hen out, provided with a protective layer, for example made of glass, and filled in the height of the cup-shaped support 23 with potting compound and insulated. The through opening 32 in the left end wall 5 can be at least partially filled with additional sealing compound 31 as additional protection.

For example, if at the same time the ambient pressure, ie in the illustrated and explained embodiment, for example, the water pressure and thus the depth pressure is measured and displayed, z. B. on the opposite right end wall 5, a sensor arrangement 33 which is similar in principle can be used, which is why a free access to the outside via a further in the connecting piece a pushed, provided with a passage-shaped cover to protect the underlying sensor 33 is provided is.

As can be seen from FIG. 1, the housing 1 is accommodated in an elastic body 35 made of elastic material, for example rubber. For this purpose, the elastic body 35 has a rectangular opening 37 formed in the jacket area, below which the display device 3 is visible. The opening 37 is dimensioned such that the entire housing including the sensors accommodated in the connecting piece can be inserted. For this purpose, the elastic body 35 also has corresponding through openings on its end faces, so that the connecting pieces with the sensors can protrude here. When using a Ge housing body with only one pressure sensor, for example on the left neck, not only the end wall 5 of the Ge housing 1 and, for example, the glass housing cylinder 7 , but also the elastic body 35 can be closed. For the sake of simplicity, the bellows or rib-shaped structure of the elbow body 35 is not shown in FIG. 1.

A prestressing force is also generated by the elastic body 35 , by means of which the opposite end faces 5 with their centered shoulders are pressed onto the housing cylinder 7 . In this position, a complete seal from the outside is guaranteed.

Should, however, in case of use, especially when measuring high pressures, the seal in the area between the sensor pressure chamber 19 and the housing interior 10 be defective, so that an inside pressure, if only slow, could build up in the housing interior 10 , which in itself Exceeding a certain pressure, the bursting of the glass or plastic material consisting of transparent Ge housing cylinder 7 would have the consequence, it is ensured by the construction construction explained that at least one of the two end walls 5 is shifted outward in the manner of a cover under the increasing pressure and is virtually lifted until the sealing rings 13 are no longer effective sam and the excess pressure can escape to the outside.

For safety reasons, this opening pressure is far below half the burst pressure of the housing cylinder 7 .

It is sufficient if only one housing part, for example either only the bottom or only the lid in the ge described sense is constructed and held evasively, to relieve excess pressure.

In addition, not only the cylinder and the associated end walls 5 are held together via the rubber bellows, but, above all, good protection against impacts from outside or when the entire device is dropped is ensured overall.

Installation is also extremely simple. First, one or possibly both sensors are mounted on the end walls, connected and poured out. After the base or cover, that is to say the end walls, are then fully assembled, the prepared electronics with the sensor or sensors connected are inserted into the housing cylinder 7 and the preassembled end walls are put on, thereby closing the housing.

Finally it should be mentioned that as material for the housing, i.e. especially for the opaque End walls corrosion-resistant materials are preferred for example, those made of appropriate steel alloy there exist.

The prestressing force with which the bottom or cover, that is to say the two opposite walls 5, are pressed onto the housing shell 7 , can be adjusted within wide limits by appropriate selection of the elastic body 35 . If a desired preload is not sufficient, other aids can also be used.

For the sake of completeness, it is noted that other sensors known from the prior art can also be installed in the sensor space for the sensor 27 , which differ from the sensor 27 explained in the exemplary embodiment shown.

Claims (14)

1. Housing for a pressure sensor display device, in particular for measuring the air bottle pressure in diving equipment, with a display device ( 3 ) accommodated in the outside sealed housing interior ( 10 ), with a housing wall consisting of transparent material at least in the area of the display device ( 3 ) ( 7 ), and with at least one sealed passage opening ( 32 ), preferably provided in a housing end face ( 5 ), electrical connection lines ( 29 ) from the display device ( 3 ) to the outside of the sealed housing interior ( 10 ) via this sealed passage opening ( 32 ) ) angeord Neten and pressurizable with pressure medium pressure sensor ( 21 ), characterized in that the Ge housing body or shell ( 7 ) with a cover or bottom ( 5 ) preferably using sealing elements ( 13 ) can be closed, and that the housing ( 1 ) thus formed by an elastic body ( 3 5 ) is encased or surrounded, by means of which the cover and / or base ( 5 ) remain on the housing body or casing ( 7 ). 2. Housing according to claim 1, characterized in that the elastic body engages at least the abutting edges of the housing ( 1 ). 3. Housing according to claim 1 or 2, characterized in that the elastic body ( 35 ) consists of a continuous piece. 4. Housing according to one of claims 1 to 3, characterized in that the housing interior ( 10 ) enclosed by the housing ( 1 ) is provided with an outwardly leading pressure valve arrangement ( 1 ; 5 to 13 ) when a pressure below the burst pressure of the housing wall ( 7 ) made of transparent material is reached, the pressure opens automatically. 5. Housing according to one of claims 1 to 4, characterized in that the pressure relief valve arrangement ( 1 ; 5 to 13 ) in the region of the end wall ( 5 ) or the end walls ( 5 ) is or are on to which or to which a sensor ( 21 , 33 ) can be connected. 6. Housing according to one of claims 1 to 5, characterized in that against the force of a Federeinrich device movable valve body ( 5 ) from the cover ( 5 ) or bottom ( 5 ) of the housing ( 1 ), which has an approach ( 9 ) is connected to the remaining housing ( 1 ) and held above it, and which in the event of excess pressure in the housing interior ( 10 ) in the sense of lifting off relative to the remaining part of the housing body ( 7 ) with the release of an overpressure flow path from the outside to the outside. , slidable or ver is pivotable. 7. Housing according to claim 6, characterized in that the projection (9) of the valve body (5) is designed as a sealing shoulder (9) are provided on which between the extension (9) and housing body (7) acting sealing elements (13). 8. Housing according to one of claims 1 to 7, characterized in that an additional spring element for preloading the valve body ( 5 ) in the closing direction in the housing interior ( 10 ) is housed. 9. Housing according to one of claims 1 to 8, characterized in that the elastic body ( 35 ) consists of elastomers, rubber or rubber-like material. 10. Housing according to one of claims 1 to 9, characterized in that the biasing force of the valve body ( 5 ) is adjustable in the closing direction via a corresponding choice of the elastic body ( 35 ). 11. Housing according to one of claims 1 to 10, characterized in that in the elastic body ( 35 ) a view opening ( 37 ) is preferably provided in the peripheral jacket, below which the display device ( 3 ) is arranged to be freely visible. 12. Housing according to one of claims 1 to 11, characterized in that in the elastic body ( 35 ) a sufficiently large opening ( 37 ) for inserting the housing ( 1 ) or for putting the elastic body ( 35 ) over the Ge housing ( 1 ) is provided, which is preferably also suitable as a viewing opening for the display device ( 3 ). 13. Housing according to one of claims 1 to 12, characterized in that the elastic body ( 35 ) consists of a fal ten- or beam-like rubber element. 14. Housing according to claim 13, characterized in that the fold-like or beam-like elastic body ( 35 ) engages around the outer contour of the housing ( 1 ) over the entire surface.