DE19860881C2 - Continuum pressure sensor - Google Patents

Description

The continuum pressure sensor has the task of Possibilities of creating fluids and granular matter in the technical area as well as in the field of sports metrological capture.

And for the cases where the fillers in at least two directly adjacent (arranged parallel to one another) Layers are placed.

Therefore, the structure of this sensor is that it min at least run in two layers and is used to this way also combinations of different fillers in to be able to record their damping effect.

These layers (see above), which are also referred to as sensor pockets (which consist of elastic material), serve

• a) to accommodate the pressure measuring cells and
• b) to absorb the fillers, their damping properties should be measured.

Possible fillers for the sensor pockets come either Fluids (e.g. water, air) or granular matter (e.g. flour, Foam, polystyrene) in question, depending on what is for the be appropriate purpose.

In technology and sports there are numerous situations in which either the pressure damping properties of fillers - even with parallel arrangement - should be known or in which it makes sense to pressure damping in several in parallel knowing layers arranged on top of each other.

This applies in particular to pressure damping measurements on the Surface of by a fluid or granular matter - or flow around bodies such. B. aircraft wing - and body, Window areas of high-rise buildings, antennas on television towers, as well as on the surface of bodies on a bump-like Acts as such. B. on impact of a (rod) high springers on the collecting mat when measuring Side impact forces during crash tests in automotive engineering (e.g. on or in car doors) or when a dummy hits the steering wheel or other parts of a car, truck or other Vehicles (also from the field of sport, e.g. racing bobsleigh); as well as the pressure damping caused by the forces who act on a diver if this immerse in water; the registered pressures in one such a case in a device for storing the pressure measurement values can be saved during the measurement in order to conclusion of the (sporty) exercise for evaluation.

In this context, the possibility of transfer should such measurements by radio signal during the exercise to the Evaluation electronics are also made possible.

The following three situations are examples of the State of the art for others in which the continuum Transfer pressure sensor in two or more layers can be applied sensibly.  

• a) Measurements on inflow or flow around aircraft wings and Bodies.
• b) When measuring (side) impact forces in a crash tests in automotive technology (e.g. on or in vehicle doors) to be as clear and as possible as possible in this way early signal for inflating an airbag too receive.
• c) In a multi-layer airbag, the pressure load should be measured during inflation and impact, for example to indicate "pressure peaks" hold.

An insight into the state of the art with regard to the above The following three writings can be used for positions give.

• a) Patent specification: DE 198 16 379 C1.
• b) Publication: DE 195 04 353 A1.
• c) Publication: DE 195 13 297 A1.

Patent specification DE 198 16 379 C1

This patent is about a "method and procedure direction for determining a state variable of a flow on the surface of a flowed body with the help of Luminescence ".

In this invention, the area in which the state size to be measured with an electroluminescent the layer on which an alternating electrical field acts. The emissi released by the substance onslicht allows the determination of a state variable.

If and if so, how it is possible with this invention, the pressure damping in several parallel to each other to determine ordered layers goes from the patent do not say beyond doubt.

Such measurements could be related to the over testing the function of multilayer constructions make sense.

Publication DE 195 04 353 A1 Deformation sensor

The aim of this invention is, with the help of a sensor, the its body is halved along the longitudinal axis straight circular cylinder, and so in the cavity of one Vehicle door is installed so that the cylinder curvature direction Door curvature is aligned as early as possible clear signal to inflate the airbag inside the vehicle to obtain.

The decisive factor in this context, its value decides on the deployment of the airbags, the An rate of increase of the internal pressure in the above sensor body by.

The sensor body was given the above shape according to the disclosure scripture because when using a band-like The technical effort involved in signal processing  with regard to the clear identification of a trigger signal would have been very high.

With a view to a possible simplification of the construction and possible weight savings of an airbag deployment sensor it should be noted that it makes sense to be operational of a band-like multilayer continuum pressure sors to investigate, for example, on the inner diago a vehicle door was attached.

It can be assumed that this sensor is already due to its Number of layers "automatically" more information for the signal processing offers and therefore the "decision-making process" can shorten for the deployment of the airbags. This applies ins especially with different fillings of the individual Sen sort pockets.

Publication DE 195 15 297 A1 Inflatable restraint and method for the same Manufacturing

In this invention, a three-layer airbag and a Process for its preparation described.

It is pointed out in the context of the description that the airbag system one or more sensors for Includes detection of a collision of the vehicle; however was not in this context due to their special order construction and its properties.

Furthermore, it was not mentioned whether there were additional sensors are present, with the help of impact pressures or their Attenuation can be measured in the individual airbag layers can.

This could then be indications for any necessary corrections the material selection and its thickness (thickness) give, as well as an indication of the quality of the Pa tent claim no. 5 of the above invention used FE analysis and the pressure distribution on the individual airbag layers display in the measured area.

The object of this invention is therefore as follows two points.

• a) Measuring a spatially "resolved" - since at least there are two rectangular layers that are printed measuring cells are equipped - pressure profile.
• b) Determination of pressure damping properties of the use fillers with which the elastic sensor pockets are filled.

These requirements are solved by the continuum pressure sensor according to claim 1. This sensor has at least two layers. Fig. 1 shows an example of a three-layer cuboid Kon tinuumsdrucksensor.

That is, the sensor consists of at least two elastic cube-shaped cavities lying directly on top of one another, which are equipped with pressure measuring cells (FIGS . 1/2, 3, 4) on the inside of their base.

The rest of the volume of the sensor pockets ( Fig. 1/5, 6, 7) is filled with fluids or granular matter until the upper surface of this elastic hollow body is stretched tight.

These elastic cuboid bodies are here as Sen called sortaschen. The sensor bags are arranged in parallel and then placed to perform the measurement.

Their outer surface is adjacent to the cohesion to increase ten sensor pockets, either with a profile, ver similar to that of a bicycle tire or it was a coating to improve the surface adhesion applied, which takes advantage of the adhesive effect.

The external dimensions of the sensor pockets are as well the fillers to be used according to the task indi vidually chosen.

Should it not be possible to record the measured values with cables for the purpose of transmitting the measured values, e.g. B. because either there is a risk of crushing the cable (risk of severing), the pressure readings are sent by cable to a device in the respective sensor pocket for storing the pressure readings and evaluated after the measurement is complete. This device (Figure: 1 / ( 9 )) fulfills the task of a memory. It has no external cable connection.

At least two are required to carry out a measurement such sensor bags placed directly one above the other; what the Definition of this sensor corresponds.

Concerning. the interpretation of the measurement results is still on it point out that the elastic sensor pockets together be pressed.

An exclusive explanation of the damping by the filling substances (or their damping properties) are not possible.

It should also be noted that the rectangular sensor bags on the edge with bevels, if this appears advantageous.

The main purpose of these slopes is to ensure that masses from the respective environment if possible not jerky, but steadily across the sensor body move.

In this way, damage to the sensor pockets and "Irregularities" ("unexplainable effects" - more technical Type) can be avoided in the measured values.  

Title of the figures

Fig. 1 "three-layer cuboid continuous pressure sensor (lying)".

Fig. 2 "section of the attachment of a pressure measuring cell (at the bottom of a sensor pocket)".

Legend to the figures

1.) External force causing the pressure.
2.) 3.) 4.) Pressure measuring cells, placed inside the upper, middle and lower sensor pocket, each on the bottom of the sensor pocket. Note: All sensor pockets must always be placed in such a way that the following sequence is always observed: acting force, surface of the sensor pocket, filler, pressure measuring cells.
5.) 6.) 7.) Upper middle and lower sensor pocket - in this order - from top to bottom of a cuboid three-layer sensor.
8.) Openings for blowing and sucking the filler.
9.) Device for storing pressure measurements.
10.) Section from the bottom (base area) of a sensor pocket.
11.) Pressure measuring cell placed in a recess.
12.) Cable for forwarding the pressure measurements.

Claims (6)

1. Device for measuring pressure damping by filling Comprehensive materials and recording of spatial pressure profiles at least two cuboidal elastic sensor pockets, which are arranged parallel to each other and of which each is equipped with pressure measuring cells in its interior, which are on the bottom surface of the respective sensor pocket while the remaining volume of each sensor pocket is taken up by the fillers, their insulation cultivation properties in the respective arrangement made voltage should be measured. 2. Device according to claim 1, characterized in that the areas where the sensor pockets touch, have a profile comparable to that of a driver tire or are provided with a coating, which due to the use of adhesive forces Adhesion of the sensor pockets to each other improved. 3. Device according to one of claims 1 and 2 thereby ge indicates that the pressure measuring cells in the bottom surface are fixed by inserting them into recesses. 4. Device according to claims 1 to 3 characterized thereby records that the sensor pockets with bevels on the circumference are populated to make jerky shifts of them dampen masses. 5. Device according to one of claims 1 to 4 thereby ge indicates that the fillers are fluids or granular Matter are. 6. Device according to one of claims 1 to 5 thereby ge indicates that there is a device for storing the pressure readings of the pressure cells in each sensor bag is located.