DE102004058720A1 - Device for measuring pressure acting on surface has multilayer element of composite construction forming pressure-dependent resistance; outer layer of multilayer element consists of electrically conducting material - Google Patents

Abstract

The device has a multilayer element of composite construction forming a pressure-dependent resistance. An outer layer of the multilayer element consists of an electrically conducting material. The conductivity of an electrically conducting material arranged in the multilayer element varies depending on the pressure.

Description

The The invention relates to a device for measuring an acting Pressure on a surface.

It is known, pressures to measure with different devices. This is it For example, pressure cells, strain gauges, pneumatic Sensors with inductive, capacitive or resistive decoupling. It is also the determination of pressure distributions over a given measuring surface known. Therefor can be piezo-sensitive sensors in a matrix array or a area Use disposition of discrete pressure sensitive sensor elements.

adversely These methods are a high price due to the measurement arrangements high production costs, a strong dependence of the measured data of the ambient temperature and a susceptibility to electromagnetic Disruptions due high-impedance structures.

Of the Invention is based on the object, a device for measuring to create an effective pressure on a surface that is inexpensive to manufacture is independent of ambient temperatures and electromagnetic interference.

The Task is solved by that a multilayer element in the composite structure as a pressure-dependent electrical Resistance is provided.

On This way can be cost-effective measuring elements produce independently of environmental influences like temperature or electromagnetic fields accurate measurement results provide. A decoupling of other environmental influences such as For example, moisture is beneficial through use a sealing protective cover to reach. Such devices can serve as occupancy detectors for example the occupancy state determination for the trigger control of airbags be used. Furthermore, it is possible, temporal pressure gradients of part Press to investigate. Here, for example, intervals of 1 Hz to 1 kHz or more possible.

A Teaching of the invention provides that an outer layer of the multilayer element consists of an electrically conductive material. This represents one easy way a flat To ensure power drainage. This layer is made of a conductive material, preferably made of metal, to a low-resistance current dissipation without distortion to allow the measurement results.

Of Further, the invention provides that in the interior of the multi-layer element an electrically conductive material is arranged, which is its conductivity changes depending on pressure. These Layer is preferably made of a plastic. This plastic is in a particularly preferred embodiment with an electric conductive Material doped. In this case, the pressure dependence of the electrical conductivity of the plastic depend on the degree of doping. The resistance is so constructed materials is particularly good changeable by pressurization. Advantageously, the plastic is a thin plastic film, which enables the production of flexible, small-sized measuring elements.

A Further teaching of the invention provides that the multilayer element consists of three layers. These are the outer lead layers and the pressure-resistance changeable elements arranged between them Layer. Such a construction provides a simple and inexpensive Structure of a device according to the invention.

Of Further, the invention provides that it is in the electric conductive Material of the outer layer is a metal layer.

A Another teaching of the invention provides that it is in the conductive dopant to Carbon acts. Carbon-doped plastics are commercially available and thus inexpensive available.

Of Further, the invention provides that the doping is carried out in such a way, that the electrical resistance is proportional to the locally applied Pressure changes. Also, it is desirable if the doping is adjusted so that already at sufficient low pressures sufficient currents for one accurate measurement flow can.

Furthermore, a teaching of the invention provides that the outer layer is constructed of discrete conductor tracks. It is advantageous if the conductor tracks are arranged offset from one another on the opposite outer layers, whereby crossing areas between the opposite conductor tracks through the plastic arise. Particularly advantageous they are arranged at right angles. As a result, individual crossing areas are advantageously created, each crossing area representing an individual pressure measuring element, which as a whole forms a measuring matrix. Due to the discrete conductor tracks, the individual measuring elements can be controlled directly, whereby a precise tapping of the individual acting pressures is possible.

Advantageous it is according to one further teaching of the invention, when conductor tracks incorporated into a surface are. In this case, one side of the conductor tracks partially or completely incorporated be. An embodiment hereby offers the possibility to weave the conductor tracks in a fabric or upholstery. such Pads can be used in motor vehicles, for example, whereby the measuring elements incorporated directly into the motor vehicle seats can be. These can then be used to control functions of the motor vehicle deploy.

A Another teaching of the invention provides that the respective interconnects via Kontaktierungsleitungen connected to a multiplexer. It is particularly advantageous if the multiplexing logic as ASIC (application specific integrated circuit) is designed.

According to one Further teaching of the invention provides the device according to the invention a pressure dependent Heating element.

following the invention with reference to an embodiment shown in the drawing further described. It shows

1 a schematic side view of a first embodiment according to the invention,

2 a circuit diagram view of the first embodiment of the invention,

3 a schematic plan view of the top of a second embodiment of the invention and

4 a schematic plan view of the underside of a second embodiment of the invention.

In 1 a first embodiment of a device according to the invention is disclosed. In the form of a composite material structure, also called a sandwich, a planar electrical resistance 1 interconnected, which is composed of three levels. The outer layers 2 . 3 consist of metal foil, while the interior 4 consists of a plastic film. This structure results in a pressure measuring sensor. In order to achieve a seal against environmental influences, a protective cover (not shown) is arranged around the measuring sensor.

About the lower layer 2 and the upper layer 3 An electrical connection with a measuring circuit is generated. At the layers 2 . 3 are electrically conductive connections 5 attached, which lead out of the device to measure the electrical resistance between the outer layers can. This is in 2 shown. Be as shown here pressures p ₁ , p ₂ , p _i on an outer layer 2 . 3 applied, so the resistance of the surface and thus also the voltage drop U _(p) , which thereby becomes proportional to p, where p = Σp _i . The device can be operated with DC and AC voltage, with DC no polarization effects occur. By means of a Vorwiderstands 6 The range of the current flow can be adjusted, for example, to specify current flow limits.

By integrating the individual p _i across the measuring surface of the total pressure is determined, whereby the device is suitable for weight measurement in the form of a flat scale.

The measuring layer 4 consists of commercially available films of carbon-doped polyethylene or polyester. Such films are commonly used as protection against electrostatic fields for electronic components. The doping itself allows the conductivity of the film to be adjusted, for example, between 100 Ωcm and 10000 Ωcm.

In the 3 and 4 a further embodiment of the invention is shown schematically, with which it is possible to determine the pressure distribution prevailing on the surface to be measured, in which a measuring matrix is applied over the entire surface. For the outer films are 2 . 3 in discrete tracks 7 . 8th split, on both outer surfaces 2 . 3 each parallel to each other. On the opposite outer surfaces 2 . 3 are the tracks 7 . 8th however, offset by 90 ° to each other.

When laying the two outer surfaces 2 . 3 with their conductors arranged at right angles to each other 7 . 8th arise "crossing points" only through the film 4 are separated from each other. Each crossing area represents an individual pressure measuring element on the surface. The individual conductor tracks 7 . 8th are each with contact lines 9 provided, which conduct the currents flowing in the respective tracks outward.

This results in a measurement matrix with n rows 7 and m columns 8th , resulting in n × m die elements. About the contact lines 9 are the columns and rows each with a row multiplexer 10 and a column multiplexer 11 connected. Through the multiplexer 10 . 11 the individual sensor elements are individually addressed, wherein the (n _i , m _i ) analog output the surface pressure in the crossing region of n _i -th row with the m _i -th column. The determined signals can be digitized and further processed.

A very low cost embodiment arises when the multiplexing / digitizing logic is designed as an application specific integrated circuit (ASIC) and the external surfaces 2 . 3 are designed as flexible, in particular flexible and stretchable, printed circuits, so that no appreciable Kontaktierungsaufwand arises.

Of another leaves the device use as a pressure-dependent heating element, with only then heat is generated when a pressure on the surface acts. The device is thus suitable for use in the automotive sector as occupancy sensor for motor vehicles also as a seat heater.

By the temporal determination of pressure gradients of partial pressures is it is possible pressure changes at intervals of 1 Hz to 1 kHz or more. hereby For example, seat positions of people in cars can be used controlled and adapted triggering of airbags. This can in particular by the pressure distribution determines the position of the head and in particular of the face become.

A further use is the coupling of the pressure curves with the vehicle suspension. By changing the pressure gradients on the seat can the suspension is changing road conditions be adjusted. Other fields of application for devices according to the invention represent medical technology, in particular orthopedics, for example for measuring the stress distribution on the back and spine or the optimization of the reclining geometry of patients, the technical Mechanics, for example for determining and checking the effects of hydraulic / pneumatic components and the safety technology. The latter is the use of Sensor mats as alarms when pressure changes either by removing of objects or entering areas imaginable.

Claims (24)

Device for measuring an effective pressure on a surface, characterized by a multilayer element in the composite structure as pressure-dependent electrical resistance. Device according to claim 1, characterized in that that an outer layer of the multilayer element made of an electrically conductive material consists. Device according to Claim 1 or 2, characterized that in the interior of the multilayer element is an electrically conductive Material is arranged, which changes its conductivity dependent on pressure. Device according to one of claims 1 to 3, characterized that the multilayer element consists of three layers. Device according to one of claims 2 to 4, characterized that is the electrically conductive material of the outer layer is a metal layer. Device according to one of claims 3 to 5, characterized that it is the pressure dependent electrically conductive Material is a plastic. Device according to claim 6, characterized in that that the plastic is doped with an electrically conductive material. Device according to claim 7, characterized in that that the pressure dependence the electrical conductivity of the plastic depends on the degree of doping. Connecting element according to claim 7 or 8, characterized characterized in that the conductive doping material is um Carbon acts. Connecting element according to one of claims 7 to 9, characterized in that the doping is carried out in such a way that the electrical resistance changes in proportion to the locally applied pressure. Device according to one of claims 1 to 10, characterized that the outer layer is off discrete tracks is constructed. Device according to claim 11, characterized in that that the tracks on the opposite outer layers offset from each other, thereby crossing areas between the opposite one Tracks are formed through the plastic. Device according to claim 12, characterized in that that the conductor tracks are arranged at right angles to each other. Device according to claim 12 or 13, characterized that each crossing region represents an individual pressure measuring element. Apparatus according to claim 14, characterized in that the pressure measuring elements a Represent measurement matrix. Device according to one of claims 11 to 15, characterized that tracks into a surface are incorporated. Device according to claim 16, characterized in that that it is at the surface is a seat cushion. Device according to claim 17, characterized in that in that the seat cushion is the cover of a motor vehicle is. Device according to one of claims 11 to 18, characterized that the respective interconnects via Kontaktierungsleitungen connected to a multiplexer. Device according to claim 19, characterized in that that the multiplexing logic ASIC (application specific integrated circuit) is designed. Device according to one of claims 1 to 20, characterized that a sealing protective cover is provided. Use of a device according to one of claims 1 to 20 as a heating element. Use of a device according to one of claims 1 to 20 as a control. Use of a device according to one of claims 1 to 20 as a control of a motor vehicle function representing Component.