CS210508B1 - Sensor for measuring the pressing pressure when bonding the material by gluing, especially when gluing the soles to the footwear manufacturing - Google Patents

Abstract

The sensor for measuring pressure when joining materials is used in the embodiment according to the invention when gluing soles in the production of footwear. Between the upper and lower electrodes is an insulating intermediate layer formed by a flexible dielectric. The sensor operates on the principle of sensing the difference in capacitances, which depend on the distance between the electrodes. Both electrodes with the dielectric actually form a capacitor. The difference in capacitances is evaluated by a device for measuring small capacitances of the order of pF, which is in the circuit of both electrodes. The pressures during gluing the sole compress the flexible dielectric, and for each sensor the characteristic of the mutual dependence of the pressure p and the capacitance C is evaluated. The progress achieved by the sensor according to the invention consists in the fact that it can be used to measure the specific pressure at any point of the glued sole with the required optimal accuracy. The wide range of measured specific pressures is within a tolerance of up to 10% accuracy.

Description

BACKGROUND OF THE INVENTION The present invention relates to a seat for measuring the compression pressure when bonding materials by gluing, in particular for gluing soles in the manufacture of footwear consisting of two electrodes with an insulating interlayer.

The known pressure measuring devices, in particular on footwear with glued soles, are of different types. On the one hand, the compression pressure is measured tensometrically in an experimental mold with a rubber filling, and on the other hand it is checked on the principle of establishing a conductive contact between two electrodes under the effect of the compression pressure. The pressure probe of the first type consists of a sensor, an upper and a lower support. The sensor consists of a thin-walled steel tube with two lids with steel balls. Strain gauge tapes are glued to the sensor surface. The disadvantage of this device is that it is actually measured on an aluminum shoe model.

A second type of prior art device consists of a special switch consisting of two metal foils between which a thin film of vulcanized rubber with a punched hole is inserted. The unit is enclosed in a rubber container. This device is based on the principle of making contact between two metal foils through an opening in the rubber intermediate liner. Thus, it is possible to determine a certain minimum pressure required to make a contact, but it is not possible to determine its exact value. Pressure distribution over the entire press circumference can also be determined by means of copy paper, grid and white paper. All these prior art devices are either expensive or inaccurate.

The purpose of the invention is to provide a sensor for measuring the compression pressure when bonding materials by gluing, in particular when gluing soles in the manufacture of footwear. The sensor shall measure the pressure at any point in the sole area within the required tolerance.

The present invention relates to a sensor for measuring the pressing pressure in bonding materials, the two electrodes being an upper electrode formed of an electrically conductive foil of a maximum thickness of 0.1 mm and a lower electrode formed of an electrically conductive lattice with mesh sizes of up to 0.3 mm. 1 mm are interconnected through a low capacity measuring instrument, the surface of the upper electrode being equal to or greater than 1:20, while the insulating interlayer is made up of a resilient dielectric up to 1.5 mm thick and an area greater than area of glued sole.

The progress achieved by the sensor according to the invention is that it can measure the specific pressure at any point in the surface of the sole to be glued to the desired optimum accuracy. The wide range of measured specific pressures is within 10% accuracy. The wire mesh from which the lower electrode is made also has a shielding meaning due to the undesirable capacities of the mold and machine.

The accompanying drawings show schematically an exemplary embodiment of a sensor according to the invention. In the giant. 1 is a front elevation of the sensor; FIG. 2 is a graph of the dielectric compression characteristic; FIG. 3 is a plot of specific pressure and capacitance; FIG.

The pressure measuring sensor according to the invention consists of two electrodes, i.e. an upper electrode 1 and a lower electrode 2 with an insulating intermediate layer J formed of a resilient dielectric of thickness up to 1.5 mm and an area larger than that of the glued sole. The upper electrode J is formed of an electrically conductive foil of a maximum thickness of 0.1 mm. The top electrode 1 in the embodiment of the invention is copper. The lower electrode 2 is made of an electrically conductive lattice with a mesh size of up to 0.3 mm and a thickness of max. 0.1 mm. The lower electrode 2 according to the invention is brass, the edge of which is reinforced with tin solder and ground.

The area of the upper electrode 1 is to the area of the lower electrode 2 in a ratio equal to or greater than 1:20. The electrodes, i.e., the upper electrode and the lower electrode 1 £ are interconnected via conductor 4. A device 3 P ^ro measuring small capacity in the order of pF. Both the upper electrode 1 and the lower electrode 2 are glued to the dielectric in such a way that it is possible to measure the pressing pressure at the desired location of the surface of the glued sole both on its circumference and in the transverse cross section2 (0508 zu) (Fig. 4). The bookmark pressures range from 0.1 to 1.5 UPa. In order to measure these pressures, a transparent moss transparent hardness of 36 ° Sh was selected as the dielectric. Its elasticity characteristic has the desired steepness in the area of the measured pressures, as shown in FIG. 2, where in mm it expresses the dielectric compression at a pressure £ in MPa.

the sensor operates on the principle of sensing the difference in capacities that are dependent on the distance of the upper electrode 1 and the lower electrode 6. The capacity difference is evaluated by the device £. For each sensor, the characteristic of the relationship between the pressure a and the capacitance C is evaluated as shown in the graph in Fig. 3. To simplify the measurement, the specific pressure can be sensed on the tab between the mold and the sole.

Claims (1)

Sensor for measuring the pressing pressure when bonding materials by gluing, in particular for gluing footwear in the manufacture of footwear, consisting of two electrodes with an insulating interlayer, characterized in that both electrodes, i.e. the upper electrode (1) formed of an electrically conductive foil of maximum 0.1 and a lower electrode (2) formed of an electrically conductive lattice with a mesh of up to 0.3 mm and a maximum thickness of 0.1 mm is connected to each other via a small capacity measuring device (5), the surface of the upper electrode (t) being the electrode (2) in a ratio equal to or greater than t: 20, while the insulating intermediate layer (3) is formed of a resilient dielectric up to 1.5 mm thick and an area larger than that of the glued sole.